National Symposium
on
Biodiversity and Food Security:
Challenges & Devising Strategies
December 10-11, 2011
IIPR, Kanpur
Souvenir & Abstracts
Compiled and Edited by:
Dr. N.P. Singh
Dr. P.S. Basu
Dr. Naimuddin
Co Sponsors
Council of Science & Technology, Lucknow
Uttarakhand Seed & Tarai Development Corporation Ltd.,
Uttarakhand
J K Cement Ltd
Biotechnology Research Foundation, Kanpur
National Symposium
on
Biodiversity and Food Security: Challenges & Devising Strategies
December 10-11, 2011
IIPR, Kanpur
STEERING COMMITTEE
Dr. B.B. Singh, ADG (Oil Seeds & Pulses), ICAR, New Delhi
DR. C.L.L. Gowda, Research Program Director - Grain Legumes, ICRISAT
Dr. Ashutosh Sarker, Coordinator for South Asia Program & Food legume Breeder,ICARDA
Dr. Seema Wahab, Ex-Advisor, DBT, New Delhi
Dr. G.C.Mishra, Director, National Centre for Cell Science, Pune
Dr. K. C. Bansal, Director, NPBGR, New Delhi
Dr. Sanjay G. Dhande, Director, IIT, Kanpur
Dr. G. N. Qazi, V.C., Jamia Hamdard University, Delhi
Dr. G. C. Tewari, V.C , CSUA&T, Kanpur
Prof. (Dr.) S.B.Lal, PRO V.C., SHIATS, Allahabad
Dr. P.K. Seth, CEO,Biotech Park, Lucknow
Dr. P.S. Shukla, GM,Uttarakhand Seed & Tarai Development Corporation Ltd., Uttarakhand
Dr. M.K.J. Siddiqui, Director, Council of Science & Technology, Lucknow
Dr. N. Nadarajan, Director, IIPR
Dr. Masood Ali, Former Director, IIPR, Kanpur
Dr. S. S. Ali, President, DSARD and Organizing Secretary
ORGANIZING COMMITTEE
Dr. N. Nadarajan, Director, IIPR and Organizing Chairman
Dr. S. S. Ali, President, DSARD and Organizing Secretary
Dr. Priti Singh, HoD, Deptt. of Botany,S.N.Sen B.V.P.G. College
Kanpur,Co-Organizing Secretary
Dr. N.P. Singh, Coordinator, AICRP Chickpea, IIPR
Dr. Sanjeev Gupta, Coordinator, AICRP MULLaRP, IIPR
Dr. P.K. Ghosh, HoD, Crop Production, IIPR
Dr. S.K. Chaturvedi, HoD, Crop Improvement, IIPR
Dr. C. Chattopadhayay, HoD,Crop Protection, IIPR
Dr. S.K. Chaturvedi, HoD, Crop Improvement, IIPR
Dr. Jagdish Singh, HoD, Physiology, Biochemistry & Microbiology,
IIPR
Dr. S.K. Singh, HoD, Agri. Extension, IIPR
Dr. Hem Saxena, IIPR, Kanpur
Dr. Shiv Sewak, IIPR, Kanpur
Dr. R.G. Chaudary, IIPR, Kanpur
Dr. Naimuddin, IIPR, Kanpur
Dr. Mohd. Akram, IIPR, Kanpur
Dr. Dev Raj Mishra, IIPR, Kanpur
Dr. Kuppuswamy Subramaniam, I.I.T., Kanpur
Dr. Huma Mustafa, Council of Science & Technology, Lucknow
Dr. Shilpa Kaistha, Head, I.B.S.B.T., CSJM University, Kanpur
Dr. Madulika Singh, HoD, Deptt of Biotechnology, CSJM
University, Kanpur
Dr. George Thomas, HoD, Deptt. of Biotechnology, SHAITS,
Allahabad
Dr. Rubina Lawrance, HoD, Deptt. of Microbiology, SHAITS,
Allahabad
Dr. A.K. Gupta, Prof. Head, Faculty of Agri., Mahatma Gandhi
Chitrakut Gramudaya Vishwidalaya, Satna
Prof. S.P. Singh, Dean, Faculty of Science, Bhundelkhand
University, Jhansi
Dr. Girdhar Kumar Pandey, Univeristy of Delhi, New Delhi
Dr. R.S. Sharma, Director, Saii College of Medical Sciences, Kanpur
Dr. Arun Parsad Chopra, Deptt of Biotech. & Chemical
Engg.,Hindustan College of Engg. & Tech., Agra
Dr. Manish Singh Rajput, HoD, AITH, Kanpur
Dr. P.L. Sengar, Principal, S.N. Sen B.V.PG College, Kanpur
Dr. S.K. Singh, Prof., Entomology, CSAU&T , kanpur
Dr. B.K. Diwedi, Director, Bioved Society, Allahabad
Prof. Sarveshwar Rao, Head, Botany Deptt, Dayalbagh Educational
Institute, Agra
Prof. M.Y. Khan, Deptt. of Biotechnology, BBAU, Lucknow
Dr. Sangeeta Saxena, Deptt. of Biotechnology, BBAU , Lucknow
Dr. S.B. Srivastava, Deptt. of Zoology, DBS College, Kanpur
Dr. Sudha Rani Yadav, Deptt. of Microbiology, DBS College,
Kanpur
Dr. Manishi Tripathi, Deptt. of Microbiology, CSJM University,
Kanpur
Dr. Anwar Masood, Deptt. of Botany, G.F. College, Shahjahanpur
Dr. Hamid Khan, HoD, Deptt. of Botany, Tilak Degree College,
Auraiya
Dr. Mohd. Israil Ansari, Deptt. of Biotechnology, AMITY
University, Lucknow
IMPORTANT COMMITTEES
RECEPTION COMMITTEE
REGISTRATION COMMITTEE
Chairman
:
Dr. N. Nadarajan
Chairperson :
Dr. Hem Saxena
Members
:
Dr. N.P. Singh
Members
Dr. Naimuddin
:
Dr. Sanjeev Gupta
Dr. Uma Sah
Dr. N.D. Mujamder
Dr. P.K. Ghosh
Dr. S.K. Chaturvedi
Dr.C.Chattopadhyay
Dr.Jagdish Singh
ACCOMODATION & TRANSPORTATION
COMMITTEE
Chairman
:
Dr. S.K. Singh (EXT)
Members
:
Dr. R.G. Choudhry
Dr. C.S. Prahraj
Dr. S.K. Singh
Dr. Uday Jha
Mr. Rajender Singh (A.O.)
Mr. Shiv Gopal (Path)
Mr. K.N. Gupta (F&A.O)
Mr. Rakesh (Breeding)
PROGRAMME COMMITEE
Chaiman
:
Dr. Masood Ali
Members
:
Dr. S.K.Chaturvedi
Dr. P. K. Ghossh
FOOD COMMITTEE
Chairman
:
Dr.S.S. Ali
Member
:
Dr. Shiv Sewak
Dr. Mohd. Akram
Dr. C. Chattopadhyay
Mr.Omkar Nath
Dr. Jagdish Singh
Dr. M.P. Singh
Mr. Arvind
PUBLICATION COMMITTEE
Chairman
:
Dr. N.P.Singh
Members
:
Dr. P.S.Basu
Dr. Naimuddin
POSTER
COMMITTEE
Chairman
:
Dr. Jagdish Singh
Members
:
Dr. P. Durrimurugan
HALL COMMITTEE
Dr. Murlidher Aski
Chairman
:
Dr. Devraj Mishra
Dr. Rajesh Kumar
Members
:
Er. Persoon Verma
Mr. Krishna Autar
Mr. Awasthi
Dr. A.P. Khare
ANCHOR
Dr. Uma Sah
PRESS PUBLICATION COMMITTEE
Chairman
:
Dr. S.K. Singh
Member
:
Mr.Divakar Upadhayay
CONTENTS
Messages .................................................................................................... ......................... i-iii
Invited Papers .................................................................................................... .............. 1-13
Abstracts .................................................................................................... ......................... 14i.
Biodiversity and Genetic Enhancement .................................................................. 00
ii.
Sustainable Crop Production ................................................................................... 00
iii.
Post Harvest Technology .......................................................................................... 00
iv.
Biotic Stress Management ......................................................................................... 00
v.
Global Warming and Climatic Issues ...................................................................... 00
vi.
Abiotic Stress Management ...................................................................................... 00
vii.
Biotechnology and Food Security ............................................................................ 00
viii. Miscellaneous .................................................................................................... ......... 00
Invited Papers
INVITED PAPERS
I-01
ENSURING FOOD SECURITY IN INDIA BY 2050
N. Nadarajan
Indian Institute of Pulses Research, Kanpur – 208 024
The population of India with a growth rate of about 2.3 percent has crossed almost 1.2 billion in 2010 and is likely to be the most
populous country in this world by 2050 with about 1.6 billion people. At present, India alone accounts for one fourth of all world
hunger. India needs to produce 265 million tons of cereals, about 40 million tons of pulses and nearly 450 million tons of all food
grains by the end of 2050. The natural resources, which we have, are limited especially the land and water. Raising productivity
of staples like rice and wheat is a challenge as the area under these grains is likely to remain constant or even decrease due to
increasing pressure on land for non-agricultural uses. Rainfed agriculture predominantly occupied by pulses, oilseeds and
coarse cereals accounting more than 60% of agricultural lands in India is highly prone to climate adversities posing a constant
threat for our food security. Water is also becoming scarce and single most important critical factor for agricultural productivity
which is now becoming a major limiting factor for crop production. There is change in weather pattern and climatic condition.
Frequency of erratic rain, floods and droughts have increased considerably. Fertility of land is declining. Soil health, too, has
been on a decline because of the excessive use of fertilisers and pesticides. Several micronutrients, vital for getting good crop
yields, are becoming deficient. The yields of several key food crops are tending to reach the plateau. Achieving a quantum jump
in food production is thus difficult under such circumstances. The biggest challenge to food security has been posed by the global
warming and the resultant climate change. Rice production in India could decrease by almost a tonne/hectare if the temperature
goes up 20C, while each 10C rise in mean temperature could cause wheat yield losses of 7 million tonnes per year. The output of
other food crops is also likely to be hit by the climate change-induced erratic weather, more frequent droughts and floods and
other stresses caused to the food crops. Coping with the impact of climate change on agriculture will require careful management
of resources like soil, water and biodiversity. Making agriculture sustainable is key, and is possible only through production
systems that make the most efficient use of environmental goods and services without damaging these assets. Keeping in view
the challenges of growing population and the need for food security, two major programmes have been launched recently to
augment food production and availability in the country. The first one is the ‘National Food Security Mission’ targeted to push
both production and productivity of stable food grains such as wheat, rice and pulses on a mission mode. The other programme
‘Rashtriya Krishi Vikas Yojna’ provides for additional assistance by Central Government as 100% grant to incentivize States to
take up agriculture development on priority and in a comprehensive manner with definite action plans.
Preservation of rich biodiversity , gene/allele mining, tapping potential fertile lands of eastern India for expansion of agricultural
crops, higher seed replacement rates, quality seed production and distribution, transformation of the traditional monocropping
to double or multiple cropping systems in specific agroclimatic zones, development of climate resilient crops, biotechnological
intervention for pest and drought proofing, efficient water and nutrient management and implementation of effective Government
policies would be the strong basis for ensuring food security in India for 2050.
I-02
GENETIC ENHANCEMENT FOR YIELD AND OTHER TRAITS IN CHICKPEA
S.K. Chaturvedi, N. Nadarajan, M. Aski, U. C. Jha and Neelu Mishra
Indian Institute of Pulses Research, Kanpur- 208024, India
Chickpea (Cicer arietinum L.) is one of the major pulse crops grown in India covering 9.06 million hectares area and producing
8.25 million tonnes of the grains. In India, more than 68% chickpea is still grown as rainfed crop on conserved soil moisture
under short and comparatively warm (central and south) to long and cool (north India) growing seasons. The chickpea is grown
in many parts of the world (semi-arid to arid environments) covering Asia, Africa, Europe, Australia and North and South
America. South-eastern Turkey adjoining Syria is considered to be the centre of origin (Ladizinsky, 1975) for this crop. The
European (kabuli: salmon white/beige coloured seeds) and the desi (coloured seeds) forms of chickpea may be viewed as
individualized races of Cicer arietinum L. The desi type accounts for about 85% of the world production and the balance being
kabuli however, cultivation of kabuli chickpea is increasing in India. Since, chickpea grains provide 2-3 times more protein than
most of the cereals, thus forms major component of the agrarian diet of the Indian sub-continent. Its role in ensuring nutritional
security and improving soil fertility is well documented. Madhya Pradesh, Rajasthan, Uttar Pradesh, Maharashtra, Andhra
Pradesh, Karnataka, Gujarat and Bihar and Chhattisgarh are the major chickpea producing states sharing over 95 % area. During
1
Abstract
last 10 years chickpea has registered significant positive growth in production, which is primarily due to introduction of high
yielding and disease(s) resistant varieties and adoption of improved production technologies besides good market price and
government support in terms of quality seed and minimum support price. Large number of biotic (diseases, insect pests,
nematodes and weeds) and abiotic (drought, temperature extremities) stresses are known to limit production and productivity
of this crop. Under ambit of All India Coordinated Research Project (AICRP), concerted breeding efforts led in development and
release of more than 75 high yielding varieties possessing resistance to major stresses during last two decades by various state
agricultural universities (SAUs), Indian Institute of Pulses Research (IIPR), Indian Agricultural Research Institute (IARI) and
International Crops Research Institute for the Semi Arid Tropics (ICRISAT). Systematic utilization of germplasm shared by
partners of national agricultural research system (NARS), ICRISAT and ICARDA (International Centre for Agricultural Research
in Dry Areas) has helped in development of wilt resistant, early maturing and large/extra large seeded varieties of chickpea
which have paved the way for cultivation of this crop at commercial scale. Since, most of these high yielding varieties have
sensitivity to one or other stresses, productivity could not be enhanced to the desired level. Broadening the genetic base through
exploitation of wild Cicer species and primitive land races from the centre of origin is likely to help in minimizing vulnerability
of present day varieties against weather vagaries. Restructuring chickpea plant types so that these are amenable for mechanical
harvesting, incorporation of herbicide tolerance and insulating these varieties against multiple stresses will certainly help not
only in enhancing yield potential but also ensure reduced cost of cultivation making chickpea cultivation more remunerative.
Molecular markers are likely to play an important role in pyramiding of genes conferring resistance to various biotic and abiotic
stresses. Once transgenics against dreaded insect pest, Helicoverpa armigera are available their utilization to minimize damage due
to this pest is suggested in present paper. The deployment of molecular markers for targeted transfer of gene(s) or/and QTLs has
been suggested to improve resistance against major biotic and abiotic stresses besides genetic yield potential. In view of the
climate change and globalization of agriculture, involvement of breeders, physiologists, molecular biologists and pathologists
in restructuring chickpea plant types for enhancement of realizable yield potential has been suggested.
I-03
TARGETING FOOD AND NUTRITIONAL SECURITY THROUGH PIGEONPEA HYBRIDS
IN INDIA
K .B. Saxena1 and N. Nadarajan2
1
International Crops Research Institute for the Semi-Arid Tropics, (ICRISAT) Patancheru, AP 502324 2Indian Institute of Pulses
Research, Kanpur, UP
Pigeonpea (Cajanus cajan (L.) Millsp.) is a high protein (20-22%) crop with global area of 4.9 m ha sown under rainfed conditions
in Asia, Africa, Latin America, and the Caribbean. In Asia, pigeonpea is grown in an area of 4.33 m ha with production of 3.8 m
tons. India has the largest area (3.38 m ha) under pigeonpea, followed by Myanmar (580,000 ha) and China (150,000 ha). Between
1976 and 2009 pigeonpea recorded 56% increase in area (2.76 to 4.33 m ha) and 56% increase in production (2.14 to 3.8 m t) but the
productivity has remained unchanged at around 700 kg/ha. To overcome the production constraint, a hybrid breeding technology
that is based on cytoplasmic nuclear male-sterility (CMS) system and natural out-crossing was developed very recently. Besides,
25-30% yield advantage in farmers’ fields. The hybrids, in general, exhibit greater drought tolerance and adaptation under
diverse growing conditions with no additional input. Since the hybrid plants have greater biomass, they require 50% less seed
rate and produce large quantity of fuel wood. The hybrids produce good yields under both rain-fed and irrigated conditions and
under good management yields of 3000 - 4000 kg/ha can be harvested easily. We believe that the hybrids will bring a breakthrough
in pigeonpea productivity and stability at individual farmer’s level and help in enhancing food and nutritional security among
the resource poor farmers.
I-04
CONSERVATION AGRICULTURE –ISSUES AND STRATEGIES
P.K.Ghosh and Narendra Kumar
Indian institute of pulses research, Kanpur
Conservation agriculture (CA), which is mainly based on the three principles of minimum soil disturbance, permanent soil
cover and crop rotation, has shown to improve, conserve and use natural resources in a more efficient way through integrated
management of available soil, water and biological resources. While conventional cultivation generally results in loss of soil C
and nitrogen, conservation agriculture has proven potential of converting many soils from sources to sinks of atmospheric C,
sequestering carbon in soil as organic matter. Leaving crop residue on the field is another practice which could have an
important impact on the global carbon cycle.Expansion of conservation agriculture can create a win-win situation through
promoting more efficient crop production and reducing soil degradation while maintaining ecosystem integrity. As a result, the
2
Invited Papers
impact of conservation agriculture has been markedly positive both in agricultural, environmental, economic and social terms.
However, the success o conservation agriculture in rainfed areas depends on two critical elements, viz., residue retention on
surface and weed control. Since residue is generally used as fodder in drylands, there is a need to determine the minimum
residue that can be retained without affecting the crop-livestock system. Initially, emphasis may be given for crops whose
residue is not used as fodder. Conversions to CA should be gradual farmers need to learn to manage the new system properly
under his circumstances and conditions. Benefit offer by CA are not obvious in the beginning. Once the step-wise adoptions
begin, CA improves its performance.
I-05
IMPACT OF GLOBAL WARMING ON PULSE PRODUCTIVITY-ISSUES AND
STRATEGIES
P.S. Basu
Indian Institute of Pulses Research, Kanpur-208024
The climate change is primarily a consequence of increasing concentration of CO2 and other greenhouse gases leading to rise in
the earth temperature called global warming and its possible impact on agricultural productivity including pulses has now
become a serious concern. The benefits of high CO2 in the atmosphere are not yet evident or realized in terms of enhanced
photosynthesis or productivity in agricultural crops because of the dominating negative effects of high temperature on plant
metabolism. The climate change has both direct and indirect effect on crop plants. Among direct effects, the CO2 and temperature
are the major climatic variables affecting the productivity of the crops. While, shifting of rainfall pattern, hydrological cycles,
depletion of soil organic content due to enhanced soil microbial respiration and massive changes in the pest and disease
incidence are indirect effects of climate change and are considered to be more severe impacts on crop productivity associated
with rise in the temperature. The indirect effects of climate change causing erratic distribution of rainfall, suboptimal precipitation,
early or delayed monsoon, shifting of south-west monsoon, temperature extremities, all are combindly becoming the major
cause of recurrent drought events in many agro climatic zones of India. According to projection of IPCC (Intergovernmental
Panels on Climate Change) the CO2 concentrations of the atmosphere will be increased by 735 ppm from the present level of 380
ppm with a concomitant rise in temperature to 3-4 0C by 2080.Unless and until, serious efforts to be made for preventing the rise
in the CO2 due human activities , the increase in the temperature and consequently aberrant climatic conditions declining
agricultural productivity at alarming rate and shortage of country’s foodgrains production is inevitable.
Pulses in general being rainfed crops are subjected to multiple stresses in the changing scenario of climate. Summer or kharif
pulses are more tolerant to high temperature than winter pulses. The cool-seasoned legumes like chickpea, lentil , fieldpea are
more prone to expose at high temperature exceeding 400C during reproductive phase. The reproductive parts such as pollen
germination, ovule viability, anthesis , pod set and grain development are more adveserly affected >35 C than photosynthesis.
Among winter pulses, fieldpea is highly sensitive to high temperature followed by lentil and chickpea in respect to ability to set
pods > 35 C. Pigeonpea is highly sensitive to temperature extremities both below 7 C and above 40 C . Stunted growth, scorching
of apical meristem, forced maturity, induced senescence, reduced or incomplete grain, pod abortion, empty pods, hardening of
seeds , reduced pollen germination etc are typical visible symptoms observed in pulses subjected to high temperatures. Genotypes
with early phenology have advantages over late flowering groups in terms of avoiding heat stress. Therefore, development of
high yielding varieties with short maturity period and identification of drought tolerant varieties with inherent ability for
thermotoerance have been suggested as one of the important strategies to improve yield of pulses under warm climate besides
adoption of appropriate management practices to mitigate different abiotic stresses.
I-06
INTEGRATED NUTRIENT MANAGEMENT IN RAINFED PRODUCTION SYSTEMS
M.S. Venkatesh and K.K. Hazra
Indian Institute of Pulses Research, Kanpur 208 024
In many parts of the Semi-arid India, lower productivity of rain fed crops was linked to the water shortage. Erratic rainfall and
cultivation of crops without balanced nutrient inputs has led to decline in productivity of rainfed crops. Due to low productivity
of the dry lands, it was assumed that the mining of nutrients is much less than under the irrigated systems. However, in the
Indian rainfed regions, negative balances of nitrogen and phosphorous and recently, wide spread deficiency of other nutrient
elements such as sulfur (S), zinc (Zn) and boron (B) have been reported in the rainfed areas of India.
Generally, the use of mineral and organic fertilizers in the rainfed production systems is minimal compared to the irrigated
production systems. Most of the fertilizer used in India is confined to irrigated production systems. In the rainfed production
3
Abstract
systems, the deficiency of nutrients are increasing in spread due to little amounts of organic manures used, poor recycling of crop
residues and low use of N and P nutrients. In the recent years, there is a set back to the use of single super phosphate and now
fertilizer materials like diammonium phosphate and several grades of complex fertilizers are being used as major nutrients
sources by the farmers and as a consequence soils are increasingly becoming deficient in sulfur (S) and other micronutrients. Use
of chemical fertilizers in past three decades has no doubt played a pivotal role in bringing out green revolution in India but their
indiscriminate use has not only resulted in their under-utilization or leaching of nutrients to the underground water resources
besides adversely affecting the nutrient balance in the soils. It is now being increasingly realized that concept of nutrient
management through integrated use of organic manures or materials and chemical fertilizers especially under rainfed production
systems can help in sustaining crop production including pulses and more importantly maintaining the soil ecosystem. Integration
of chemical, organic and biological source of nutrients and their efficient management have been found effective in not only
sustaining the productivity and soil fertility but also sustaining a part of mineral fertilizers in rainfed production system. The
basic concept underlying integrated nutrient management (INM) is the maintenance or adjustment of soil fertility / productivity
and of optimum plant nutrient supply for sustaining the desired level of crop productivity through optimization of benefits
from all possible sources of plant nutrients including locally available ones in an integrated manner while ensuring environmental
quality. In practical terms, INM is a system of crop nutrition in which plant nutrient needs are met through a pre-planned
integrated use of mineral fertilizers, organic manures / fertilizers (eg. Green manure, recyclable waste, crop residues, fym etc.)
and bio fertilizers. Appropriate combination of different sources of nutrients varies according to the system of land use and
ecological, social and economical conditions at the local level. The interactive effects of various components of INM (organic
manure, crop residue and bio fertilizer besides mineral fertilizer) have been found superior to their single use.
I-07
DEVELOPMENT OF HERBICIDE TOLERANT FOOD LEGUME CROPS THROUGH
GENETIC ENGINEERING: POSSIBILITIES AND PROSPECTS
N. P. Singh1 and Indu Singh Yadav2
1
Indian Institute of Pulses Research, Kanpur-208010, India
National Research Centre on Plant Biotechnology, NewDelhi-110012, India
2
Weeds are one of the major problems in agriculture. Weeds compete with other crops for water and nutrients and, as a result,
decrease yields and productivity. Without weed control it is extremely difficult to harvest crops. Mechanical weed control is
fraught with high-energy costs, facilitates soil erosion and compaction and has been mostly replaced by chemical weed control
using herbicides. As countries industrialize and develop economically, cheap farm labour becomes unavailable, thus increasing
the necessity for cost-effective chemical weed control. In India, weeds cause the highest loss (33%) followed by pathogens (26%),
insects (20%), storage pests (7%), rodents (6%) and others (8%). In India, it has been estimated that the potential yield losses due
to weeds in different field crops would be around 180 million tonnes, valued at Rs. 105,0000 millions annually (Anonymous,
2008). As compared to developed countries, however, the position is different as herbicides form a meagre 15 percent of the total
pesticide consumption in India. But still, the consumption has increased rapidly from 4100 metric tons (MT) in 1988-89 to 13,764
MT in 2004 and it is likely to further increase in future (Varshney and Mishra, 2008). Given the harmful economic implications
of poor weed management, it is hardly surprising that herbicide production is a main driver of the agrochemical industry. Too
often there is no selective chemical that can control a particular weed in a particular crop, as most selectivity between crop and
weed are due to catabolic degradation of the herbicide by the crop. Therefore, closely related weeds are to be expected to have
similar catabolic pathways as the crop and thus escape the chemical effect. This is one major reason that genetically modified
herbicide-resistant crops (GM-HRC) have become so useful, and that biotechnology has been utilized to produce such crops as
well as to find new herbicide targets. Selectivity can be enhanced by inserting exogenous resistance genes into the crops or by
selecting natural mutations. However, one major concern about transgenic herbicide resistant crops (HRCs) is that the transgene
could genetically introgress into related weeds, and make them resistant and therefore, their careful management comes into
account. In 2003, herbicide resistant crops made up 73% of the total genetically-modified (GM) crop growing area, while insect
resistant crops only constituted 18%. The food legumes like chickpea, pigeonpea, fieldpea, lentils urdbean and mungbean are
very important for food and nutritional security of poor people in India. These crops suffer to a great extent (33%) due to
infestation by weeds. At present, no successful post emergence selective weedicide is available which can be effective to control
weeds as these crops are highly sensitive to application of herbicides. However, development of genetically modified herbicide
tolerant pulse crop is not priority researchable area in India. Although, genetic transformation has been successfully attempted
in chickpea, pigeonpea and fieldpea with bar gene (used as selectable marker) and stable transformants have been recovered
which show considerable degree of resistance to phosphinothricin (Singh et al., 2009). This work has paved the way to develop
herbicide tolerant transgenics in these crops. However, there are far too few concrete molecular and biochemical data published
about the properties of these crops and thus there are problems in evaluating them for improvements.
Adoption of molecular-based methods in weed science research will bring a new dimension to the science and can have “far
reaching benefits in agriculture and biotechnology”. One potential benefit of genomics research is the discovery of new targets
4
Invited Papers
for herbicide action. Other benefits may include identification and use of genes that contribute to a crop’s competitive ability
(e.g., early shoot emergence, rapid early growth, fast canopy closure, production of allelochemicals). Genomics may also
discover genes that contribute to weediness, a plant’s perennial growth habit, seed dormancy and allelopathy.
I-08
DNA MARKERS AND MARKERS ASSISTED SELECTION IN FOOD CROPS
P. K. Agrawal and J. C. Bhatt
Vivekananda Parvatiya Krishi Anusandhan Sansthan (ICAR), Almora- 263601, Uttarakhand
Email: pawancrri@yahoo.co.in
Molecular markers have been applied in quantification of genetic diversity, genotype identification, delineation and marker
assisted selection. They have been effectively used due to their abundance, high level of polymorphism, reproducibility and
being independent of the environment, in many food crops like rice, wheat, maize, soybean, chickpea and lentil. Different types
of DNA markers used in food crops include RAPD, RFLP, AFLP, SSRs, ISSR, STMS, EST-SSRs and SNPs.
DNA makers have been used successfully for ‘Maker Assisted Selection (MAS)’ in many food crops like rice, maize, wheat and
soybean for improvement of quality traits, durable resistance against diseases and insect-pests and abiotic stresses like salinity
and submergence. In rice Improved Pusa Basmati 1 for resistance against bacterial blight and Swarna Sub 1 for submergence
tolerance are successful examples. Similarly Vivek QPM 9 was the first MAS derived QPM maize released for commercial
cultivation. FQH 38 and FQH 55 are the two promising QPM hybrids derived from marker assisted breeding. Similarly MAS
work is going on in many laboratories of India in different food crops like wheat, soybean and chickpea. In wheat the emphasis
is being on rust resistance and quality traits whereas it on resistance against resistances against diseases in chickpea and kunitz
trypsin inhibitor-free varieties in soybean. Similar efforts are being made by many laboratories globally in those crops.
Molecular breeding employing DNA markers not only saves resources but also expedite the breeding breeding programme by
reducing the time required for development of varieties. It is quite evident from those successful examples.
I-09
MANAGEMENT OF SOIL BORNE PATHOGENS IN PULSES
R.G. Chaudhary
Indian Institute of Pulses Research, Kanpur-208 024
E-mail: rgc_1234@yahoo.com.
More than 100 pathogens are known to attack the pulses. However, the major pathogens which are primarily soil borne and
cause root and stem diseases are economically most important and are limited in number. Many of them are also seed borne
which play active role in their dissemination, distribution and annual recurrence. Such pathogens need multipronged approaches
for management of soil as well as seed borne inocula. The major soil borne pathogens are Fusarium oxysporum, F.udum, F. solani.
F. equisetii, F. chlamydosporum, Rhizoctonia solani, R. bataticola (Macrophomina phaseolina), Sclerotium rolfsii, Sclerotinia sclerotiorum,
Phytophthora drechsleri f. sp. cajani (Pdc), Ascochyta spp. and Pythium spp. These pathogens cause wilts, wet root rot, dry root rot,
damping off, stem rot, collar rot and stem blight etc. in different pulse crops. Except wilt pathogens, Pdc and Ascochyta spp. which
are specific to their hosts, all others have wide host range and infect all pulses in different regions and seasons under favourable
environments. The factors which determine the longevity of survival, infection processes, intensity of disease etc. in a field are
soil texture, moisture, pH, soil temperature, cropping systems, presence of host crop residues, soil ecology and cultural practices
adopted for the crop management. Thus, above factors ultimately form the basis for the management of soil borne pathogens of
major grain legumes. The approaches found effective for their management are fallowing, deep ploughing in summer and rainy
season, crop rotations, wider spacings, adjustment of sowing dates, clean cultivation, ridge planting, need based irrigation,
growing disease resistant varieties, use of bioagents and need based seed treatment and spray of fungicides. Crops which have
been found most effective in the management of soil borne pathogens in pulse ecosystem are sorghum, linseed, sesame, wheat,
mustard, barley and tobacco. The allelo chemicals from their roots are antagonistic to these pathogens and adversely affect their
population and infection process. Breeding resistant varieties are the best option for disease management. Concentrated efforts
in past two decades have led to release of resistant varieties against wilts of chickpea, pigeonpea and lentil, tolerant varieties of
chickpea against dry root rot and ascochyta blight and tolerant varieties of pigeonpea against phytophthora blight. However,
Variability in wilt and root rot pathogens has been a limitation in the stability of resistance. Efforts are on to identify the races
and race specific donors for wilt and dry root rot resistance. Within the frame work of integrated management systems biocontrol
of diseases in pulse crops is being successfully exploited. Informations available indicated the effectiveness of Trichoderma spp.,
Pacilomyces lilacinus, Aspergillus spp. Pseudomonas fluorescens and Bacillus subtilis in the management of wilts, root rots and collar
5
Abstract
rot pathogens in pulse ecosystem. However, there is need to findout more efficient isolates of these bioagents which are effective
under diverse edaphic conditions such as high temperature, high pH, high moisture and moisture stress environments where
grain legumes are generally grown. The potential of genetic engineering in the understanding of disease resistance genes and
their pyramiding for developing multi race, multi disease and multi adversity resistant variety at faster speed is the need of the
day for sustainable IDM systems.
I-10
EFFECT OF HANPV AT DIFFERENT STAGES AGAINST POD BORER, HELICOVERPA
ARMIGERA HUBN. IN PIGEONPEA
S. K. Singh and Jeewesh Kumar
Indian Institute of Pulses Research, Kanpur
Indian Institute of Pulses Research is implementing DAC funded collaborative project on “Increasing Chickpea and Pigeonpea
Production through Intensive Application of Integrated Pest Management” since May 2010 with 3 sites (Maudaha and Kurara in
Hamirpur and Kamasin in Banda district). Long duration pigeonpea was cultivated in three locations to demonstrate IPM
modules at different stage of crop at farmer’s fields. To assess efficacy of HaNPV, total 125 pigeonpea farmers including 60 in
Kamasin (Banda), 35 in Kurara and 30 in Maudaha (Hamirpur) were identified, respectively. Farmers sprayed HaNPV @ 250 LE
at different crop stages viz; flower initiation, flowering, flowering & podding and podding in Kamasin, Kurara and Maudaha.
The effect of HaNPV indicated that spraying at flower initiation stage was found very effective in reduction of larval population
of pod borer in pigeonpea, Only 9.42 % pod damage and highest yield 12.00q/ha was recorded in Kamasin unit of Banda district,
Kurara (8.77 % pod damage and yield 10.30 q/ha) and Maudaha (8.18 % pod damage and yield 10.00 q/ha) followed by flowering
stage with 11.70 % pod damage and yield 1.50 q/ha in Kamasin, 10.23 % pod damage and yield 8.90 q/ha in Kurara, 10.40 % pod
damage and yield 8.20 q/ha in Maudaha. Spraying at poding was least effective with highest 18.06 % pod damage and lowest
yield 8.40 q/ha in Kamasin, 16.87 % pod damage and 6.20q/ha yield, 15.60 % pod damage and 5.10q/ha yield. Majority of farmers
were convinced with the effect of HaNPV at flowering stage against control of pod borer in pigeonpea. Farmers expressed their
willingness to apply HaNPV in large scale provided availability in the nearby market is assured. It has been inferred from the
study that quality HaNPV should be available in time at local market for large scale application.
I-11
GENETIC ENHANCEMENT FOR IMPROVEMENT OF URDBEAN AND MUNGBEAN
Sanjeev Gupta
Indian Institute of Pulses Research, Kanpur
Urdbean and mungbean are ancient crops of India. These are grown either as a subsistence intercrop during kharif season,
monocrop on residual moisture in rabi (rice fallow) or in spring/summer season in between two main crops. Therefore,
breeding for each growing situation is of immense importance. Breeding for early maturity (65-75 days) provides suitability for
its cultivation in summer/spring season. Since MYMV is serious production constraints for these crops, breeding for resistance
to diseases was emphasized. With the introduction of crop in rice fallow of coastal regions, breeding for resistance to powdery
mildew and cercospora leaf spot has also assumed importance. However, attention also needs to be given to breeding for
resistance to bacterial leaf spot, macrophomina blight and crinkle virus and tolerance to hairy caterpillar, galerucid beetle and
blister beetle. Wherever possible, breeding for green seeded types and increased seed size has also been undertaken. Nevertheless,
increased seed yield has been the primary objective in almost all breeding programmes. Conventional methods have been used
almost exclusively in breeding programmes. These include mass selection, pedigree selection, back crossing and mutation
breeding. Nearly, 50 % of the cultivars released so far were selections from landraces. Therefore, selection has been the predominant
method of improvement. With the crops occupying area under non-traditional production system e.g., summer/ spring cultivation
and in rice fallows, need of combining two or more traits in a cultivar was gradually experienced. As a result, during the last two
decades, more than 70 % of releases were developed through hybridization. Single, double, three- way and back crosses were
used for the creation of desired recombinants. Top crosses, intermatings in early segregating generations and recurrent selections
are not popular at the moment in improvement programme. The modest beginning was made for use of mutagens in creating
desired variability for early maturity traits. Three early maturing cultivars viz., Co 4, Sarla and Vamban 2 of urdbean and MUM
2 of mungbean have been developed through mutation breeding. Sarla and Vamban 2 are MYMV resistant mutant of T 9 while
Co 4 is a bold seeded mutant of Co 1. For other desired traits, e.g., erectness, compact plant type, seed coat colour, etc., the
method is yet to be used extensively. Interspecific hybridization has gained impetus during last two decades as improved
hybridization techniques have increased the possibilities of successful crosses. HUM1, Pant M 4, Meha and IPM 2-3 of mungbean,
Mash 101, VBG 4-008, KUG 417 and TU 26-1 of urdbean are successful products of interspecific hybridization.
6
Invited Papers
Past breeding efforts in the development of urdbean varieties have utilized only a fraction of the vast available diversity. Prebreeding or genetic enhancement needs emphasis for transfer or introgression of genes and gene combinations from unadapted
sources into more usable breeding material. There are indications that novel and useful traits can be successfully combined from
related species. For example, more seeds per pod of mungbean can be transferred to urdbean. Bruchid resistance, an altogether
novel characteristic not found in the parent species, can be recovered in the segregating generations of mungbean x urdbean
cross. Development of relatively photo and thermoinsensitive coupled early flowering varieties could be another strategy for
increasing production. Such varieties can be grown, as intercrops during non- traditional seasons or as catch crop in existing
rotations without disturbing the economically dominant crops.
I-12
GENETIC ENHANCEMENT FOR IMPROVING PRODUCTIVITY OF FIELDPEA AND
LATHYRUS
G.P. Dixit
Indian Institute of Pulses Research, Kanpur
Fieldpea is an important rabi pulse crop which is highly productive and is grown for food, feed and vegetable. In Indian, fieldpea
occupies 0.76 million hectare area with an annual production of 0.67 million tons. Unlike other pulse crops, its cultivation is also
distributed to the rainfed areas and on marginal and sub-marginal lands generally poor is soil fertility. Apart from agroecological constraints, fieldpea is prone to diseases like powdery mildew, rust and root rot. These biotic stresses have been
reported to reduce the productivity of pea crop by 15-20%. Some other major constraints are high temperature stress and
susceptibility to water logging. In India, field pea breeders have concentrated on three characters viz. tendril (afila), dwarf plant
type and powdery mildew resistance. These three genes are being extensively used in the breeding programme which has
resulted in the development of a number of high yielding varieties resistant to powdery mildew. The first powdery mildew
resistant variety Rachna was released in 1980. This variety was developed from cross T 163 X Type 10. Later, some more powdery
mildew resistant and high yielding tall varieties like Pant P 5, DMR 7, HUP 2, KFP 103, JP 885, Ambika, Adarsh and Aman were
released for different zones. Similarly, a number of varieties which combine resistance to powdery mildew with dwarf stature
and leafless trait have also been developed. HFP 4 (Aparna) was the first dwarf, leafless and powdery mildew resistant variety
developed from the cross of T 163 with an exotic line EC 109196. A popular dwarf variety HUDP 15 is the product of the cross (PG
3 X S 143) X FC 1 and has resistance against powdery mildew and fairly good tolerance to rust. Recently, several short duration
and dwarf varieties like Adarsh, Vikas and Prakash have been developed which escapes terminal stress and have the yield
potential of about 2.5 ton per hectare. There are some promising areas that need greater attention from field pea breeders. The
stem of pea plant is very thin and lodges at an early stage. A genetic system that can make strong and thick stem will help in
increasing its yield. Other aspect of pea breeding could be to evolve early maturing varieties as it helps to maximize the yield
per unit time. At the same time, such varieties will vacate the field in time for the spring planting of mungbean, urdbean or
sugarcane and thus can fit well in various cropping systems. Another aspect of pea breeding could be to initiate breeding
programmes for dual purpose (feed-fodder). Thus, the future needs of pea breeding should be to develop high temperature
tolerance, short duration, non-lodging and disease free varieties with 3.5 to 4.0 ton productivity.
Lathyrus sativus L. also called grasspea or chickling pea is another important rabi pulse crop mainly used as food, feed and fodder.
It is very tolerant of drought conditions and has been grown successfully in areas with an average annual precipitation of 380 to
650 mm. It has a very hardy and penetrating root system and, therefore, can be grown on a wide range of soil type, including
very poor soil and heavy clays. Despite all the advantages compared to other crops, relatively little efforts has been extended to
improve this very hardy pulse crop. The main reason has been the knowledge that excessive consumption of grasspea can lead
to a neurological disorder, called Lathyrism in man and domestic animals. Lathyrus occupy an area of 0.45 million hectares with
annual production of 0.31 million tons. Its cultivation is mainly concentrated in the states of Madhya Pradesh, Chhatisgarh,
Maharashtra, Bihar and West Bengal. Approximately, 70% of the acreage is concentrated in Chhatisgarh and Vidarbha region of
Maharashtra. This is a rice growing region having canal irrigation for rice only and no water is available for winter crops, thus,
Lathyrus is the only alternative/ bonus crop grown under paira (relay) cropping. Under this situation, it resists extreme harsh
conditions of excessive moisture at sowing and moisture stress at later states of crop growth, and yields 3 to 4 quintals of grain
per hectare.
Two approaches were suggested to tackle the problem of toxicity — developing varieties of Lathyrus which are either low or
completely free of ODAP through breeding, or detoxification of dal through leaching as ODAP is a water soluble compound.
Efforts were made through crop improvement programme for collection of local cultivars and isolation of single plant progenies
superior in yields. The extensive testing and evaluation resulted in the recommendation by the Pulses Research Workshop in
1974 for the release of variety Pusa 24 with very small amounts of ODAP (0.2%) and suitable for upland cultivation. Further
research work helped in identifying 3 varieties ‘LSD 1’, ‘LSD 3’ and ‘LSD 6’ with low neurotoxin, ranging from 0.15 to 0.2%. While
‘LSD 6’ was recommended for upland cultivation, LSD 1 and LSD 3 were suitable for Utera cultivation in rice fallows. Recently,
7
Abstract
three varieties viz, Ratan (BioL 212), Prateek (LS 157-14) and Mahateora (RLS 4595) have been developed with yield level of 1.21.5 t/ha and very low toxin level (< 0.1 %).
Detoxification of the compound by a number of approaches is another option considered to achieve this goal. Detoxification
techniques feasible both at community and home scale level are to be developed. About 90% of neurotoxin is known to seep out
into boiling water, but has limited practical scope. This is because there are some intricate problems associated with it like
marketing and distribution of detoxified and non-toxified stocks, keeping quality etc. That is the reason why the Govt. agencies
have not accepted the responsibility of detoxification. Hence, the current approach of breeding for low and stable ODAP is the
only feasible option and should continue using techniques of molecular genetics to characterize the genes and identify important
linkages to facilitate gene transfer to suitable agronomic bases. Also, genotypes with high seed yield, herbage production and
harvest index are to be developed for the replacement of fallows with an aim to increase forage production and improve soil
fertility.
I-13
PHYTOCHEMICALS IN PULSES: ROLE IN HUMAN HEALTH
Jagdish Singh
Indian Institute of Pulses Research, Kanpur-208 024
Pulse grains are rich source of protein (containing almost twice the amount of protein compared to cereal grains), dietary fiber,
complex carbohydrates, resistant starch and an array of vitamins and minerals such as folate, potassium, selenium and zinc. They
are low in fat, and being a plant food, contain no cholesterol. Pulses also contain certain bioactive components such as enzyme
inhibitors, lectins, flatulence causing galacto-oligosaccharides, polyphenols, phytates and saponins-also known as anti-nutritional
factors (ANFs)-that affect the digestibility and bioavailability of nutrients. Generally the processing of pulses inhibits or reduces
the activity of these compounds. In this era of intense bioactive research, the same ANFs are undergoing reappraisal and many
of these non-nutritive phytochemicals are increasingly being recognised for their potential benefits for human health. Lignans
and isoflavones have anticarcinogenic, weak oestrogenic and antioxidant properties. Phenolic compounds, including tannins
found mainly in the seed coat have antioxidant activity. Phytoestrogens in pulses may play a role in the prevention of hormonerelated cancers, such as breast and prostate cancer. Phytic acid exhibits antioxidant activity and protects DNA damage; phenolic
compounds have antioxidant and other important physiological and biological properties, saponins have been shown to possess
anti-cancer activity and may be beneficial for hyperlipidemia. These compounds can have complementary and overlapping
mechanisms of action, including modulation of detoxifying enzymes, stimulation of the immune system, regulation of lipid and
hormone metabolism, antioxidant, antimutagen, and antiangiogenic effects, reduction of tumor initiation, and promotion and
induction of apoptosis. The on-going research is investigating and substantiating the role of pulses and the individual
phytochemicals in offering protective and therapeutic effects to chronic health conditions such as obesity, cardiovascular diseases,
diabetes and cancer. The common processing procedures, such as soaking and cooking, may decrease the levels of these bioactive
compounds and subsequent overall antioxidant activity. Thus, the effect of soaking, cooking and steaming processes in relation
to total phenolic content (TPC), total flavonoid content (TFC) and ferric reducing ability of plasma antioxidant activity (FRAP
AA) has also been discussed.
I-14
CROPPING SYSTEMS IN RELATION TO CLIMATE CHANGE
Narendra Kumar, K.K. Hazra and M.K. Singh
Indian Institute of Pulses Research, Kanpur
India is the second most populous country in the world, and at present rate of population growth, it may reached 1,500 million
by the year 2025 AD, requiring 315-340 million tonnes of food grains. Climate change is one of the most important global
environmental challenges facing humanity with implications for food production, natural ecosystem, fresh water supply, health
care, etc. Increase in atmospheric carbon dioxide (CO2) and other green house gases viz., methane (CH4), nitrous oxide (N2O) and
CFC due to fossil fuel burning, rapid industrialization, deforestation and increased agricultural activities, reduce the amount of
earth’s radiation, which escape to space. This results in consequent warming earth’s surface as well as lower atmosphere.
According to the available reports, India is most vulnerable to the climate change. International Panel on Climate Change
(IPCC) projected that after 2050, temperature would rise by 3-4 degrees over current levels. The climate change has the potential
to change significantly the productivity of agriculture. Some high productive areas may become less productive and vice-versa.
Most profound effect of climate change is a drastic change in the rainfall pattern, delayed monsoon or inadequate precipitation
leading to conversion of some part drier and vulnerable, particularly in rainfed agro-ecosystem. Water crisis as a result of
8
Invited Papers
climate change is quite eminent. Drought will further intensify in the regions already suffering shortage of water resources.
Under such situation, the existing cropping systems dominated by cereal crops (rice-wheat, maize-wheat, etc) will suffer most.
Thus, diversification of cereal based cropping systems will reduce the ill effect of both, climate change and the existing cropping
system. Pulses and oilseeds are the most suitable options for diversification of cereal based cropping system. Pulses and oilseeds
have wide adaptive mechanisms such as very deep rooting system, high degree of dehydration tolerance, phenotypic plasticity,
wide ranging sensitivity towards photothermoperiods and higher moisture retention capacity. All these attributes enable them
to thrive well under any non-specific abiotic stresses and provide them to adapt in diverse climatic conditions such as from
tropical, sub-tropical and temperate conditions. Thus, sustainability of the existing cropping systems may be maintained through
diversification of existing cropping systems under changing climatic scenario.
I -15
BIOINSPIRED INORGANIC NANOMATERIALS SYNTHESIS AND THEIR
APPLICATIONS IN FOOD AND RELATED SECTORS.
Absar Ahmad
Biochemical Sciences Division,National Chemical Laboratory, Pune-411008 (M.S), India.
Email: a.ahmad@ncl.res.in
Inorganic nanomaterials of different sizes, shapes and chemical compositions possess great potential for future applications in
food, medicine and cosmetics. One of the important challenges of considerable topical significance in nanotechnology is the
development of eco-friendly experimental processes for the economical synthesis of nanomaterials in large quantities of variable
size, shape and chemical composition. While it is recognized that some of the most exquisite nanomaterials are made by
biological systems (examples include silica in diatoms and magnetite in magnetotactic bacteria), the potential to exploit
microorganisms in a creative manner in the laboratory for eco-friendly synthesis of nanomaterials is still largely underexploited.In this talk, we describe our research into the use of plant microorganisms and plant extracts in the synthesis of
biocompatible, water soluble, fluorescent and protein capped metal, metal sulfide, quantum dots and oxide nanoparticles of
different sizes and shapes. In a significant departure from bacteria-based methods for nanomaterial synthesis that have been
investigated in some detail, we have shown that plant microorganisms such as fungi and actinomycetes when challenged with
aqueous metal ions are capable of reducing the ions both intra and extra-cellularly resulting in the formation of stable metal
nanoparticles. The formation of metal nanoparticles occurs by an enzymatic process and thus, the fungus-based synthesis process
is not limited to reduction reactions alone. The versatility of this approach is underlined by our findings that enzymes such as
sulphite reductase, nitrate reductase and hydrolyzing proteins are secreted by the fungi in response to metal stress thereby
leading to the possibility of synthesis of quantum dots, metal nanoparticles and nanooxides. The biosynthesis of nanooxides
using fungi is exciting since the synthesis occurs at room temperature and thus could be of considerable commercial value.Fungi
enjoy a close symbiotic relationship with plants and hence, it is quite likely that plant extracts may also possess useful biomolecules
which not only carry out the range of biotransformations listed above but also control the shape of nanoparticles. We have
studied a number of plant extracts for realizing metal nanoparticles and have observed that the Geranium and Lemongrass
extracts result in shape modulated gold nanoparticles. In particular, the reaction of aqueous gold ions with Lemongrass extract
resulted in the large-scale synthesis of gold nanotriangles with interesting near infrared absorption. Potential application of the
gold nanotriangles, magnetite and other inorganic nanoparticles in medicine, cosmetics, maintenance of food quality and
freshness, better traceability and safety of food products, new tastes, flavours and food textures, detection of pathogens in food
systems, improved food storage, etc. are being investigated.We have also isolated, purified and completely characterized a
range of plant based drugs such as Taxol, Vinblastine and Vincristine from endophytic fungi and recently initiated further
important steps of functionalizing the nanoparticles synthesized by green chemistry approach for targeted drug delivery
applications.
9
Abstract
BIODIVERSITY AND GENETIC ENHANCEMENT
BGE 01
FUNCTIONAL DIVERSITY OF INDIGENOUS PLANT GROWTH PROMOTING
RHIZOBACTERIA (PGPR) ISOLATED FROM ALIGARH SOILS
Bharat Lal Meena, Mohd. Musheer Altaf*and Iqbal Ahmad
Department of Agricultural Microbiology, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh-202 002
Email: mohdmusheer@rediffmail.com
Plant growth promoting bacteria are known to influence plant growth through various mechanisms. However, the performance
of such bacteria under field conditions is not always consistent due to several factors including poor competition with native
rhizobacteria. It is believed that indigenous rhizobacteria adapted to particular soil environment exhibiting multiple PGP traits
will be more effective if developed as bioinoculant for local use. Therefore, in this study a total of 45 rhizobacteria belonging to
Pseudomonas, Azotobacter and Azospirillum from wheat rhizosphere were isolated and biochemically characterized. PGP traits like
production of IAA (41.60%), siderophore (20.0%), antibiotic production (39.80%) and solubilization of phosphate (60.0%) were
exhibited. Multiple PGP traits was exhibited by 48.0% Pseudomonas followed by Azotobacter (42.1%) and Azospirillum (31.0%). The
test isolates were also screened for their salt tolerance. 65.0% Pseudomonas, 66.67% Azotobacter and 47.69% Azospirillum isolates
were found to tolerate varying concentration of NaCl in the medium. On the basis of this preliminary observations, some of the
isolates showing multiple PGP traits and tolerance to environmental stress may be selected for further molecular characterization
and assessment of their plant growth promotion under control and field conditions.
BGE 02
TRANSFORMATION OF GRAIN LEGUME PEA ( PISUM SATIVUM L.) VIA
AGROBACTERIUM TUMEFACIENS MEDIATED GENE TRANSFER
Indu Singh Yadav 1 and N. P. Singh 2
1
National Research Centre on Plant Biotechnology, New Delhi, 2 Indian Institute of Pulses Research, Kanpur-208024
Email: npsingh.iipr@gmail.com
Fieldpea (Pisum sativum L.) is an important cool season food legume of the world. The productivity of this important crop is
comparatively low as compared to many developed countries like Canada, USA, UK and many other European countries. There
are several biotic and abiotic stresses responsible for low productivity of pea in India. The new tools of biotechnology including
transgenics offer a new opportunity for improvement of level of resistance/ tolerance to these stresses of fieldpea. Optimization
of in vitro plant regeneration and genetic transformation is pre-requisite to facilitate transfer of desirable genes in a plant species.
Six genotypes of fieldpeas were screened by using two different explants embryonic axes and cotyledonary node for their
regeneration potential and amenability for gene transfer. HUDP-15 showed better response in terms of regeneration frequency
(59± 3.4%) compared to other genotypes and was capable of regenerating at a high frequency. Using a binary vector (pPBI3008),
frequency of transformation was compared among the six genotypes. Agrobacterium infection was maximum at an optical
density of 0.06 when co-cultivated for 4 days at 250 C in constant dark on MS medium as pH 5.8 with B5 vitamins and 200 uM
acetosyringone. Supplementation of acetosyringone in the cocultivation medium was found indispensable for Agrobacteriummediated transformation. Several transformed plants were developed using the Agrobacterium mediated method, while stable
GUS-expressing explants were multiplied during selection on MS medium containing 250 mg/l cefotaxime and 50 mg/l
kanamycin. Although, the GUS activities were noticed in apical shoot meristem, leaves, petiole and stems of most of the putative
transformants, the highest activity was mainly localized in the meristematic regions of shoot apices. Besides, leaf sections
and embryonic axis also showed GUS activity. However, different pattern of GUS expression was noticed in transformants
arising from different transformation events. The pattern of expression also differed from plant to plant. These results demonstrate
that fieldpea is amenable to Agrobacterium-mediated genetic transformation using a binary vector. The protocol reported here is
simple and robust which may be used for development of transgenics of commercial importance.
10
Biodiversity and Genetic Enhancement
BGE 03
DETERMINATION OF GENETIC VARIABILITY, CORRELATION AND PATH ANALYSIS
FOR YIELD ADVANCEMENT IN FENNEL (FOENICULUM VULGARE MILL.)
Sunil Kumar Rawat, Sanjay Kumar* and Yogesh Chandra Yadav
Department of Applied Plant Science (Horticulture), Babasaheb Bhimrao Ambedkar University, Vidya Vihar Rae Bareli Road,
Lucknow -226025 (UP)
*Email: sanjay123bhu@gmail.com
An experiment was conducted to study the extent of genetic variability, heritability, genetic advance, correlation coefficient and
path analysis of thirteen genotypic of fennel i.e. Pant Madhurika, Hissar Swarup, Azad Saunf, Rajendra Saunf, Gujarat Fennel-11,
Rajasthan Fennel-125, CO-1, Rajasthan Fennel-101, Rajasthan Fennel-143, Rajasthan Fennel-178,Gujrat Fennel-1, Gujarat Fennel2 and Azad Fennel-1. The experiment was laid out under Randomized Block Design (RBD) with three replications. The row to
row and plant to plant spacing were maintained at 45 x 25 cm, respectively. The maximum seed yield (q/ha-1) was recorded in
Azad Saunf followed by Rajendra Saunf, Rajasthan Fennel-178, Rajasthan Fennel-143, Hissar Swarup and Gujrat Fennel-11.
BGE 04
ADDITION TO THE DIVERSITY OF FOLIICOLOUS FUNGI FROM NORTH CENTRAL
TARAI FOREST OF U.P., INDIA
T.P. Mall
Postgradute Department of Botany, Kisan P.G. College, Bahraich U.P. India
Email: drtpmall@rediffmail.com
The North Tarai belt of U.P. is next only to Eastern and Western Ghats as one of the hottest spot of Biodiversity in general and the
diversity of fungal organism in habiting plant leaves in particular. Keeping the view in mind an extensive and periodic survey
were made during April 2011 – September 2011 for Foliicolous fungi in North Central Tarai Forest of U.P. The present report is
an addition to the already collected fungal list found on several host plants. The present work reports ninty seven fungal species
representing forty eight fungal genera found on eighty angiospermic plant species representing sixty three genera of forty four
families. Acrodictys sp. was found on Tinospora malabarica where as Aecidum rhytismoideum on Diospyros tomentosa ; Alternaria
alternata on Calotropis prosera, Ficus carica , Ficus glomerata, Solanum tuberosum, Spinacia olaracia & Toona ciliate ; Alternaria bauhiniae
on Bauhinia vahlii ; Alternaria citri on Citrus limon ; Alternaria kamalella on Mallotus philippensis ; Alternaria longipes on Litsea chinensis
; Alternaria solani on Solanum melongena ; Alternaria tenuis on Cordia myxa ; Alternaria tenuissima on Artocarpus heterophyllum;
Alternaria sp. on Ageratum conyzoides ; Amerosporuim polynematoides on Clerodendron inerme ; Ascochyta mangiferae on Mangifera indic
; Asterina eugeniae on Syzygium eugenia ; Asterina sp. on Streblus asper ; Botryodiplodia theobromae on Ficus rumphii & Murraya
exotica ; Cercospora achyranthina on Achyranthes aspera ; Cercospora citrullina on Cucurbita maxima ; Cercospora clerodendri on
Clerodendrum indicum ; Cercospora dolichi on Dolichos lablab; Cercospora fici on Ficus bengalensis; Cercespora fici relegiosae on Ficus
relligiosa; Cercospora glycosmidis on Glycosmis pentaphylla; Cercospora kaki on Diospyros tomentosa; Cercospora neptae on Nepeta hindostana;
Cercospora sphaeranthi on Sphaeranthus indicus ; Ceratophorum helicosporum on Shorea robusta; Cladosporium cucumerinum on
Lagenaria siceraria; Cladosporium oxysporum on Solanum melongena ; Cladospourium tennussimum on Lycopersicum esculantum;
Colletotrichum capsici on Tinospora cordifolia, Datura stramonium & Aegle marmelos; Colletotrichum dematium on Colocasia esculenta &
Ficus rumphii; Colletotrichum exoticum on Murraya exotica; Coniella citri on Citrus medica ; Corynespora albizicola on Albizia lebbek;
Corynespora carissae on Carrissa carandas ; Corynespora clerodendri on Clerodendrum viscosum; Corynespora ichnocarpii on Ichnocarpus
frutescens; Corynespora nana on Lantana indica ; Corynespora on Bauhinia vahlii & Glycosmis pentaphylla ; Curvularia lunata on Brassica
campestris ; Curvularia tuberculata on Citrus limon; Diatrypella citricola on Litsea polyanthus; Diatrypella quercina on Diospyros
tomentosa; Discosia hiptages on Carrissa congesta; Drechstera colocaceae on Colocasia esculenta; Fuligomyces indica on Litsea chinensis;
Fusicladium pongamiae on Pongamia pinnata ; Geotrichum candidum on Citrus limon ; Glomerella cingulata on Anona squamosa, Lagenaria
vulgaris & Mallotus philippensis ; Haplosporella baumontina on Inga dulcis; Helminthosporium on Pisum sativum ; Leveillula taurica on
Cucurbita maxima; Meliola rhois on Mangifera indica ; Meliola ziziphi on Zizyphus xylopyrus ; Meliola sp. on Streblus asper ; Microxyphium
fagi on Hibiscus rosa- sinensis; Macrophomina phaseolina on Bauhinia variegata & Basella alba ; Mycovellosiella haplophragmatis on Haplophragma
adnophyllum ; Mycovellosiella myrtacearium on Psidium guajava; Mystrosporiella litseae on Litsea glutinosa ; Oidium sp. on Coccinia indica
& Desmodim trifolium ; Passalora sp. on Calotropis prosera ; Periconia byssoides on Bridelia retusa & Holarrhena antidysentrica; Pestalotia
lambertiae on Bauhinia racemosa ; Pestalotiopsis palmarum on Mallotus philippensis; Phaeoramularia cordiae on Cordia dichotoma; Phoma
cajani on Cajanus cajan ; Phoma exigua on Holoptelia integrifolia; Phoma glomerata on Aegle marmelos; Phoma malloti on Mallotus
philippensis; Phoma sp. on Tiliocora acuminata ; Phomopsis abutilonis on Abutilon indicum ; Phomopsis barringtoniae on Barringtonia
acutangula; Phomopsis bauhiniae on Bauhinia purpurea; Phomopsis litsea on Litsea chinensis; Phomopsis sp. on Ficus rumphi ; Phyllachora
11
Abstract
ficuum on Ficus rumphii; Phyllosticta alangii on Alangium salvifolium; Pseudocercospora acaciae on Acacia concinna; Pseudocercospora
adinae on Adina cardifolia; Pseudocercospora artocarpi on Artocarpus heterophyllum; Pseudocercospora carissae on Carrissa carandas;
Pseudocerspora cocculi on Tinospora sp.; Pseudocercospora sp. on Commiphora macrophylla; Puccinia pulvinata on Echinops sp.;
Rhizoctonia solani on Brassica oleraceae & Spinacia olaracia; Sarcinella gorakhpurenis on Diospyros melanoxylon ; Selerotium rolfsii on
Basella alba; Stenella ficina on Ficus bengalensis; Stenella tectoni on Tectona grandis; Stenella sp. on Eucalyptus lanceolatus & Nyctanthes
arbortristis; Trichothecium roseum on Diospyros tomentosa ; Uredo fici on Ficus glomerata; Zygosporium echnosporum on Careya arborea;
Zygosporium sp. on Mallotus philippensis and Zyxiphora gorakhpurensis on Streblus asper.
BGE 05
COMBINING ABILITY ANALYSIS IN RAINFED UPLAND RICE (ORYZA SATIVA L.)
1
Chandra Mohan Singh, 3G. Suresh Babu, 1Binod Kumar, 1Chandan Kishore, 2Suhel Mehandi and 3Deo Sudhakar Pandey
1
Department of Plant Breeding and Genetics, Rajendra Agricultural University, Pusa (Samastipur) - 848125, Bihar, India, 2Crop
Improvement Division, Indian Institute of Pulses Research (IIPR), Kalyanpur, Kanpur-208024, Uttar Pradesh, India,
3
Department of Genetics and Plant Breeding, Allahabad School of Agriculture, SHIATS, Allahabad- 211007, Uttar Pradesh.
Email: cmsingh.gpb@gmail.com
A study on combining ability gives useful information for the choice of parents in terms of expected performance of their
hybrids and progenies. Fifteen rice hybrids were generated by crossing between five lines and three testers in L x T mating
design during Kharif 2009. Crosses were evaluated along with parents and standard check (Vandana) to study the combining
ability for twelve quantitative characters during Kharif 2010 at Field Experimentation Center, Department of Genetics and Plant
Breeding, Allahabad School of Agriculture, SHIATS, Allahabad in Randomized Block Design (RBD) with three replications. The
analysis of variance for combining ability showed highly significant differences among the treatment for all the yield and yield
contributing characters, indicating the presence of adequate genetic variability among the crosses and their parents. The magnitude
of additive variance (gca) was higher for days to 50% flowering, number of tillers per plant, number of panicles per plant, flag
leaf length, number of spikelets per panicle and test weight. Higher magnitude of additive variance suggested the predominance
of additive gene action for these characters. The magnitude of non additive variance (sca) were observed higher for plant height,
flag leaf width, days maturity, biological yield per plant, harvest index and grain yield per plant. The ratio of gca and sca variance
were less than one for plant height, flag leaf width, number of spikelets per panicle, biological yield per plant, harvest index, test
weight and grain yield per plant. It indicates the preponderance of non additive gene action over the additive gene action. In this
situation the most appropriate and efficient breeding approach would be to make up the additive gene simultaneously maintaining
the degree of heterozygosity for exploring the non additive components. The ratio of gca and sca variance were observed more
than one for days to 50% flowering number of tillers per plant, number of panicles per plant, flag leaf length, panicle length, and
days to maturity. It indicated that predominance of additive gene action over non additive gene action. The contribution of
testers was higher than corresponding contribution of lines for all the characters studied, except harvest index and test weight.
The contribution of testers was higher than corresponding contribution of testers for all the characters studied, except days to
50% flowering, harvest index and test weight. The contribution of interaction was higher than corresponding contribution of
lines for all the characters studied. The combining ability analysis revealed that among the lines, IR81413-B-B-75-3 was a good
general combiner for grain yield per plant with some other characters viz., plant height, number of spikelets per panicle, days to
maturity, biological yield per plant and test weight. Among the testers, IR74371-54-1-1 (4.34) was identified as good general
combiner for grain yield per plant with some other characters viz., days to 50% flowering, number of tillers per plant, number
of panicles per plant, flag leaf width, panicle length, number of spikelets per panicle, days to maturity and biological yield per
plant. Thus hybrid IR81413-B-B-75-3/ IR81429-B-31 was identified as best specific combiner for grain yield per plant. The gca
effect is controlled by additive genes and fixable in nature. The cross involving parents with high gca will give better transgressive
segregants in later generations. Therefore, selection of parents based on gca effect would have an impact in breeding programme.
High gca coupled with high per se performance is the indication of an outstanding parent with reservoir of superior genes. Hence,
both mean performance and gca effects may be taken into account for parental selection. The maximum sca effect for grain yield
per plant exhibited by hybrid IR81413-B-B-75-3/ IR81429-B-31. Thus hybrid IR81413-B-B-75-3/ IR81429-B-31 was identified as a
best specific combiner for grain yield per plant.
12
Biodiversity and Genetic Enhancement
BGE 06
BIODIVERSITY OF TREMATODE FAUNA OF VERTEBRATES OF ANDAMAN AND
NICOBAR ISLANDS
Shuvajit Chakrabarti and Anindita Ghosh
Zoological Survey of India M-Block; New-Alipore Kolkata-53
Email: shuvajitchakrabarti@yahoo.in
The Andaman & Nicobar Islands are geographically young, They zoogeographically, occupy an unique position close to “Indo
Malyan region” which is considered to be a ‘Faunistic center’ from which other subdivisions of the Indo-West Pacific Region
region recruited their fauna. The Islands comprise an acute chain of more than 350 Islands in addition to a number of Islets and
rock out scopes in the Bay of Bengal lying between 060 and 140 N and longitudes 920 and 940 E. Trematodes cause deadly diseases
in human being, and other vertebrates such as cattle, goat, mule, elephant, dog, cat,fish, poultry birds etc. Trematode infection
of the vertebrates in the mainland comparing with the same in the Island is the main scope of the study. Different survey tours
by the scientists to the Islands yielded a record of twelve species of trematode parasites under ten genera from different
vertebrate hosts from Andaman and Nicobar Island. A meager study of the biodiversity of the trematodes of vertebrates of
Andaman & Nicobar Islands has been done so far, so the present study may build a foundation stone for the future course of
study.
BGE 07
A SURVEY OF FLORA OF INDUSTRIAL WASTE DISPOSAL AREAS OF KANPUR AND
UNNAO
S. Ansari and Dipti Gupta
A.N.D. Nagar Nigam Mahila Mahavidyalaya, Harsh Nagar, Kanpur
A study of vegetation around a fertilizer factory, a tannery and a distillery waste polluted area along with a non-polluted site has
been made. In all 26 plant species were recorded. Only 9 species were commonly growing in all polluted sites as well as the nonpolluted one, indicating their tolerance capability. The most frequently occurring species at fertilizer factory site were Sesbania
bispinosa and Lantana camara, at tannery site, Cynadon dactylon and at distillery site, Croton sparsiflorus. All additional plant species
growing at the non-polluted site were regarded as sensitive to the adverse soil conditions. However, Cynadon dactylon had
maximum density and abundance values at all the polluted and non polluted sites. The variations in distribution pattern of
plants can be correlated with the change in physico-chemical characteristics of soil around effluent disposal area.
BGE 08
DA-199 HIGH YIELDING WITH BETTER QUALITY GREATER YAM GENOTYPE FOR
KONKAN REGION UNDER RAINFED CONDITION
N. V. Mhaskar, A. T. Jadye, N. R. Bhagwat and P. M. Haldankar
AICRP on Tuber Crops, CES, Wakawali, Tal: Dapoli (MS)
Greater yam (Dioscorea alata L.) is the most widely distributed species of yam. This is an important tuber crop grown in high
rainfall region of the Konkan under rainfed condition. This crop has great potential in this region during Kharif season. Field
experiment was conducted to evaluate the best genotype having high yield performance with better quality suitable for Konkan
region during Rainy seasons of 2006 to 2010. Six genotypes of greater yam released from different AICRP on Tuber Crop Centre
viz., Sree Roopa, Da -11, Da – 25, Da – 168, Da – 199 and Konkan Ghorkand were evaluated. The trial was conducted in randomized
block design with four replication along with recommended dose of fertilizer. The planting of tubers was done at onset of
monsoon at spacing of 90 X 90 cm. The pooled mean tuber yield of five consecutive years showed that Greater yam genotype Da
- 199 produced the highest tuber yield of 29.29 t ha-1 which was significantly superior over rest of genotypes under study. The Da
- 199 yielded higher tuber yield 19.05 per cent due to over check genotypes Konkan Ghorkand. Da - 199 recorded significantly
highest yield per plant (3.40 kg) as well as average tuber weight of 1.620 kg over rest of the genotypes under study. The tuber of
this genotype is cylindrical in shape with white flesh colour. The significantly highest tuber yield of 21.39 t ha-1 was recorded by
Da – 199 over rest of the genotypes under study of different locations. This genotypes realized highest net returns of Rs. 2,42,078/
- ha-1 and B:C ratio of 1.70. Organoleptic data among the six genotypes showed that Konkan Ghorkand and Da - 199 had excellent
13
Abstract
in case of all organoleptic characters and recorded the highest average organoleptic score at Regional Fruit Research Station,
Vengurala and Central Experiment Station, Wakawali.
BGE 09
SCREENING OF CYANOBACTERIAL STRAINS FOR HERBICIDE TOLERANCE ON THE
BASIS OF PHOTOSYNTHETIC PIGMENTS
Sumaiya Anees, Mohammad Zeeshan Siddiqui and Iffat Zareen Ahmad
Department of Biotechnology, Integral University, Dasauli, Kursi Road, Lucknow-226026
Heavy application of the pesticides has led to serious environmental contamination resulting in greater loss of crop productivity
and inhibited growth of many beneficial microorganisms. Cyanobacteria are important components of aquatic ecosystems such
as paddy fields where they fix atmospheric nitrogen. A large no of pesticides are used in paddy fields to protect the seedlings and
crops, and selectively destroy the pests, but the indiscriminate use causes great danger to the rice field cyanobacteria and other
beneficial microorganisms.The present study deals with the herbicide-induced changes in growth and photosynthetic pigments
in five cyanobacterial species grown under laboratory conditions. The concentration of butachlor used for the experiments were
5, 10, 20, 40 and 80 ppm on five strains, Nostoc muscorum, Plectonema boryanum, Chroococcus sp.,Tolypothrix sp., Nostoc sp. Growth
and photosynthetic pigments, i.e., chlorophyll a and carotenoids were differentially affected after a ten day butachlor treatment.
All of the cyanobacterial strains showed a dose-dependent effect on chl a synthesis, but the effect was more pronounced for
Tolypothrix sp and Nostoc sp. An adaptive effect was seen for Plectonema boryanum on the 10th day of treatment. The inhibition in the
carotenids was found to be dose-dependent; however P. boryanum showed a significant recovery of carotenoid after 10th days of
exposure. It can be visibly seen that the herbicide is having adverse effect on the cyanobacterial isolates.This study will help in
evaluating cyanobacterial filtration capacity by determining photosynthetic pigments and thus can be used for determining
environmental pollution.
BGE 10
ETHYL METHANE SULPHONATE INDUCED DESYNAPTIC MUTANT IN CHILI
(CAPSICUM ANNUUM L.)
*Mohd Gulfishan, Ainul Haq Khan and Iram Fatima Jafri
Cytogenetic Laboratory, Department of Botany, Aligarh Muslim University Aligarh- 202002
Email: fishan.amu@gmail.com
Studies on meiotic abnormalities have always been interesting and useful. Two desynaptic plant were isolated from a true
breeding variety of a Capsicum annuum L. var. G4 from ethyl methane sulphonate (EMS) treated cogeneration. Desynapsis in
these two plants was presumed to have occurred by homozygous induction. Chromosome synapsis was apparently normal at
pachytene but univalents were present at a high frequency at diakinesis and metaphase I. Bivalents were randomly distributed
in one plant but nonrandom in other. It was found to be due to differences between cells within a population. Meiotic studies
showed that sterility was due to disorder in chromosome pairing while genetic data showed that sterility was associated with
the homozygous condition of a single recessive gene. The desynaptic obtained fit into medium strong type with reduced pollen
fertility.
BGE 11
MEDICINAL PLANT
Tarana Ansari, Amith Singh and Pratiksha Singh
Saroj Institute of Technology and Management, Lucknow
The use of the plant materials to prevent and treat infectious diseases successfully over the years has attracted the attention of
scientists’ worldwide. Most of these medicinal products originate from plants. Polysaccharides are considered to be the most
important components, which may act as immune enhancers or immuno-modulators. Immune activities of the polysaccharides
from two mushrooms, Lentinus edodes and Tremella fuciformis, and a herb are discussed it can be concluded that polysaccharides
derived from mushroom can play important roles in, stimulating the growth of immune organs such as spleen, thymus and
bursa; increasing the number and activities of many interdependent cell types such as T, B lymphocytes, macrophages, natural
14
Biodiversity and Genetic Enhancement
killer (NK) cells and lymphokine-activated killer (LAK) cells; enhancing T-cell mediated immune response, such as an increased
rate of T-lymphocyte transformation and proliferation; enhancing humoral immune response, such as spleen and serum antibody
production, the number of haemolytic plague forming cells (PFC) and haemolysin production and inducing secretion and
production of cytokines and complements of T-cells and NK cells. Medicinal mushroom research has indicated possible
cardiovascular, anticancer, antiviral, antibacterial, antiparasitic, anti-inflammatory, hepatoprotective, and antidiabetic activities.
Non-mushroom forming fungi, were the original source of penicillin, griseofulvin, lovastatin, and have shown potential in
bioengineering.
BGE 12
ESTIMATION OF GENETIC VARIABILITY, HERITABILITY AND GENETIC DIVERSITY
FOR SEED YIELD AND ITS QUALITY TRAITS IN LENTIL (LENS CULINARIS MEDIK.
SUB SP. CULINARIS)
Prakash Singh1 *, D. K. Singh2, Ranjeet Singh1, Kamlesh Kumar1 and Sanjeev Singh3
1
Department of Genetics and Plant Breeding, N.D.U.A.&T., Kumarganj, Faizabad, UP-224229, 2Department of Genetics and
Plant Breeding, I. Ag. Sc., BHU, Varanasi, UP-221005
3
Department of Agric. Botany, U.P. Autonomous College, Varanasi, UP
Email: prakash201288@gmail.com
Two hundred forty five genotypes (including 5 checks namely Narendra Masoor-1, Narendra Masoor-2, DPL-15, DPL-62 and
Pant Lentil-5) of lentil were evaluated in Augmented Block Design for seed yield and its quality traits viz., days to 50%
flowering, days to maturity, plant height, number of primary branches per plant, number of secondary branches per plant,
number of pods per plant, number of seeds per pod, biological yield per plant, seed yield per plant, 100-seed weight and harvest
index. Significant differences were found among the genotypes for all the traits, it indicated wide genetic variability for all the
eleven traits. Phenotypic coefficient of variation (PCV) was greater than genotypic coefficient of variation (GCV) for all the
characters. High GCV was observed for seed yield per plant, 100-seed weight, number of pods per plant, biological yield per
plant and harvest index. Heritability estimates for different characters ranged from 77.1 to 99.8. The estimates of heritability
were high for all the characters except for number of primary branches per plant and number of secondary branches per plant
indicated that selection on the basis of these traits showing high heritability would be rewarding. The 245 genotypes were
grouped into sixteen clusters. Clustering pattern revealed the distribution of the genotypes belonging to the same origin in
more than one cluster indicating non-parallelism between geographic and genetic diversity. Cluster VI contained maximum 36
genotypes followed by cluster IV (31 genotypes), cluster I (25 genotypes), cluster II and XIV having 22 genotypes. The most
diverse clusters were XV and cluster IX (34.444) followed by clusters XV and X (30.886), which indicated maximum diversity
between the genotypes of these clusters. The entries of cluster IX showed the highest mean values for number of secondary
branches per plant, number of pods per plant, biological yield per plant, harvest index and seed yield per plant and maturity. The
promising genotypes for seed yield, biological yield per plant, harvest index, number of pods per plant, number of secondary
branches per plant and early maturity were identified from cluster VI and IX on the basis of mean values which could be utilized
for hybridization programme for the development of high yielding genotypes.
BGE 13
STUDIES ON GENETIC VARIABILITY AND CHARACTER ASSOCIATION OF
PIGEONPEA [CAJANAS CAJAN L. MILLISP] GERMPLASM.
R. Sandeep Kumar1, N.R. Rangare1, I. P. Singh2, Suhel Mehandi2, Gideon J. Synrem1 , Anzer ul Islam2 and Chandra Mohan
Singh3.
1
Department of Genetics and Plant Breeding, Allahabad School of Agriculture, SHIATS, Allahabad - 211007, Uttar Pradesh,
Crop Improvement Division, Indian Institute of Pulses Research (IIPR), , Kanpur - 208024, Uttar Pradesh, 3Department of
Plant Breeding and Genetics, Rajendra Agriculture University, Pusa Samastipur-848125, Bihar
Email: suhelgpb@gmail.com
2
Pigeonpea [Cajanas cajan Millisp] is the second most important pulse crop of India and accounts for 91% of world’s production. It
is an important pulse crop for its high protein content and dietary significance and is grown in about 3.53 million ha area with
a production 2.43 million tonnes (2008-09). An experiment was conducted at the Field Experimentation Centre, Department of
Genetics and Plant Breeding, Allahabad School of Agriculture, SHIATS, Allahabad. Thirteen pigeonpea [Cajanas cajan (L.)]
genotypes were used and the experiment was carried out under irrigated condition of kharif, 2010, in Randomized Block Design
15
Abstract
with three replications. The observations were recorded on nine quantitative characters viz., days to 50 % flowering, days to
maturity, plant height (cm), number of branches per plant, number of pods per plant, seed index (g), biological yield per plant
(g), harvest index (%) and seed yield per plant (g).The large spectrum of genetic variability in a population depends upon the
amount of the genetic variability among the genotypes and offers a better scope for selection. High magnitude of variability in
a population provides the opportunity for selection to evolve a variety having desirable traits. The experimental finding on the
basis of analysis of variance revealed the presence of considerable variation among the germplasm for all the characters except
for number of pods per cluster, pod length and number of grains per pod. Maximum GCV and PCV were observed for number
of pods per plant (88.82/8.13) followed by grain yield per plant (31.82/31.92)in grams and biological yield per plant % (25.53/
25.59).Coefficient of variation studied indicated that phenotypic coefficient of variation (PCV) was slightly higher than genotypic
coefficient of variation GCV for all the nine characters studied. High estimates of heritability (broad sense) were observed for
number of pods per plant (99.00) followed by harvest index (98.00) and days to maturity (97.00). Highest and lowest genetic
advance as per cent of mean was observed for number of pods per plant (182.35) and days to maturity (3.38) respectively. The
characters that show high heritability and high genetic advance are controlled by additive gene action and can be improved
through simple or progeny selection method. Correlation coefficient analysis revealed that biological yield per plant (rg 0.965,
rp 0.965), pod length (rg 0.639, rp 0.582), harvest index (rg 0.586, rp 0.585), pods per cluster (rg 0.567, rg 0.542) and 50 % flowering (rg
0.482, rp 0.480) showed positive correlation association with grain yield per plant at both genotypic and phenotypic levels. The
perusal of path analysis indicated that biological yield per plant (g 0.036, p 0.860) and pod length (g 0.030, p 0.015) had positive
direct effect on grain yield at both genotypic and phenotypic levels. Thus, these characters may serve as effective selection
parameters for yield improvement in pigeonpea.
BGE 14
ESTIMATION OF GENETIC DIVERSITY TO FIGHT FOR FOOD SECURITY
Mayuri Agarwal, J. P. Jaiswal and V.K. Khanna
Department of Genetic & Plant Breeding, College of Agriculture, G. B. Pant University of Agriculture& Technology,
Pantnagar-263145.,
Email: mayuri.ag19@gmail.com,
Food challenges caused due to accelerating climate change can be efficiently tackle by the use of genetic diversity within crop in
plant breeding programme. Molecular markers are primary weapon to fight against this problem. Molecular markers are DNA
sequences that can readily detect genetic diversity in crop and it is based on naturally occurring DNA polymorphism. In my
study, Inter Simple Sequence Repeats (ISSR) molecular markers were used to estimate genetic diversity among 17 wheat
cultivars. For this, thirteen ISSR primers were used and ISSR banding patterns were generated for all the 17 wheat genotypes.
ISSR-PCR reactions were performed at 94°C for 5 min for initial denaturation followed by the 44 cycle of denaturation at 94°C
for 1 min., annealing at 50°C for 2 min., polymerization at 72°C for 2 min. and final elongation at 72°C for 5 min. PCR products
were electrophoresed on 1.5 % agarose gel. Genetic divergence was determined using Jaccard’s similarity coefficient, and
dendrogram was constructed by UPGMA cluster analysis. In analysis, 13 ISSR primers amplified 164 bands out of which 123 were
polymorphic and thus showed 75% polymorphism, which separated all the 17 wheat genotypes in 2 clusters with different
subclusters. In ISSR markers, (AC)n repeats primer UBC-826 showed 100% polymorphism among all 17 wheat genotypes. The
result indicates that this genetic diversity in wheat genotypes can be used in further breeding programme for food security, as
the lack of genetic diversity in breeding programme can give us widespread crop losses due to a single disease or climate change
shock
BGE 15
IMPACT OF CHEMICAL MUTAGENS ON CROP PRODUCTIVITY: FOOD SECURITY?
Mohammad Imran Kozgar* and Samiullah Khan
Mutation Breeding Laboratory, Department of Botany, Aligarh Muslim University, Aligarh – 202 002 (U.P.), India
E-mail: m.i.kozgar@gmail.com
Chemical mutagens induce mutations in variety of crops. Induction of mutation has accelerated traditional plant breeding as the
base of any crop improvement programmes. Present paper, in addition to cover-up the morpho-biophysiological impacts of
different types of chemical mutagens on the varying types of pulse crops cultivated in India reviews the achievements of
developed varieties and the constraints to overcome. For a dream, to keep Indian a food secure zone, to come true in addition
to revitalizing the agricultural policies and strategies the variation in a self pollinated pulse crops is of immense importance and
can be achieved through induced mutation breeding with ease and without inputting so much cost. Induction of mutation in crop
categories via., chemical mutagenesis, not only affect the yield parameters but also morpho-physiological characteristics, as is
16
Biodiversity and Genetic Enhancement
evident from the lots of research work and are helping hands in screening the desired mutant line of high productivity. We are
in conclusion if the induction of mutation through chemical mutagens, once handled by sustainable policies and strategies, be
implemented the exact role of the breeders to welfare humankind could be achieved.
BGE 16
STUDY OF GENOTYPIC VARIABILITY AND NITROGEN USE EFFICIENCY AND ITS
CORRELATION WITH YIELD AND YIELD COMPONENTS IN MAIZE (ZEA MAYS L.)
Sujeet Kumar, N.R. Rangare, Gideon J. Synrem, A. K. Choudhari , Shamshad Khan and Imran Khan
Department of Genetics and Plant Breeding, Allahabad School of Agriculture, SHIATS, Allahabad-211007, Uttar Pradesh,
India.
Email: synrem.gideon@gmail.com
Maize (Zea mays L.) is a widely grown cereal in the world. In India, it is the third most important cereal after rice and wheat.
However, with its highest yield potential and the scope of increasing its yield in the country, its improvement deserves special
attention. In our country, where rapid growth in population outstrips our gain in cereal production, maize offers the best
opportunity for increasing cereal production. The absorption of nitrogen by plants plays an important role in their growth.
Consequently, nitrogen fertilization has been a powerful tool for increasing the yield of cultivated plants, such as cereals.
Nowadays, to avoid both pollution by nitrates and top maintain a sufficient profit margin; farmers have to reduce the use of
fertilizer. These objectives can be met through efficient farming techniques, but also by using plant varieties that have better
nitrogen use efficiency (NUE). The present investigation titled “Study of genotypic variability and nitrogen use efficiency and its
correlation with yield and yield components in maize (Zea mays L.)” was conducted in kharif 2010 at the Field Experimentation
Centre, Department of Genetics and Plant Breeding, Allahabad School of Agriculture, SHIATS, Allahabad. Sixteen genotypes
were used in split plot experimental design with three replications. The observations were recorded for fifteen characters viz.,
days to 50 % tasseling, days to 50 % silking, anthesis silking interval, plant height (cm), ear height (cm), number of cobs per plant,
ear length (cm), ear girth (cm), number of grain rows per ear, number of grains per row, seed index (g), harvest index (%),
biological yield per plant (g) ,grain yield per plant (g) and nitrogen use efficiency (NUE). The experimental findings reveals that
the mean sum of square due to variety and nitrogen level showed significant difference for most of the characters studied except
for anthesis silking interval and number of cobs per plant. Coefficient of variation studied indicated that phenotypic coefficient
of variation (PCV) was slightly higher than genotypic coefficient of variation GCV for all the 15 characters studied. Highest
magnitude of GCV was recorded for nitrogen use efficiency (26.71) followed by grain yield per plant (22.00) while the lowest was
recorded for number of grain rows per ear (2.72) followed by days to 50 % silking (2.54). Highest magnitude of PCV was recorded
for anthesis silking interval (31.94) followed by nitrogen use efficiency (29.83) while the lowest was recorded for days to 50 %
tasseling (4.60) followed by days to 50 % silking (4.30). Highest heritability coupled with genetic advance as per cent of mean was
recorded for biological yield per plant (95.20) followed by grain yield per plant (95.00). Phenotypic correlation coefficient
analysis revealed that nitrogen use efficiency showed positive significant association with grain yield per plant (0.77) followed
by biological yield per plant (0.67). Genotypic correlation coefficient analysis revealed that nitrogen use efficiency showed
positive significant association with number of grain per row (0.94) followed by grain yield per plant (0.82). Phenotypic Path
coefficient analysis revealed that biological yield per plant (1.1288), harvest index (0.8814), days to 50 % silking (0.2391), plant
height (0.2041), number of grain rows per ear (0.0451) and cob girth (0.011) exhibited positive direct effect on grain yield, whereas
days to 50 % tasseling (-0.298), nitrogen use efficiency (-0.1921), ear height (-0.1206), anthesis silking interval (-0.1133), number of
grains per row (-0.0667), seed index (-0.0344), number of cobs per plant (-0.026) and cob length (-0.0068) exhibited negative direct
effect on grain yield. Genotypic Path coefficient analysis revealed that biological yield per plant (1.8260), harvest index (1.1943)
, number of grains per row (1.0204), grain rows per ear (0.5806),anthesis silking interval (0.5629), cob girth (0.5290), days to 50 %
silking (0.4629), days to 50 % tasseling (0.2336), seed index (0.2606) and number of cobs per plant (0.1208) exhibited positive direct
effect on grain yield, while nitrogen use efficiency (-0.3813), plant height (-0.1653) and cob length (-0.1428) exhibited negative
direct effect on grain yield.
BGE 17
CHEMICAL INVESTIGATION AND BIOLOGICAL ACTIVITY OF BUTEA MONOSPERMA
B. P. Singh*, A. K. Yadav and Swati Sahu
Department of Chemistry, University Institute of Engineering & Technology., C.S.J.M. University, Kanpur, India
Email: bpsinghcsjm@gmail.com
Butea monosperma is extensively used in Ayurveda, Unani and Homeopathic medicines. Different parts of the plants are useful in
filariasis, night blindness, helminthiasis, piles, ulcer, tumors, dyspepsia, diarrhea, dysentery, sore throat, snake bite, astringent,
17
Abstract
diuretic, treatment of liver disorders. The present work aim to investigate the isolation, characterization and biological activity
of different extracts of flower of Butea monosperma . The flower of Butea monosperma was dissolved in methanol in the ratio of 3:1
(methanol: powdered flower). The methanolic extract of flower was directly chromatographed over silica gel column eluted
with solvent petroleum ether, chloroform, acetone and methanol, according to their increasing order of polarity. The various
extracts were directly separated by column chromatography and monitored by thin layer chromatography. The extracts were
concentrated further under reduced pressure. The extracts were characterized on the basis of various spectral technique such as
IR, 1H NMR, and mass spectroscopy. Antimicrobial activity of various extract of Butea monosperma was evaluated against some
pathogenic strains. The antibacterial study performs against to bacterial species via; Escherichia coli and Pseudomonas aeruginosa.
The methanol extracts of flower exhibited varying level of antibacterial activity, with minimum inhibitory concentration (MIC)
of 2 mg/ml against both bacteria. The methanol extract was found to be more active than the other extract against both the
bacteria. The antifungal activity of these extracts was also performed against alternaria brassica fungal strain. The methanol and
acetone extracts showed moderated as well as significant activity against the fungal strains.
BGE 18
DIVERSITY OF ACRIDOIDEA (ORTHOPTERA) IN PULSES OF UTTAR PRADESH
M.H. Akhtar, M.K. Usmani and M.R. Nayeem
Department of Zoology, Aligarh Muslim University, Aligarh 202 002
Email:usmanikamil94@gmail.com
Pulses are important food crops due to their high protein and essential amino acid content. Like many leguminous crops, pulses
play a key role in crop rotation due to their ability to fix nitrogen. India is largest producer of pulses in the world with 25 per cent
share in global production and has achieved the record production of 18.09 million tonnes during 2010-11. Chickpea, pigeon pea,
mungbean, urdbean, lentil, and fieldpea are important pulses crop contributing 39 per cent, 21 per cent, 11 per cent, 10 per cent,
7 per cent and 5 per cent respectively to the total production of pulses in the country. Climate change and insect pests will surely
have an adverse impact on productivity on account of reduction of total production. Orthoptera is one of the largest orders of
insect which includes both short horned (Caelifera) and long horned grasshoppers (Ensifera). Acrdoidea is one of the most
important out of four superfamilies of Caelifera which comprises five families out of which Acrididae, Catantopidae and
Pyrgomorphidae are widely distributed in India. Grasshoppers are of great economic importance, because they constitute an
important group of pests and pose a constant threat to cereal crops, pulses, vegetables, orchards, grassland and forest plantations
all over the world. Adults and nymphs feed on green plant material, creating holes on leaves or pods. Grasshoppers pose the
greatest threat from the bud stage through early pod development. Grasshoppers will consume flower buds and especially early
pods that results in yield loss and a delay in maturity due to delayed pod set. Twelve species representing twelve genera of
grasshoppers belonging to three families, six subfamilies and two tribes have been recorded which infests pulses in Uttar
Pradesh. These are Chrotogonus trachypterus, Atractomorpha crenulata, Oxya velox, Eyprepocnemis alacris, Catantops erubescens,
Aiolopus simulatrix, Acrotylus humbertianus, Gastrimargus africanus, Locusta migratoria, Hieroglyphus nigrorepletus,
Cyrtacanthacris tatarica and Schistocerca gregaria.
BGE 19
PULSES: THE CHALLENGES AND FOOD SECURITY IN INDIA
Suhel Mehandi and I. P. Singh
Crop Improvement Division, Indian Institute of Pulses Research (IIPR), Kalyanpur, Kanpur-208024, Uttar Pradesh, India.
Email: suhelgpb@gmail.com
The state of India’s food security is worsening by the year. The cost of food items is increasing rapidly, making them unaffordable
to a majority of the people. Added to these woes is the short supply of pulses and edible oils, which forces the central government
to import them. Pulses play a critical role in the diet of the people of India, where large sections are vegetarians. Protein plays
a key role in the human diet. It is the body-building nutrient that develops muscles and is responsible for body strength,
endurance and productivity at the workplace. It is established that a human body requires a daily intake of about 50 gm of
protein, while people in the developed countries and most of the developing countries have a satisfactory intake of protein, in
India the per capita daily intake is only about 10 gm. This endangers health and work performance. Food and nutritional security
to its population has been the prime concern of India’s policies. With increase in population, income and urbanization, the
demand for pulses has also increased and diversified. Although there has been increase in pulses production from 1984-86 (12.74
mt) to 2009-10 (14.59 mt) a large section of our population continues to suffer from malnutrition and inadequacy of food grains.
Inflation in food prices during January, 2011 was mainly due to fresh food and negligible due to rice and wheat grains supplies.
Given the important role that pulses play in the human diet, their availability needs to be increased indigenously. The common
18
Biodiversity and Genetic Enhancement
belief that without new high-yielding varieties the country will have to continue importing pulses and edible oils to meet the
requirements is not true. The possibility of improving productivity per acre by an order of two to three times using existing
varieties has been demonstrated time and again in grower-fields in India. However, it is not done just by following current
production practices but through the adoption of entirely new but simple and farmer-friendly technologies and tools that are
now not available to Indian farmers. About 87% of pulse production of India is rainfed or without irrigation. Water harvesting
under watershed development programme generally leads to knocking out of pulses by other crops due to their low productivity
and profitability. There is hardly any significant change or growth in the area, production and productivity since 1984-86,
whereas it is a major source of nutrition and protein a large section of vegetarian population of India. Chickpeas and summer
mung haven shown better performance in the recent years. There is very small growth in productivity due to genetic reasons,
lack of investments and non-priority of research for enhancing pulses productivity and production. There is generally 3-4
million tonnes deficit in its supplies with high instability in the growth of area, productivity and production due to variability
in rainfall, its onset, withdrawal and distribution. Gap in demand and supply is being met through imports. About 10-11 million
ha area remains fallow after rice harvesting in eastern and central India. Sowing of pulses especially lentil, chickpeas, sweet peas,
non-toxic Lathyrus etc. can be internalized by in situ conservation of rainwater, run off harvesting into farm ponds, check dams,
ground water recharging and recovery through dug wells in hard rock area and tube wells elsewhere. Seed production of pulses
is a low priority of the private sector because of restricted business and public sector is not geared up to enhance replacement of
low yielding old varieties with high yielding new ones. Since demand of coarse cereals is shrinking and their productivity is
growing at a relatively higher rate, the saved area could be considered for kharif pulses like black gram, mung and others by
producing seeds of improved varieties. An accelerated pulses production programme is in operation. Overall production and
availability of pulses is highly uncertain and imports will be unavoidable for the time being. Extreme weather events and
climatic anomalies have major impacts on crop productivity and food security. Losses in production happen due to drought,
flash floods, untimely rains, frost, hails and high temperatures and heat waves etc. during crop season. In recent years extreme
weather and climatic anomalies have increased manifold. This requires continuous efforts to develop and optimize agricultural
technologies to scope up with emerging trend of climatic changes and vulnerability. It has been projected by the recent report of
Inter governmental Panel for Climate Change (IPCC) and other global studies that unless we adapt, there is probability of 1040% loss in crop production in India by 2080-2100 due to global warming. An increase in these events could result in greater
instability in food production and threaten our dream of food security. The current policy of pampering farmers with subsidies
will get us nowhere in terms of improving productivity. Crop productivity improvements have taken it to the point where the
country now exports its surplus food to neighbouring poor countries. The lesson India has to learn is that instead of subsidising
food supply to the people, the plants need subsidised food such as fertilizers and other inputs in order for them to produce the
food to achieve food security.
BGE 20
FARMERS PARTICIPATORY PLANT BREEDING - A NEW APPROACH FOR
DEVELOPMENT OF NEW VARIETY IN DOLICHOS BEAN
Veera Kumar, G.N., Byre Gowda, M. , Ramappa, H.K. , Mary Reena, G. A. , Pramila, C.K. and Pavithravani, B. V
AICRP on Pigeonpea, Zonal Agricultural Research Station, UA S, GKVK, Bangalore 560 065, Karnataka
Participatory plant breeding brings the benefits of plant breeding to all farmers regardless of gender, wealth, status, literacy,
etc., through an innovative way of organizing agricultural research in which farmers and scientists fully share the decisions
concerning the development of new varieties. The aim was to breed acceptable varieties with minimum use of resources and to
utilize farmers’ knowledge. Farmers proved to be willing participants and made selections in the segregating material, often
with great success. In the Farmers Participatory Plant Breeding (FPPB) programme involving dolichos crop, farmers were
identified for the evaluation of advanced breeding materials for their acceptance so that the breeding efforts for the delivery of
varieties is made progressively fast. In the present study, totally 103 lines have been taken and their performance was evaluated
under farmers field condition. During flowering, pod development and maturation period farmers were invited from the
surrounding villages for the selection of superior lines. Out of 103 lines, 27 lines have been selected for their superiority for pod
yield, branching pattern, pod formation, seed size and seed color. These selected lines are used for seed multiplication for further
evaluation in farmer’s fields.
19
Abstract
BGE21
FARMERS PARTICIPATORY PLANT BREEDING - A NEW APPROACH FOR
DEVELOPMENT OF NEW VARIETY IN DOLICHOS BEAN,
Veera Kumar, G.N., Byre Gowda, M. , Ramappa, H.K. , Mary Reena, G. A. , Pramila, C.K. and Pavithravani, B. V
AICRP on Pigeonpea, Zonal Agricultural Research Station, UA S, GKVK, Bangalore 560 065, Karnataka
Participatory plant breeding brings the benefits of plant breeding to all farmers regardless of gender, wealth, status, literacy,
etc., through an innovative way of organizing agricultural research in which farmers and scientists fully share the decisions
concerning the development of new varieties. The aim was to breed acceptable varieties with minimum use of resources and to
utilize farmers’ knowledge. Farmers proved to be willing participants and made selections in the segregating material, often
with great success. In the Farmers Participatory Plant Breeding (FPPB) programme involving dolichos crop, farmers were
identified for the evaluation of advanced breeding materials for their acceptance so that the breeding efforts for the delivery of
varieties is made progressively fast. In the present study, totally 103 lines have been taken and their performance was evaluated
under farmers field condition. During flowering, pod development and maturation period farmers were invited from the
surrounding villages for the selection of superior lines. Out of 103 lines, 27 lines have been selected for their superiority for pod
yield, branching pattern, pod formation, seed size and seed color. These selected lines are used for seed multiplication for further
evaluation in farmer’s fields.
BGE 22
IMPACT OF CLIMATE CHANGE IN BUNDELKHAND REGION : A MICRO STUDY.
Sarju Narain and *A.K. singh
Assistt. Prof. Agril. Ext. BNPG College Rath (Hamirpur), B.U. Jhansi, U.P.*Director , ZPD (ICAR), unit IV, Kanpur.
Climate risk is common for Indian agriculture. It is highly vulnerable to drought because two third agricultural land is rainfed
and even irrigated system is depend upon monsoon. Droughts in 2002, 2004, 2006 and 2009; floods in 2005 , 2006 and 2008; and
high temperature in March 2004 and up to mid October 2011 are the some examples of climate change. Climate change risk is a
particular challenge for the hundreds of million whose livelihoods depend on rainfed agriculture in marginal high risk
environment. The vulnerability of climate changes varies across regions, sectors and social groups. To understanding the
regional and local dimensions of vulnerability, it is essential to develop appropriate and targeted adoption efforts. Among the
different agro- climatic pockets of India Bundelkhand pocket is badly affected from climate change. For the impact assessment
of climate change a time line survey of two districts namely Hamirpur and Banda was conducted through random sampling
method. The result showed the key historical events and major changes perceived by villagers, i.e. soil erosion and degradation,
changing cropping pattern, fooding habits, availability of natural resources, poor productivity of crops & animals, etc. This
region have clear cut impact an fertilization of desi - cows , losses of fodders, result increasing ‘Annapratha’, poor milk producing
capacity of animals , rural migration and some time suicide deaths are also occurs. These are the major impact of climate change
which is badly affected to the rural society of this pocket.
BGE 23
VARIABILITY STUDIES FOR SIX SLOW RUSTING TRAITS IN PEA
[PISUM SATIVUM (L.)]
Vinod Kumar Singh1, Sabhajit Prasad Singh1 and C.P.Srivastava2
1
Krishi Vigyan Kendra, I.Ag.SC., B.H.U., Barkachha, Mirzapur, 2 Deptt. of Genetics and Plant Breeding, I.Ag.SC., B.H.U.,
Varanasi Email: vinod546@gmail.com
Pea rust caused by Uromyces viciae-fabae (Pers.) J. Schrot became an important pathogen of vegetable and field pea. The pathogen
develops in warm and humid weather and disease usually appears during flowering and podding stage that may results into the
complete losses of yield. Cultivation of resistant varieties offers one of the practicable means to rust disease management. There
is a lack of complete resistance against pea rust, further, available resistance sources were of slow rusting types. So, the present
experiment aims at developing lines with enhanced level or slow rusting resistance. The materials of present experiment
comprised of 50 germplasm lines of pea from diverse origin. The experiment was laid out in RBD with two replications in
polyhouse. Artificial inoculation was done to create disease and lines were screened against 6 components of slow rusting.
20
Biodiversity and Genetic Enhancement
Among statistical analysis mean, range, CV, GCV, PCV, heritability, genetic advance and coefficient of correlation was done. A
wide range of variability was observed for six slow rusting traits. Highest range of variability was observed for no. of pustules/
leaf. GCV and PCV indicated the existence of high degree of variability for no. of pustules/leaf, no. of non-bursting pustules and
AUDPC. Heritability as well as genetic advance was high for latent period. Most of the slow rusting traits showed a significant
correlation with AUDPC. For enhancing resistance against pea rust, component based selection should be practiced. The lines
having high level of slow rusting resistance thus developed may serves as a parent in developing high-yielding varieties with
enhanced level of durable resistance.
BGE 24
DIVERSITY OF TERMITES PESTS FROM TEA GARDENS OF NORTH BENGAL
Ritesh Biswa1 and Ananda Mukhopadhyay2
Entomology Research Unit, Department of Zoology, University of North Bengal, P.O. – North Bengal University,
Raja Rammohanpur, Darjeeling – 734013, West Bengal
Email: entoritesh@gmail.com1, am_nbu@yahoo.co.in2
A survey of the termite species of the Tea plantations of North Bengal was conducted. The objective of the study was to record the
distribution, occurrence and association of the termite species in the tea ecosystem. The status of termite species was reviewed in
reference to the earlier report of Das (1965). Termite species were sampled regularly with the help of pitfall traps (bucket-trap),
hand picking and by excavating termite species colonies. The termites found belonged to three genera i.e. Odontotermes, Microtermes,
and Malaysiocapritermes. Among these, the species belonging to the first two were found to be common with a frequency of
occurrence in 90 percent tea gardens. These are considered as serious pests damaging the dead and live wood of the tea bushes.
However, the pest status of Malaysiocapritermes was not clear. Representative species of this genus was collected only from small
pockets of Central Dooars tea subdistrict and is being reported for the first time from this region. An idea of changing diversity
and update of termite fauna is necessary to contemplate their management in tea plantations of North Bengal.
BGE 25
ASSESSMENT OF GENETIC DIVERSITY AMONG PIGEONPEA GENOTYPES FOR
STERILITY MOSAIC DISEASE RESISTANCE USING SSR MARKERS
Satheesh Naik, S. J., M. Byre Gowda, G.A. Mary Reena, C.K. Pramila and Veera Kumar, G.N.
AICRP on Pigeonpea, University of agricultural sciences, GKVK, Bangalore, India-560065.
E-mail: satheeshnaikagri@gmail.com
Simple sequence repeats were used to study the polymorphism between the Sterility mosaic disease (SMD) resistant and
susceptible pigeonpea genotypes. Out of 61 primers, 13 were polymorphic and the polymorphism information content (PIC) for
these primers ranged from 0.23 – 0.60, with an average of 0.43. Highest (0.60) PIC value observed for the primer CCttc008 and
lowest (0.23) for CCtc012. Cluster analysis grouped the SMD highly resistant and moderately resistant genotypes (ICP 7035, BRG
1, Bahar and HY 3c, respectively) in major cluster I. However, BRG 1 and HY 3c formed a separate sub cluster within cluster I but,
closely associated to Bahar. Further, SMD susceptible genotypes viz., BRG 2, TTB 7 and ICP 8863 where grouped into separate and
distinct major cluster II. The genotypes TTB 7 and ICP 8863 formed a sub cluster within the cluster II being close to BRG 2. The
similarity coefficient ranged from 0.593 to 0.796. Highest (0.796) similarity was observed between Hy3c and BRG 1 while, lowest
(0.593) was between noticed between ICP 8863 and BRG 1. Hence, polymorphic primers identified could be effectively used for
detection of SMD resistant genotypes
BGE 26
ASSESSMENT OF GENETIC VARIABILITY AND SEED QUALITY PARAMETERS IN
TIMELY SOWN BREAD WHEAT (TRITICUM AESTIVUM L.) GENOTYPES
Navin Kumar and Shailesh Marker
Department of Genetics and Plant Breeding, Allahabad School of Agriculture, SHIATS Allahbad
The present investigation was carried out with 54 wheat genotypes during rabi 2009-10 in RBD having three replications at field
experiment centre of the and genetic advance: Analysis of variance revealed considerable variability among the genotypes for
21
Abstract
all characters. A perusal of coefficient of variation showed that PCV was higher than GCV for all the Department of Genetics and
Plant Breeding, Allahabad School of Agriculture, SHIATS. The data were recorded on twelve quantitative characters to study the
variability, heritability characters studied indicating less effect of environment on the expression of these characters. The
phenotypic and genotypic coefficient of variation (PCV and GCV) was high for grain yield per plant followed by tillers per
plant, test weight and spike length. High estimates of heritability were observed for biological yield per plant followed by test
weight and flag leaf length. Moderate estimates of genetic advance were exhibited by plant height, days to maturity and harvest
index.
BGE 27
ANALYSIS OF VARIANCE FOR NUMBER OF FLORETS PER SPIKE IN DIFFERENT
VARIETIES OF GLADIOLUS
Nidhi Gupta
Department of Botany, D.G.P.G.College, Kanpur
Email: manish72_knp@yahoo.com
Gladiolus is an ornamental flowering plant which has a great importance in floriculture Industry. The flowers are very attractive
and florets are arranged in the form of spikes.
Different varieties of gladiolus plant material were taken for experimental trials. The character taken for observation was number
of florets per spike. Experimental trials for different varieties of gladiolus were laid out with randomize block design with three
replications. Data were recorded and calculated on the mean performances of characters.The number of florets per spike was
maximum in treatment or variety V42- wild Rose and V34-Shobha, the values were 22.267 and 22.250 during both the years of
investigation, respectively.
BGE 28
STUDY OF GENETIC VARIABILITY AND CHARACTER ASSOCIATION IN FIELD PEA
(PISUM SATIVUM L.)
Anupriya Saxena, G.R Lavanaya, Jaya Rathore*, Geeta Kumari , Sudhir Pathak, Vikramjeet Singh and Raju Kumar
Department of Genetics and Plant Breeding Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad
(U.P.) – 211007, India.
The present investigation was carried out with twenty field pea (Pisum sativum L.) genotypes during rabi 2008-09 in RBD having
three replications at field experiment centre of Department of Genetics and Plant breeding, Allahabad School of Agriculture,
SHIATS. The data were recorded on eleven quantitative characters to study the variability, heritability, genetic advance, correlation
and path analysis. Analysis of variance revealed considerable variability among the genotypes for all the characters. On the basis
of mean performance highest seed yield per plant was exhibited by genotype FP8- 151. The phenotypic and genotypic coefficient
of variation was high for number of clusters per plant followed by number of primary branches per plant and plant height. High
estimates of heritability was observed for plant height, which suggested that this trait would respond to selection owing to its
high genetic variability and transmissibility. High estimates of genetic advance was exhibited by plant height, while moderate
estimates of genetic advance were exhibited by days to maturity, days to 50% flowering, number of pods per plant and number
of clusters per plant. The seed yield exhibited positive and significant correlation with 100 seed weight, number of clusters per
plant, number of pods per plant, pod length, days to 50% flowering, number of primary branches per plant both at phenotypic
and genotypic level. Path coefficient analysis revealed that 100 seed weight had highest positive direct effect followed by
number of pods per plant, plant height, days to 50% flowering and number of seeds per pods at genotypic level. So, these
characters were the most important yield components that could be used as selection indices for further improvement in pea
germplasm.
22
Biodiversity and Genetic Enhancement
BGE 29
HKM-1: PROMISING SUMMER MUNGBEAN IDEOTYPE FOR DUAL PURPOSE (GRAIN
& GREEN MANURING)
V.S. Lather
CCS Haryana Agricultural University, Rice Research Station, Kaul (Kaithal) Haryana.
E-mail:drvslather@gmail.com
.The ideotype define by Donald(1968) as the development of ideal, model, optimum plant architecture for a specific environment.
In ideotype breeding, the approaches that combine physiological, genetical and architectural traits may massively be taken into
account. The selection on architectural traits is expected to be more effective than the direct selection on the seed yield and its
components. Crop ideotype may be modified to improve adaptation of the crops to different environments and to increase the
seed yield and its stability. The crop architecture of grain legume including mungbean are the indeterminate growth habit,
which may lead to a prolonged growth cycle with consequences on the maturation and strong within-plant competition between
the reproductive and vegetative growth. The main agronomic reason why breeders and geneticists have tried to genetically
modify plant architecture is to maximize and stabilize seed yield. Though, most architectural modifications resulted in a
reduction in the biomass production for achieving higher harvest index (HI), however, the modification of mungbean crop
architecture for summer cultivation in present study increased the biomass production which resulted in a higher seed yield
with low HI and better adaptation because of an increase of the assimilate partitioning to the reproductive compartment and a
preferential allocation to the grain within the pods. The principal reasons, why current modifications of mungbean crop
architecture contribute to increasing seed yield may be delayed flowering date, branching pattern and stay green character
which directly affected the other architectural modifications and influence the light interception efficiency. Further, top pod
bearing characteristics of modified ideotype HKM-1 contributed to the pod wall photosynthesis which accounts for a large
proportion of the pod weight at harvest and better assimilate partitioning to the vegetative compartment and the reproductive
growth.Rice-wheat cropping system (RWCS) accounting for 10.5 m ha is the major cropping system in states of Punjab, Haryana,
Uttar Pradesh, Himachal Pradesh, Bihar, and West Bengal. However, serious concerns now expressed that the ‘Green Revolution’
with RWCS and high input use has reached a plateau and now sustained with diminishing return of falling dividends and
showing signs of “fatigue” due to continued cereal-cereal (rice-wheat) cropping by stagnation of productivity and depletion of
natural resources particularly degradation of environment and soil health. Pulses are known for their role in the improvement
of soil health through improvement soil fertility through BNF (Biological nitrogen fixation), soil erosion, soil aggregation and
the diseases control. It is very well documented that green manuring through pulses in summer season after harvested of wheat
in the areas of rice-wheat cropping system save about half the doses of chemical fertilizer without any adverse effect on rice crop
productivity. Further it was observed that the munbean with short vegetation duration (60 to 75 days) recorded high values of
organic matter (70%), narrow C:N ratio along with higher content of micro and macro elements and biomass (~3000 kg/ha) and
grain yield ( ~600 kg/ha) is best option for green manuring for summer conditions.The SML-668 is leading summer mungbean
variety cultivated in RWCS areas , however, not found suitable for dual purpose of grain and green manuring due to it’s poor
biomass production.The HKM-1 is developed through selection based on ideotype approaches for tall and semi-erect growth
habit, higher biomass, stay green and top pods bearing characteristic from land races selected from Khaddar areas of Yamuna
River and showed promise for its suitability for dual purpose(grain&green manuring)during summer cultivation.
Therefore, HKM-1(Haryana Kaul Munbean-1) with higher biomass, tall and semi-erect plant growth habit, near to determinate
flowering, stay green and top pods bearing characteristics and resistance to MYMV will prove to be the ideal mungbean
ideotype for dual purpose (grain and green manuring) in summer cultivation in the areas of rice wheat cropping system in IndoGangatic Plains(IGL)
BGE 30
SELECTION OF ELITE MUNGBEAN (VIGNA RADIATA (L.) WILCZEK) GENOTYPES
Anzer ul Islam, G. R. Lavanya, Suhel Mehandi and Reena Gupta
Department of Genetics and Plant Breeding, Allahabad School of Agriculture, SHIATS, Allahabad-211007, Uttar Pradesh, India.
E-mail: anzer.gene@gmail.com
The present investigation entitled “Selection of elite mungbean genotypes” was conducted in kharif 2009 at the Field
Experimentation Centre, Department of Genetics and Plant Breeding, Allahabad School of Agriculture, SHIATS, Allahabad.
Genetic variability was estimated among 28 genotypes of mungbean for ten characters. The genotypes were sown in RBD
fashion in three replications. Genotype KM 9-159 recorded highest mean performance for seed yield per plant (9.69) and KM 9117 recorded maximum number of pods per plant (58.00). High magnitude of GCV and PCV were recorded for plant height
23
Abstract
(32.47, 32.52) and 100 seed weight (22.57, 22.59) indicating the presence of sufficient amount of variation for these characters. Plant
height and 100 seed weight exhibited high heritability and genetic advance as percent of mean, suggesting the probability of
greater amount of additive type of gene action in expression of these characters. Genotypes were grouped into six clusters as per
D² statistic analysis. The intra cluster distances among six clusters was registered maximum for cluster VI (827.78) and followed
by cluster I (615.62). The cluster I included eight genotypes forming the largest cluster. Highest inter cluster distance was
observed between cluster I and VI (6482.53) followed by cluster III and cluster VI (4894.12), suggesting that crossing between the
genotypes included in these clusters is expected to generate heterotic combinations and thus facilitate the isolation of desirable
genotypes.
BGE 31
EVALUATION OF NEW CHEMICALS AGAINST SUCKING PEST OF MUNGBEAN
B. Panickar, I. S. Patel, P. S. Patel, and Y. Ravindrababu
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (Gujarat)
Email: bindu.ento@gmail.com
Mungbean is one of the most important pulse crops. This crop is highly susceptible to various insect pests which infest its right
from sowing and continue up to harvesting. Among these, leafhopper is one of the most important sucking pests as it sucks the
cell sap from leaves. Spotted pod borer damage the crop after initiation of flowering stage and damages the crop up to harvesting.
To overcome these problems various practices have been used. But due to more damage of these pests, there is a need to evaluate
the new chemicals against these pests of mungbean. In a field trial eight different insecticides were tested with their different
doses at research farm of Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrushinagar during
Kharif 2010. Experiment was laid out under randomized block design and replicated thrice. Five plants were selected randomly
from each plot and number of leafhoppers were recorded from each leaf one from top, middle and bottom region of the plant at
before spray and 3 and 7 days after spray. Total number of pods and damaged due to Maruca vitrata were counted at the time of
harvesting from five plants in each treatment and on that basis per cent pod damage was worked out. The leaf hopper population
was significantly lower in thiamethoxam spray @ 0.2g/litre at 3 days after spraying. But after 7 days of application,
clothionidin@0.1g/litre recorded significantly lowest leafhopper population and was at par with triazophos @ 1 lit/ha.Significantly
lowest pod damage was recorded in Clothionidin@0.1 g/litre and was at par with clothionidin 0.05g/lit and acetamiprid.
Significantly higher (2608 kg/ha) yield was observed in thiamethoxam . The highest net return (1: 213.78) was obtained in
triazophos.
BGE 32
COMBINING ABILITY AND HETEROSIS STUDIES FOR SOME QUANTITATIVE AND
QUALITATIVE TRAITS IN LENTIL (LENS CULINARIS M.) GERMPLASM UNDER MIDHILL SUB-TEMPERATE CONDITIONS OF HIMACHAL PRADESH
N. Kumar1, B.C. Sood1, T.R. Sharma2 and R.K. Chahota1
1
Department of Crop Improvement, 2Department of Agricultural Biotechnology, Himachal Pradesh Agricultural University,
Palampur, 176 062 (H.P.) India
E-mail: nareshpbg@gmail.com , nareshjatt@gmail.com
A line x tester analysis involving 15 inbred lines with 2 testers having wider genetic base were carried out for some quantitative
and qualitative traits in lentil (lens culinaris M.) germplasm in Palampur (sub-temperate). The progenies of these crosses and their
parents were raised in randomized complete block design with two replications during 2007. Combining ability studies
revealed that the lines L-658, L-666, L-407, L-354 and PL-406 were good general combiners for seed yield and most of its
component traits, whereas L-617, L-737, L-635, L-412 were good general combiners for seed yield and quality components and L649 was good general combiner for earliness. Among specific cross combinations Vipasa x L-412, PL-406 x L-617, Vipasa x L-620,
PL-406 x L-651, PL-406 x L-630, Vipasa x L-649, PL-406 x L-635 for seed yield and most of its component traits were outstanding
having high sca effects. The cross combinations Vipasa x L-652, Vipasa x L-737 and PL-406 x L-407 showed high sca for protein
content and days to 50 % flowering. Based on the comparison made in the light of per se performance, sca effects and standard
heterosis, the cross combination PL-406 x L-649 was best for days to 50% flowering; PL-406x L-651 being best for pods per plant;
Vipasa x L-652 and PL-406 x L-354 was found to be best for protein content. The promising cross combinations, PL-406 x L-649
can be exploited to develop early maturing genotypes and PL-406 x L-651 could be exploited to develop high yielding cultivar
in lentil whereas, Vipasa x L-652, PL-406 x L-354 can be exploited for the improvement of quality traits in lentil and Vipasa x L658, Vipasa x L-642, Vipasa x L-737 for polyphenol oxidase activity. The early flowering genotype identified in the present study
may be exploited for the development of drought tolerant genotype in future.
24
Biodiversity and Genetic Enhancement
BGE 33
ASSESSMENT OF DISTINCTIVENESS, UNIFORMITY AND STABILITY OF VEGETABLE
PEA VARIETIES BASED ON MORPHOLOGICAL DESCRIPTORS
S.S. Solanky, S.D. Pandey , Aastik Jha, Rajesh Kumar, B. Singh, T. Chaubey and D. K. Upadhyay
Indian Institute of Vegetable Research, Varanasi
Thirty five indigenous vegetable pea varieties were characterised during 2010-2011 using 20 (visual and measuring) morphological
descriptors adopted DUS test guidelines of PPV and FR Authority and subsequently examined for their distinctiness, uniformity
and stability. Stem anthocyanin colouration was absent and leaf axile colour was green in all genotypes. Among all genotypes,
11 showed extra early flower opening (<40 days) after sowing, seven genotypes showed early flower opening (40-50 days), 16
genotypes showed mid-flower opening (51-70 days) and only NDVP-250 showed late flower opening i.e. more than 70 days after
sowing. The leaflets were present in all the genotypes except, NDVP-250 (afila type). The pod number/axil was found single for
seven genotypes viz., PM-2, PMS-3, NDVP-12, MA-6, VRP-22, AP-3 and NDVP-8 whereas twenty eight genotypes expressed
doubled pod/axil. On the basis of pod shape of distal end, fourteen genotypes showed pointed and twenty one genotypes were
blunt. In favour of plant height, the genotypes have been grouped into three categories, viz. short (<60cm), medium (60-80cm)
and long (>80cm). Out of thirty five genotypes, eight showed short, twenty one medium and six genotypes showed longer plant
height. Among thirty five pea genotypes, eight genotypes expressed spherical seed shape viz. Mithi Phalli, PM-2, Pant Uphar,
VL-3, Vivek Matar-9, Arka Sampoorna, DHVP-10 and PH- 1, whereas the seeds of twenty seven were dimpled seeded. Nine
genotypes showed smooth seed surface while twenty six showed wrinkled seed surface. Similarly twenty two genotypes
showed green seed cotyledon colour and thirteen yellow seed cotyledon colour. Low 1000-seed weight (<150g) was found in two
genotypes viz. PSM-3 and NDVP-250, medium (150-200g) in nineteen genotypes and higher (>200g) in fourteen genotypes. On
the basis of present DUS characterization, these varieties were grouped into differed categories for each character and may be
used as reference varieties in breeding programme. It was concluded that the morphological DUS descriptors can be effectively
used for identification and grouping of varieties and varieties satisfying the DUS criteria for these morphological descriptors
could be registered under PPV&FR Act. Further, these varieties can be used in varietal improvement programme depending
upon the in desired characteristics.
BGE 34
ESTIMATION OF GENETIC VARIABILITY IN CHICKPEA (CICER ARITINUM L.)
Neeraj Kumar Saroj, Warkad Dipak Punjaji, Suresh B.G. and G.R.Lavanaya
Department of Genetics & Plant Breeding, Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture,
Technology & Sciences, (deemed-to-be-university), Allahabad-211007(U.P.)
E-mail: dipakwarkad11@gmail.com
Genetic variability was estimated among 16 genotypes of chickpea for 9 characters. The Field layout was Randomized Block
Design with three replication. The experiment was conducted at the Field Experiment Centre, of Department of Genetics and
Plant Breeding, SHIATS, Allahabad .Genotype JG-62 was recorded as the maximum number of pods per plant (100.2) and
genotype IPC-94-94 43.40 recorded maximum biological yield per plant and ICC-12242 (sel-1) 4.53 was recorded as the maximum
seed index and maximum number of primary branches per plant and genotype IPC-94-94 (sel-1) 33.90 has maximum harvest
index and seed yield per plant (grams).Highest mean performance was estimated in number of pods per plant and harvest index.
The genotype, CSG-9505 recorded highest yield in present investigation; further the number of pods showed higher Genetic
coefficient variation coupled with high heritability and genetic advance as present of mean show given top priority for selection.
The highest value of GCV and PCV were recorded for seed index. Highest genetic advance as percentage of mean recorded in
number of pods per plant. Hence, these characters may serve as effective selection parameter during breeding programme for
crop improvement.
25
Abstract
BGE 35
PHYSIOLOGICAL BASIS OF DROUGHT TOLERANCE IN SOYBEAN GENOTYPES AT
REPRODUCTIVE DEVELOPMENT
Arunkumar R*.., Gyanendra Singh., Pal R.S., Mangal Deep Tuti., Anuradha Bhartiya., Agrawal P.K., and Bhatt J.C
Vivekananda Parvatiya Krishi Anusandhan Sansthan (ICAR), Almora 263 601, India
E-mail: agri_arun@rediffmail.com
Crop failures due to extreme weather events such as drought, flood and water logging were important consequence of climate
change in North West Himalayas. Soybean is one of the major and widespread crop in the world and it is sensitive to water stress.
A pot culture experiment was conducted during 2011 in five soybean genotypes viz VLS 21, VLS 47, VLS 59, VLS 63 and VL Bhat
65 to study the physiological basis of drought tolerance in soybean genotypes at reproductive development. Drought stress was
imposed during preflowering to flowering stage by withholding the irrigation and pots were also shielded by polycover
structure to avoid rainfall. Physiological observations like leaf angle, relative water content (RWC), membrane stability index
(MSI), chlorophyll ‘a’ , chlorophyll ‘b’ , total chlorophyll, total carotenoid and proline contents, photosystem II efficiency,
photosynthesis efficiency (Fv/Fm), pollen viability, leaf area , leaf weight, stem weight, number of root nodules and soil
moisture were recorded immediately after short period of drought stress. Relative water content, MSI, total chlorophyll content,
total carotenoid content, photosystem II efficiency, photosynthesis efficiency, pollen viability were found to be reduced by 38,
29, 24, 11 , 15 and 16 percentages respectively under drought condition compared to that of irrigated condition. Also significant
increase in proline content was recorded under drought condition. Among the genotypes the VLS 47 recorded significantly
better physiological traits along with grain yield under drought condition.
BGE 36
STUDIES ON PERFORMANCE OF EARLY ELITE RICE CULTURES UNDER DIRECT
SEEDED CONDITIONS FOR YIELD AND QUALITY TRAITS.
Tej Pratap Singh, A.K. Chaurasia, Gideon J. Synrem and Suhel Mehandi
Department of Genetics and Plant Breeding ,Allahabad School of Agriculture, SHIATS, Allahabad-211007, Uttar Pradesh,
India.
Email: synrem.gideon@gmail.com
An experiment entitled “Studies on performance of early elite rice cultures under direct seeded conditions for yield and quality
traits.” was conducted in kharif 2009 at the Field Experimentation Centre, Department of Genetics and Plant Breeding, Allahabad
School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology & Sciences, Allahabad. The material used in the
experiment was 23 rice genotypes procured from Directorate of Rice Research, Hyderabad. The experiment was laid in Randomized
Block Design and the genotypes were replicated thrice. The observations were recorded for 22 characters, of which 15 were
quantitative characters viz., days to 50% flowering, number of tillers per hill, number of panicle per hill, number of spikelet per
panicle, panicle length (cm), flag leaf length (cm), flag leaf breadth (cm), plant height (cm), days to maturity, biological yield /
hill (g), grain yield/hill (g), grain yield per plot (kg.), grain yield (q/ha.), harvest index (%), test weight (1000 grains weight), and
7 qualitative characters viz., hulling percentage, milling percentage, head rice recovery (HRR) %, kernel length of rice (mm),
kernel breadth of rice (mm), length/breadth ratio and grain type. The experimental finding on the basis of analysis of variance
revealed the presence of considerable variation among the germplasm for all the 22 characters except for harvest index. Maximum
GCV and PCV for 15 quantitative characters studied was observed in grain yield per plot (26.91/27.63) followed by grain yield
(q/ha) (26.89/27.59) and test weight (22.42/22.48). Coefficient of variation studied indicated that phenotypic coefficient of
variation (PCV) was slightly higher than genotypic coefficient of variation GCV for all the 15 quantitative characters studied.
High estimates of heritability (broad sense) were observed in test weight (99.00) followed by grain yield (q/ha) (95.00) and grain
yield per plot (94.00). Highest and lowest genetic advance as per cent of mean was observed in plant height (84.58) and flag leaf
breadth (0.34) respectively. The characters that show high heritability and high genetic advance are controlled by additive gene
action and can be improved through simple or progeny selection method. Maximum GCV and PCV for 7 qualitative characters
studied was observed in head rice recovery (20.81/20.88) followed by L/B ratio (13.00/14.29) and kernel breadth of rice (10.34/
12.49). Coefficient of variation studied indicated that phenotypic coefficient of variation (PCV) was slightly higher than genotypic
coefficient of variation GCV for all the 7 qualitative characters studied. High estimates of heritability (broad sense) were
observed in head rice recovery (99) followed by hulling percentage (98) and milling percentage (96). Highest value of genetic
advance as per cent of mean was observed in head rice recovery (21.47) while lowest was observed for kernel breadth of rice
(0.37).
26
Biodiversity and Genetic Enhancement
BGE 37
DIVERSITY OF FOLIICOLOUS FUNGI FROM NORTH CENTRAL TARAI FORESTS OF
U.P., INDIA
T.P. Mall
Postgradute Department of Botany, Kisan P.G. College, Bahraich- 271 801 (U.P.) India
Email: drtpmall@rediffmail.com
An extencive survey of North Central Tarai Forests of U.P. were made for foliar fungi during May, 2010 to July, 2011. A total of
four hundred specimens were collected on angiospermic hosts. From these 26 angiospermic plant species representing 23 genera
and 18 families were found infected by thirty fungal species representing 18 fungal genera which are additions to the list all
ready communicated for publications.
Adina cardifolia Hook f. (Rubiaceae) was found infected with Cercospora adinia Srivastava et al. where as Anona squamosa Linn.
(Anonaceae) with Botryodiplidia theobromae Pat. Apud, Pat & Legerth, Artocarpus heterophyllus Lamk (Moraceae) with Cladosporium
artocari Kulhare & Singh and Rhizoctonia solani Kuhn, Bauhinia purpurea Linn. (Fabaceae) with Phoma sp. Desm., B. Vahlii W. & A.
(Fabaceae) with Alternaria bauhiniae Singh & Mall, Brassica oleraceae Linn. (Brassicaceae) with Sclerotinia sclerotiarum (L.) Bacy,
Bridelia retusa Spreng (Phyllanthaceae) with Colletotrichum gloeosporioides Penz., Carissa carandas Linn. (Apocyanaceae) with Sirosporium
sp. Bubak & Sereb, Clerodendrum indicum Linn. (Verbenaceae) with Fusarium concolor Reink, C. Viscosum Linn. (Verbenaceae) with
Pseudocercospora clerodendrii Speg & Stenella clerodendri Syd., Diospiros melanoxylon Roxb (Ebenaceae) with Pseudocercospora kelleri
(Earle) Deight, Dolichos lablab Linn. with Phoma herbarium & Pseudocercospora dolichi Ell. & Ev., Haplophragma adenophyllum Linn.
(Bignoniaceae) with Passalora sp. Holarrhena antidysentrica Wall (Apocyanaceae) with Glomerella cingulata (Stomen) Spauld &
Shrenk, Holoptelia integrifolia Planch (Ulmaceae) with Colletotrichum dematium (Pers.ex Fr.) Groove Ichnocarpus fruitescens Linn.
(Apocyanaceae) with Alternaria ichnocarpicola Singh & Mall, Inga dulcis Roxb. Kuntze (Mimosaceae) with Diatrype diseiformis Kar
& Maity, Lagenaria siceraria (Mol) Standl (Cucurbitaceae) with Curvularia verruculosa Ellis, Mallotus philippensis Lamk (Euphorbiaceae)
with Mycovellosiella malloti Bhalla et al., Psium guajava Linn. (Myrtaceae) with Rhizoctonia solani Kuhn & Cladosporium tennussima
Cke, Sphaeranthus indicus Linn. (Asteraceae) with Cercospora neo- sphaeranthi Bhartiya Kumari & Singh, Shorea robusta Gaertn. f.
Fruct. (Dipterocarpaceae) with Pseudocercospora rhoreae (Thirum & Kotsuki) Deighton., Solanum melongena Linn. (Solanaceae)
with Alternaria solani Nees, Solanum tuberosum Linn. (Solanaceae) with Cladosporium sphaerospermum Penz., Strebulus asper Lamk.
(Moraceae) with Pseudocercosporella strebli Singh and Tectona grandis Linn. (Verbenaceae) with Phomopsis variosporum Sacc. Since
this area in not thoroughly served &documented and the available literatures reveals that all the fungal collections are an
addition to the Indian foliar mycoflora from North Central Tarai Forests of U.P.
BGE 38
ANTIBIOSIS AND BIOCHEMICAL BASIS OF RESISTANCE IN INDO - AFRICAN
GENETIC RESOURCES OF PIGEONPEA TO HELICOVERPA ARMIGERA HUB.
I. S. Patel, P. S. Patel, B. Panikar and Y. Ravindrababu
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (GUJARAT)
Email : dr.ispatel@gmail.com
Helicoverpa armigera Hub. is considered major pests of pigeonpea. It is reported to be most devastating pest at reproductive stages
of pigeonpea. The principal means of controlling H. armigera has been the use of conventional insecticides. However, indiscriminate
use of insecticides led several environmental problems. Development of resistance lines for pigeonpea is important component
of IPM. The levels of resistance to H. armigera in the cultivated germplasm are quite low and therefore there is need to introgress
resistance genes from Indo- African line into the cultigene. To investigate antibiosis and biochemical basis of mechanisms in six
lines of cultivated and five lines of Indo-African were tested at Entomology laboratory, Centre of Excellence for Research on
Pulses, S. D. Agricultural University, Sardarkrishinagar during 2009-10.
Study on antibiosis indicated that among all the varieties, minimum eggs were laid in ICPL-332 (32 eggs) and LRG-41(46 eggs).
Overall maximum eggs were deposited on Indo-african lines as compared to cultivated lines. Larval weight and pupal weight
was found minimum in ICPL-13555 and ICPL-332 , respectively. ICPL-332 had also minimum pupal weight. ICPL-33 also
recorded minimum pupal weight (236mg) and pupal length (1.66cm)
Biochemical analysis revealed that mean protein content was found maximum in buds (21.03%) as compared to flower and pod.
ICPL-84-0-84 had high protein content Moisture content and TSS was recorded lowest in ICP-13555. ICPL-84-0-84 had high
protein content. While same entry had higher amount of phenol (0.71%).
27
Abstract
BGE 39
EVALUATION OF CHRYSANTHEMUM GENOTYPES FOR VALUE ADDITION
CHANDRAGIRI, R., VEERA KUMAR G.N., NAGARAJA, M AND PRAMILA, C.K.
Department of Horticulture, University of Agricultural Sciences, GKVK, Bangalore- Karnataka
Email: pramila.aulya@gmail.com
Chrysanthemum (Dendranthema grandiflore. Tzvelev) is one of the most beautiful flowering commercial important crop. Today,
it has earned tremendous popularity as an ornamental flower for the garden, cut flower for interior decorations, also for the
conservatory display and as an attractive potted plant. Among the different types of Chrysanthemum, sprays and form types are
the prominent of the mixed bunches. In India, it has been recognized as one among the top five important commercially
potential flower crops. Today with the advancement of the technologies like using the greenhouse for climate control, use of
high yielding genotypes, chrysanthemum cultivation is all set to go hi-tech. Since Chrysanthemum is sensitive to photoperiod,
year round production is possible only under playhouse conditions providing artificial lighting and dark period. A study was
conducted to understand the relative performance, nature and magnitude of variability, association of different morphological
traits and direct and indirect effects of different component characters on important traits of commercial aspects. Ten standards
and twenty spray Chrysanthemum varieties were evaluated under playhouse conditions. Among high yielding genotypes,
cream Fizi recorded highest flower weight (9.48g), Cayman (2.39g), suitable for hi-tech cultivation. Evert genotype recorded
loner duration of vase life (16 days), Lineker and Lineker Amber recorded vase life of 19.6 days for export and keeping quality.
BGE 40
EVALUATION OF NEW HYBRIDS FOR OVER SEASONS IN SUNFLOWER
(HELIANTHUS ANNUUS L.)
Nagaraja, M, K.M., Channakrishnaiah, Veera Kumar, G.N., Vasundra Devi, N.V. and Pramila, C.K.
Department of Genetics and Plant Breeding, University of Agricultural Sciences, GKVK, Bangalore- Karnataka
Simple adoptions such as change in planning dates and crop varieties could help in reducing the impact of climate change to
some extent. There are large yield gaps in all crops and bridging them could assist in strengthen food security of the region and
reducing the vulnerability to climate change. Fragile seed sector, poor technology dissemination mechanisms, lack of adequate
capital for inputs and poor market infrastructure are the key reasons for yield gaps. In view of this an experiment was taken for
the evaluation of sunflower hybrids available in market with the private and public sectors for their recommendation for yield
potentiality over seasons. The experimental material comprised of a totally 34 hybrids including private, public sector and prereleased hybrids. The KBSH1 was used as a check to assess yield potential for comparison of new hybrids.
Seed yield in sunflower is a complex trait and is the ultimate total expression or its individual component. Pooled analysis of
variance over both the season for seed yield indicated that overall mean of 2130 kg/ha in both the seasons, the KBSH 44 and
KBSH 42 have yielded 6.9 per cent and 3.84 percent higher seed yield than the check KBSH 1. Three hybrids performed well over
the seasons for most of the characters studied such as plant height, head diameter, Days to 50 percent flowering, days to maturity,
100 seed weight, hull content, oil content, oil yield and seeds yield. The hybrids are KBSH 44, KBSH 42 and Heera for commercial
cultivation by farming community to increase production and productivity based on their better adaptability.
BGE 41
STUDIES ON CYTOPLASMIC EFFECT IN F2 POPULATIONS OF RICE ( ORYZA
SATIVA L.)
VASUNDRA DEVI, N.V., SHASHIDHAR, H.E., VEERA KUMAR G.N., VIJAYA NARASIMHA, J., NAGARAJA, M AND
PRAMILA, C.K.
Department of Genetics and Plant Breeding, University of Agricultural Sciences, GKVK, Bangalore- Karnataka
Rice is the most important food crop of the Asian sub continent. Increasing land availability under rice is a problem because of
the population growth and many other reasons. Increasing yielded potential requires utilization of genetic variability present
in the species. 14Mha of rice area in India is subjected to drought stress and around 7Mha of upland areas other areas which are
basically rained areas are subjected to drought either in the beginning or end of the season with the erratic nature of monsoon
that is anticipated in the changed climate requirement of drought tolerant rice cultivars. Already many people have conducted
28
Biodiversity and Genetic Enhancement
research on utilization of genetic variability present in the species, but cytoplasmic contribution has not been utilizated,
especially for root morphological traits as a source of genetic variability. It has been hypothesized that cytoplasm either
independently or in association with the nuclear genome might contribute to root and shoot morphological traits. An experiment
was conducted to find the reciprocal cross differences for root, shoot and grain yield parameters if any and also estimated
standard hetersosis for root morphological traits over moroberecan & IR 64.
The estimates of cytoplasmic effect for various traits, it was shown that there were significant reciprocal cross differences for
many traits includes maximum root length, root thickness, number of grain per panicle, shoot fresh weight, shoot dry weight
and total length of the plant. Since plant height did not show any reciprocals effect. Standard heterosis for root, shoot, flower and
grain yield parameters over IR 64 shows that most of the root traits showed significant negative, heterosis over the check
moroberecan. In the reciprocal differences in F2 populations, Significant results were obtained for traits such as plant height,
maximum root length, number of roots and total length of the plant, indicating that there is contribution of cytoplasm towards
root and shoot morphological traits.
BGE 42
GENETICS OF SEEDLING AND SEED QUALITY TRAITS AND ITS IMPLICATION IN
HETEROSIS BREEDING IN MUNGBEAN
Manoj Katiyar,C. K.Verma and Amit Kumar Verma
C. S. Azad University of Agriculture & Technology, Kanpur -208002
The Genetic architecture of seedling characters (root length, shoot length, root dry weight and shoot dry weight) and seed
quality traits (100-grain weight, grain density and protein percentage) was worked out using diallel set of crosses in F1 and F2
generation of mungbean. Appreciable amount of diversity was observed among the parents for all the traits. Graphical analysis
indicated significant contribution of non-additive gene action for all the traits in both the generations. Analytical approach also
suggested similar pattern. The average degree of dominance was in the range of over–dominance in each generation for all the
attributes. GCA effects revealed that KM 2241 was a good general combiner for all the attributes. Per se performance was not
found to be a reasonably good indicator of gca effects. Considerable amount of heterosis was observed for all the traits. In
general, amongst heterosis crosses, majority of crosses had one parent with high and other with low gca effects, Superiority of
these crosses was attributed to non- additive genetic variation. Medium heritability estimate was observed for seedling traits
and low for protein content in both the generations. The maximum genetic advance in percentage of means was observed for
shoot length and root dry weight in both F1 and F2. Rest of the traits exhibited low genetic advance.
BGE 43
BIODIVERSITY ANALYSIS OF LIGNIN DEGRADING MICROORGANISMS BY
ASSAYING ENZYMES
Ira Chaudhary1, Faria Fatima1, Smita Rastogi2 and Neelam Pathak1
1. Department of Biotechnology, Integral University, Lucknow-226026
2. Department of Biotechnology, DTU, Delhi- 42
Email: Danishik786@gmail.com
Although the bioligninolytic potential is not a very common characteristic among microorganisms, however lignin degraders
belongs to diverse group of microorganisms. The ecological role of these microorganisms in soil is very important, as they take
part in the biogeochemical cycles of the ecosystem. Thus, it is necessary to study the composition and dynamics of these
microbial populations to reach a better understanding of soil microbial diversity and industrial uses etc. In order to exploit
microorganisms for lignin degrading activities (laccases, Lignin peroxidases, Mangnese peroxidase), it is a prerequisite to
isolate and characterize microorganisms with potentials from natural resource i.e. soil. Collection of soil sample from two
different horizons i.e. upper horizon containing litter and lower horizon having rhizosphere which is 10-15 cm in depth has been
taken. The soil was plated on respective selective media for screening of lignin degrading microorganisms. The ligninolytic
ability is based on unspecific one-electron oxidation of the benzenic rings catalyzed by synergistic action of extracellular
haemperoxidases and peroxide-generating oxidases. The established strain collection was screened for genomic as well as
enzyme activities relevant to industrial as well as agricultural applicability. The activity, efficiency and stability of these novel
enzymes can be further improved and it is distributed over various industries, including food (45%), detergents (34%), textiles
(11%), leather (3%) and pulp and paper (1.2%). Several enzymes are also used to prepare enantiomer-pure drugs from their
racemic mixture. In the pharmaceutical industry, microbial enzymes are not only used for production of new drugs, therapeutic
agents, bioremediation, biofertilizer and xenobiotics.
29
Abstract
BGE 44
ENHANCING PRODUCTIVITY OF LENTIL BY UTILIZING GENETIC VARIABILITY IN
RESPONSE TO PHOSPHORUS FERTILIZATION
M.D. Tuti*, G. Singh, J.K. Bisht and J.C. Bhatt
Vivekananda Parvatiya Krishi Anusandhan Sansthan (ICAR), Almora, Uttarakhand - 263 601
Email: mangaldeep2t@rediffmail.com
A field experiment was conducted at Hawalbagh, Almora, Uttarakhand in a sandy loam soil under sub-temperate climatic
conditions for evaluating the performance of three lentil genotypes (VL 507, VL 514 and VL 516) with four phosphorus level (0,
20, 40 and 60 kg P2O5 ha-1) under irrigated condition. VL 507 showed the highest seed yield (17.8 q ha -1), crop-growth rate (4.8 g
m-2), net assimilation rate (5.83 g m-2 day-1) and seed protein content (25.5%) among all the tested cultivars. P applied through
inorganic fertilizer at the highest rate (60 kg P2O5 ha-1) caused the best positive response with respect to physiological traits,
growth attributes, and yield components. Similarly phosphorus content in lentil grain was increased from 32 to 35% with
increase in phosphorus dose. However, cooking quality was found non-significant among genotypes and different doses of
inorganic P fertilizer. Furthermore, the application of P-fertilizer was found to be feasible in economic terms, as the net returns
(Rs 13,960 ha-1) and benefit-cost ratio (1.14) was higher under 60 kg P2O5 ha-1. Increase in monetary return per unit of increase Pfertilizer was also enhanced successively with successive increase in phosphorus rate. It was concluded that for maximum
potential yield of lentil, genotype VL 507 is the best suited under irrigated conditions provided that its P nutrition is enhanced.
The pronounced genetic variability in lentil-yield traits suggests that nutrient-efficient germplasm can be screened through
breeding programmes to promote lentil production.
BGE-45
GENETIC STUDIES IN RECIPROCAL CROSSES INVOLVING BUDDA AND MM125
IN RICE (ORYZA SATIVA L.)
VASUNDRA DEVI, N.V., SHASHIDHAR, H.E., VEERA KUMAR, G.N., VIJAYA NARASIMHA, J., NAGARAJA, M AND
PRAMILA, C.K.
Department of Genetics and Plant Breeding, University of Agricultural Sciences, GKVK, Bangalore- Karnataka
Email: pramila.amulya@gmail.com
Experiments were conducted in reciprocal crosses involving Budda and MM125 with the objectives of estimation of reciprocal
cross differences for various traits such as root parameters, shoot parameters and grain yield in F1’s. Estimation of standard
heterosis in F1’s for shoot and grain yield parameters over IR64 and root morphological traits over Moroberecan. Estimation of
reciprocal cross differences in F2 population for various shoot and root morphological traits. The reciprocal cross difference was
estimated by comparing the differences in means of F1’s. Significant differences were obtained for traits such as maximum root
length, total root number, root thickness, shoot fresh and dry weight, total length of the plant, number of grains per panicle,
hundred grain weight and harvest index. On estimating standard heterosis, significant negative heterosis was observed for traits
such as maximum root length, root thickness, root volume, root fresh and dry weight, grain length and yield per plant in both
the crosses and hundred grain weight in MM125 x Budda cross. Significant positive heterosis was observed for traits such as plant
height, grain breadth, sterility percentage and total length of the plant in both the crosses and test weight in Budda x MM125
cross. The F2 populations of Budda and MM125 crosses were evaluated for reciprocal cross differences by comparing the differences
in means and variance of F2 population with that of student‘t’ value. Significant differences were obtained for traits such as mean
plant height, maximum root length, total root number and total length of the plant indicating the importance of reciprocal
crosses in the breeding programme.
30
Sustainable Crop Production
SUSTAINABLE CROP PRODUCTION
SCP 01
LEGUME BASED CROPPING SYSTEM FOR SUSTAINABLE PRODUCTION
N.K. Sharma and K.S. Dadhwal
Central Soil & Water Conservation Research & Training Institute, 218 Kaulagarh Road, Dehradun – 248 195 (UK), India
Email: nks60@rediffmail.com
Removal of top fertile soil due to erosion is a major cause for decline in soil fertility which results in deterioration of soil health
leading to unsustainability of the agro-ecosystem. Due to some of the unique characteristics (deep rooted system, nitrogen
fixation capacity, leaf shading etc.), leguemes are important component of the conservation agriculture. Legume being a erosion
resisting crops provide better cover and protection to land against erosion as compared to open tilled crops. Inclusion of
legumes in crop production system, either as a pure culture or intercrop, is a cheapest soil conservation measure to combat soil
erosion and maintaining soil fertility. Legumes not only produce good canopy but also has economic value to the farmers. Pulse
crop are generally suitable for such purposes. Cowpea has been found to produce maximum canopy (upto 90%, 45 days after
sowing) and give quick return among the pulses. Inclusion of such type of close growing vegetation in the cropping system not
only reduces soil (up 27%) and water (upto 15%) losses, but also adds sufficient quantity of organic matter and nutrient in the soil
resulting in increase of yield of succeeding crop (61% in wheat). Studies conducted at Dehradun show that inclusion of cowpea
as an intercrop in maize result less water loss as a surface runoff (41.2% rainfall) as against pure maize (54.1%). Similarly, strip
cropping mixture of maize (2 rows, 60 cm apart) and soybean (8 rows, 30 cm apart) gave maximum yield (3708 kg/ha) as well as
economic return. Studies also show that use of legumes as a mulch is not only beneficial for checking the soil erosion in kharif
season but also increase the yield of succeeding rabi crop. Cowpea mulching in maize yielded higher wheat grains (2744 kg/ha)
as compared to sole stand of maize (2349 kg/ha). Studies also indicate that it is always beneficial to grow legumes (sunnhemp)
for green manuring in kharif season instead of keeping the fields fallow in fallow-wheat cropping system. Similarly, in situ
sunnhemp mulching in maize is advocated in maize-wheat cropping system. This practice has the inherent ability for improving
the soil fertility besides reduction in runoff and soil loss. Thus, legumes play an important role in conservation of soil and water
resources for evolving sustainable agriculture in the country.
SCP 02
INTEGRATED NUTRIENT MANAGEMENT ON YIELD MAXIMIZATION OF IRRIGATED
GROUNDNUT
H. Patro1, S. S. Nanda2, D. Parida, Md. A. Alim and A. K. Behura.
All India Coordinated Research Project on Groundnut, OUAT, Bhubaneswar - 751003.
*Email:pranati_hkp@hotmail.com
A field experiment was conducted during rabi-summer season of 2009-10 and 2010-11 at Agronomy Main Research farm, Orissa
University of Agriculture and Technology, Odisha to study the effect of integrated nutrient management on maximizing the
yield of groundnut crop under irrigated condition. The result of pooled analysis of two years data revealed that application of
100% recommended dose of fertilizer as basal plus 50% recommended dose of fertilizer nitrogen at 30 DAS along with FYM
@7.5t/ha recorded the maximum pod yield of 2200kg/ha which was comparable with 75% recommended dose of fertilizer as
basal and 75% recommended dose of fertilizer nitrogen at 30DAS with or without FYM @7.5 t/ha and 100% recommended dose
of fertilizer as basal plus 50% recommended dose of fertilizer nitrogen at 30 DAS without FYM@7.5 t/ha. The yield maximization
was due to improvement in growth parameters and yield attributes. Similar trend was also observed in respect of maximum
gross return (Rs. 48629/ha), net return (Rs. 23274/ha) and benefit- cost ratio (1.935) with the same treatment.
31
Abstract
SCP 03
STUDY ON THE INFLUENCE OF FLY ASH ON THE HETEROTROPHIC ACTIVITIES OF
MICRO-ORGANISMS IN DIFFERENT SOILS OF KANPUR
Shweta Awasthi and Vinod Rishi
Deptt.of Botany, Bramhanand P.G.College, Kanpur
The present study was conducted to investigate the influence of fly ash on heterotrophic activities of micro-organisms in two
different soils-A sandy loam alluvial soil and an acidic soil .During this study carbon dioxide evolution was an indicator of soil
microbial activities. It was also undertaken to evaluate the effect of fly ash incorporation to soil on soil into both kind of soils
(sandy loam alluvial soil and acid soil) may improves soil property. It enhances the trace metal content when soil has a poor
content of such elements. It also affects the pattern of carbon dioxide evolution
SCP 04
SUSTAINABLE CROP PRODUCTION USING NATURAL RESOURCES
Priyanka Bhareti and R. K. Panwar
Department of Genetics and Plant Breeding G. B. Pant University of Agriculture & Technology Pantnagar, U S Nagar,
Uttarakhand-263145
Email: bhareti.priyanka9@gmail.com
The World Commission on Environment and Development (Brundtland Report, 1987) defined sustainability as “ensuring that
development meets the needs of the present without compromising the ability of future generations to meet their own needs”.
This can be added the need to utilize the natural resources as biosafety to feed the world population. Sustainable crop production
using natural resources increase agricultural production and productivity by utilizing ecological and biological integrity of
natural resources. It includes a various diverse approaches like hybridization and selection of intervarietal and interspecific
species and different landraces and varieties that are well suited to the climatic conditions of the farm: mixed farming and
cultural practices to enhance the biological and economic productivity and stability of the land; proper management of the soil
to enhance and protect soil structure, soil texture, soil micro fauna and quality: growing of legume crops for soil nitrogen
fixation; recycling crop waste and livestock. Sustainable crop production is a method of cultivation using principles of ecology
and the study of relationships between organisms and their environment. It is an integrated system of crops and livestock
production practices which is having a site-specific application which gives the long term benefits for our future needs. It
depends on replenishing the soil while minimizing the use of non-renewable resources. Natural resources are an important
source of nutrients and high yielding crop production. Balanced use of natural resources increased nutrient availability, nutrient
and water use efficiency, improves soil fertility, enhances crop production and productivity, generate farmers income and create
a beneficial interaction between crop and their surrounding environmental conditions. The chemical fertilizers should be used
judiciously and proper utilization of natural resources along with chemical fertilizers for increasing demand of food, enhancing
crop production and soil productivity in a sustainable way, all these efforts would lead to desired awareness and as a result
proper utilization of natural resource would become a cause of a boom in agriculture sector.
SCP 05
THE ROLE OF FLY ASH IN SOIL AMENDMENT
Anuradha Varshney, Kiran Prajapati and Pratibha Singh
Department of Chemistry, Dayanand Girls P. G. College, Kanpur
Email: varshney_anuradha@rediffmail.com
Flyash (FA) a by product of thermal power plant (Problematic solid waste) and its management is a great concern of the country.
Flyash is used as a soil ameliorates which improves physical, chemical and biological properties of the degraded soils and is a
source of readily available plant micro and macro nutrients. FA consists of practically all the elements present in soil except
organic carbon and nitrogen. Although FA can not substitute the need of chemical fertilizers or organic manure; it can be used
in combination with these to get additional benefits in terms of improvement in soil physical characteristics, increased yields
etc. The post harvest soil analysis revealed that the application of FA increased the available status of major, secondary and
micronutrients, due to the release of these nutrients from FA during the crop growth period. Water holding capacity of the soil
also increased due to the relation of more water by FA. In cane sugar, clarified cane sugar % increased from 10.05 to 11.45. It is an
32
Sustainable Crop Production
economical benefit to the sugar plants and hence farmers will get higher price for their canes. Field trials show that flyash
application increased the yield of cereals, pulses, oil seeds, vegetables and sugar corps significantly. Farmers are now willing to
use FA in their fields.
SCP 06
ENHANCING THE QUALITY OF MAIZE PLANTS USING CYANOBACTERIA
P. Srivastava, 1, B.K Alex.2 and E. P. Koshy,3 Pooja Srivastava, Blessymole K. Alex and Eapen P. Koshy
Jacob School of Biotechnology & Bioengineering, Sam Higginbottom Institute of Agriculture, Technology & Sciences
Email: pooja.srivastava471@gmail.com
Cyanobacteria are well known for its stimulating affect on growth of different plant species. Cyanobacteria produce bioactive
compounds including plant growth regulators that effect the growth of inoculated plants. The objectives of the present
investigation was to study effect of the cyanobacterial species Nostoc commune on germination, vegetative growth, chlorophyll
content, carotenoid content, carbohydrate, starch content, amylase enzyme and reducing sugars of Maize plants. As compared to
control plants, seed presoaking in the culture extract of Nostoc commune, enhanced the photosynthetic activity, growth criteria,
content of chlorophyll, carotenoid, starch, reducing sugars and carbohydrates. In majority of cases, seed pretreatment with
Nostoc commune, increased the chl.a, chl.b, total chlorophyll and carotenoid contents. Amylase activity was progressively increased
in response to presoaking in the algal filtrates. The germination of maize seeds treated with cyanobacteria was faster than
control,10% extract of Nostoc was more effective in enhancing growth, biochemical constituents and carbohydrate metabolism of
Maize plant. This procedure of pretreating the seeds with different cyanobacteria can be used to improve the quality of many
plants.
SCP 07
ENHANCEMENT OF PHALSA YIELD AND QUALITY THROUGH INTEGRATED
NUTRIENT MANAGEMENT
R. B. Ram, Kuldeep, Yogita, Rubee Lata, M.L. Meena and Priyamvada Sonkar
Department of Applied Plant Science (Horticulture) Babasaheb Bhimrao Ambedkar University Vidya Vihar, Lucknow
The experiment was carried out at the Horticultural Research Farm in the Department of Applied Plant Science (Horticulture),
Babasaheb Bhimrao Ambedkar University, Lucknow during 2009 - 2010. The main objective of the present experiment is to
evaluate the effect of organic manure, inorganic fertilizers and biofertilizers on the growth and quality of phalsa fruits and on
soil health. The experiment was comprised of eight treatments which were replicated thrice in RBD with one plant unit. The
maximum increase in growth parameters (number of shoots, shoot length, number of leaves per shoot, intermodal length),
improvement in yield and yield attributing characters, fruit yield of integrated nutrient management on soil health were
recorded excellent with the application of T3 and T4 treatments. Among all the treatments under this investigation treatment T3
(100 g Urea + 120g SSP + 20g MOP + 8kg FYM + Azotobacter + PSB) was proved to be most effective, in terms of yield and quality
of fruits. It also incorporates maximum nitrogen in the soil. Therefore, for commercial cultivation of phalsa, it is recommended
that 100g Urea+ 120g SSP + 20g MOP + 8kg FYM + 25g Azotobacter + 25g PSB are ideal for the integrated nutrient management
practices in phalsa under Lucknow conditions.
SCP 08
EFFECT OF PRIMING ON GERMINATION AND SEED VIGOUR IN GREENGRAM
(VIGNA RADIATA L. WILCZEK)
Rajkumar Sharma, Sudhir Kumar Pathak*, G. Roopa Lavanya and Jaya Rathod
Department of Genetics and Plant Breeding, Allahabad School of Agriculture Sam Higginbottom Institute of Agriculture,
Technology & Sciences, Allahabad-211007, U.P., India
Email: Pathak.Sudhir007@ymail.com
In an experiment plant growth regulators, GA3, IAA and NAA at 60 ppm 80 ppm, 100 ppm concentrations, NaCl solution (5%),
CaCl2 solution (1%) and hydration (6 hours) were used to study their effect on germination and seed vigour in greengram cv
Asha during 2010-2011. The experiment was conducted in completely randomized block design and the observations were
33
Abstract
recorded on germination percent, shoot length, root length, total seedling length, seedling fresh weight, seedling dry weight,
seedling vigour index and vigour index mass. GA3 100 ppm concentration recorded significant effect over control for germination
percent, root length, shoot length, total seedling length, seedling fresh weight, seedling dry weight, seedling vigour index and
vigour index mass followed by hydration and IAA treatments. The results obtained, suggested that different concentrations of
plant growth regulators and salts showed different effects on germination and seed vigour parameters in greengram.
SCP 09
PHYTATE ACCUMULATION AND MIPS EXPRESSION PATTERN DURING SEED
DEVELOPMENT IN SOYBEAN (GLYCINE MAX L.)
Sweta Kumari, Awadhesh Kumar, Swati kumari, Monica Jolly and Archana Sachdev
Division of Biochemistry, Indian Agricultural Research Institute, New Delhi-110012,
Email: sweta381@gmail.com
The major form in which phosphorus occurs in plant seeds is myo-inositol-1,2,3,4,5,6 hexakisphosphate, commonly referred to as
phytic acid or InsP6. Given its ability to complex proteins and minerals, despite its antioxidant and anticarcinogenic properties,
it is mostly known as an antinutrient for human and non ruminants. The first step in phytic acid biosynthesis is the de novo
synthesis of myo-inositol, which is catalyzed by the enzyme D-myo-inositol 3-phosphate synthase (MIPS EC 5.5.1.4). Aiming at
understanding the control mechanism of phytate synthesis, we examined phosphorous fractions, phytic acid accumulation
pattern and MIPS gene expression during seed development of soybean. Inorganic phosphorus was almost constant with a linear
increase of total phosphorus and phytate phosphorus during seed development thereby suggesting that phytic acid accumulation
began early during seed development and increase steadily throughout maturation. A final concentration of 1.9% was reached
at maturity, which constituted ~70% of total phosphorus in seeds. MIPS expression analysis by RT-PCR and by northern
hybridization was simultaneously conducted in developing seeds of soybean. MIPS transcripts were detected in the early stages
of seed development and their levels reached a peak at 6-8mm seed size followed by a gradual decline in expression with
complete absence of transcripts in the mature (12-14mm) seeds. The study suggested that the conversion of d-Glc-6-P to d-myoinositol-3-phosphate catalyzed by the first enzyme (MIPS) of the phytic acid biosynthesis pathway occured earlier in seed
development than accumulation of the final product, phytic acid. Identification of kinases and their expression patterns will
provide a more detailed picture of the subsequent steps in phytic acid biosynthetic pathway.
SCP 10
SYNERGISTIC EFFECTS OF THE INOCULATION WITH PLANT GROWTH PROMOTING
RHIZOBACTERIA AND NITROGEN-FIXING BACTERIA ON THE PERFORMANCE OF
CHICKPEA GROWN IN ALLUVIAL SOIL
Ees Ahmad, Mohammad Saghir Khan, Almas Zaidi, Mohammed Oves
Department of Agricultural Microbiology, Faculty of Agricultural Sciences, Aligarh Muslim University
Aligarh, 202002, UP, India
E-mail: eesahmad@gmail.com,
Plant growth promoting rhizobacteria (PGPR) inhabiting different agro-ecological niches have been found one of the most
promising alternatives to synthetic chemical fertilizers for raising the production of various crops including legumes in different
agro-ecosystems. The increase in health and yield of crops following PGPR has been attributed mainly due to their ability to
synthesize plant growth regulators, solubilize insoluble phosphate, biological nitrogen fixation (BNF) and by some indirect
mechanisms like producing siderophores, antibiotics and cyanogenic compounds. Considering the varied yet agronomically
important properties, PGPR belonging to genera Pseudomonas and Azotobacter were recovered from conventional rhizospheric
soils of district Aligarh while strains of Mesorhizobium were collected from nodules of popularly grown legume chickpea (Cicer
arietinum). The isolated bacterial strains in general were positive for phosphate solubilization, indoleacetic acid production,
HCN, siderophore and antifungal activity, and EPS secretion. The bacterial isolates were further applied as sole or composite
cultures and compared with nitrogen (urea) and phosphatic (DAP) fertilizers, generally used in chickpea cultivation. While
comparing the effects of sole application of biofertilizers and chemical nutrients, interestingly the nitrogen fixing pigment
legheamoglobin, chlorophyll content and yield of inoculated chickpea was significantly greater than the recommended dose of
urea and DAP, applied either separately or as mixture. However, the composite application of Azotobacter, Pseudomonas and
Mesorizobium further enhanced the measured parameters and was found superior compared to single application of each bacterial
strains or chemical fertilizers in pot trial experiments. The present finding therefore suggests that a composite application of
34
Sustainable Crop Production
inexpensive natural resources PGPR (Pseudomonas), symbiotic (Mesorhizobium) and asymbiotic N2-fixing (Azotobacter) organisms
could serve as a suitable alternative to expensive chemical fertilizers for increasing the production of chickpea.
SCP 11
EFFECT OF INTER CROPPING AND WEED MANAGEMENT PRACTICES ON WEED
DYNAMICS AND YIELD OF GARLIC.
Naushad Khan, R. A. Yadav, Vikas Kumar and Anubhav Trivedi
Department of Agronomy, C. S. Azad University of Agriculture and Technology, Kanpur-208002
A field experiment was carried out during Rabi season of 2010-11 at Students’ Instructional Farm of C. S. Azad University of
Agriculture and Technology, Kanpur with objectives to find out most remunerative garlic based inter cropping system and
suitable weed management practices with a view to suppress weed population and to enhance garlic yield. Garlic is an important
spice crop of India. Its cultivation started in earliest Neolithic. Being narrow leaved plant, weeds cause significant loss in garlic
yield. For reducing weed population and increasing yield of garlic, this experiment has been formulated with three garlic based
inter cropping system i.e. Garlic + Coriander (1:1), Garlic + Fenugreek (1:1) and Garlic + Spinach (1:1) and four weed management
practices i.e. One Hand Weeding, Hand Weeding (Twice), Pendimethaline (1 Kg a.i./ha) and Pendimethaline (0.75 Kg/ha) + One
Hand Weeding. All the treatments were tested in Split Plot Design with three replication. The result of one year experiment
revealed that in Garlic + Spinach Inter Copping System, both the crop mutually benefited to each other. The lowest weed dry
weight and highest garlic yield (152 q/ha) and Spinach yield (10q/ha) were recorded under Garlic + Spinach Inter Copping
System. Among the weed control measures, Pendimethaline (0.75 Kg/ha) + one hand weeding significantly reduced the weed
population and its dry weight and produced highest Garlic and inter crop yield than other treatments.
SCP 12
SOIL CARBON FRACTIONS AND ENZYME ACTIVITY UNDER DIFFERENT LAND USES
IN CENTRAL HIMALAYAN REGION
Justin George K, Raj Deo Singh, K. Arunkumar, Ashok K Patra
Division of Soil Science and Agricultural Chemistry, Indian Agricultural Research Institute, New Delhi-110012, India
Email: justinagri@gmail.com
Increasing anthropogenic disturbances of the Himalayan Mountains is a serious environmental problem. We studied the various
carbon fractions and enzyme activities under different land use systems viz., organic farming, soybean-wheat, fodder, undisturbed
natural forest and barren land in the Almora region of Uttarakhand in the Central Himalayan region. The soil samples were
collected in two seasons, i.e., July 2009 (summer) and January 2010 (winter) from 0-5, 5-10 and 10-15 cm depths and analyzed for
total organic carbon content, microbial biomass carbon, particulate organic carbon, labile carbon and the activity of various
enzymes like dehydrogenase, acid and alkaline phosphatases and arylsulfatase. All the land use systems exerted significant
effect on the total organic carbon content. The highest values for TOC, MBC, POC and LBC were found in forest soil and the
lowest in barren land. The studied enzyme activities also showed wide variation with change in land use systems. Irrespective
of the depth and seasonal differences the undisturbed forest system was found to maintain the highest activities of dehydrogenase,
acid phosphatase alkaline phosphatase and arylsulfatase. The carbon fractions were found to be less affected by seasonal changes
than the enzymes. In the winter season increase in the values of TOC (8.45%) and POC (9.69%) was observed. The other carbon
fractions showed decrease in values in winter season: MBC (24.53%), labile carbon (1.00%). The enzyme activities were found to
decrease significantly in the winter season. Compared to the activities in summer season magnitude of decrease in the activities
in winter was 59.77% in acid phosphatase, 40.48% in alkaline phosphatase, 76% in dehydrogenase, 11.43% in arylsulfatase. The
effect of depth on most of the parameters was found to be significant only between the first two depths. All the carbon fractions
studied were found to be positively correlated with the various enzyme activities. Of the various carbon fractions, labile carbon
exhibited the highest correlation with enzymes.
35
Abstract
SCP 013
IMPACT OF ABIOTIC FACTORS ON LIPAPHIS ERYSIMI (KALTENBACH) ON
DIFFERENT OLEIFEROUS BRASSICAS
Wajid Hasan* and C. P. Singh
Department of Entomology, G. B. Pant University of Agriculture & Technology, Pantnagar- 263145, Uttarakhand
*Email: entowajid@gmail.com
The experiments on life table of mustard aphid, Lipaphis erysimi (Kaltenbach) were conducted during rabi season (2007-08 and
2008-09) at Crop Research Centre and Economic Entomology Laboratory of the Department of Entomology, G.B. Pant University
of Agriculture and Technology, Pantnagar, U.S. Nagar, Uttarakhand to understand the impact of abiotic key mortality factors
upon L. erysimi and the source of resistance. The survivorship were stair step curve of type I on all Brassica species at all
temperature (15, 20, 25oC) and photo periods (6, 9 hrs). On B. campestris, intrinsic rate of natural increase (rm) was observed
maximum 0.1707 for L. erysimi at field 2008-09 followed by 0.1631 at 250C and 6hrs photophase, 0.1615 at 200C and 6hrs, 0.1592 at
250C and 9hrs, 0.1513 at field 2007-08, 0.1282 at 200C and 9hrs, 0.1168 at 150C and 9 hrs and lowest 0.0964 at 150C and 6 hrs. On B.
juncea, it was higher 0.1922 at 250C and 9hrs followed by 0.1908, 0.1599, 0.1486, 0.1436, 0.1426, 0.1376 and 0.1245 at 150C and 9hrs,
at field 2008-09, at 250C and 6hrs, at 200C and 9hrs, at 200C and 6hrs, at field 2007-08 and at 150C and 6hrs, respectively. On B.
carinata, rm was recorded higher 0.1651 at 150C and 9hrs followed by 0.1590 at 200C and 9hrs, 0.1451 at field 2008-09, 0.1417 at 250C
and 6hrs, 0.1412 at 200C and 6hrs, 0.1402 at 250C and 9hrs, 0.1311 at field 2007-08 and lowest 0.1068 at 150C and 6hrs. On B. napus,
the highest rm was 0.1644 at 200C and 9hrs followed by 0.1581 at field 2008-09, 0.1569 at 20 0C and 6hrs, 0.1529 at field 2007-08,
0.1448 at 250C and 6hrs, 0.1425 at 150C and 9hrs, 0.1343 at 250C and 9hrs and lowest 0.1222 at 150C and 6hrs. It was maximum 0.1389
at 250C and 6hrs followed by 0.1358, 0.1321, 0.1258, 0.1205, 0.1114, 0.1069 and 0.0469 at 250C and 9hrs, at field 2007-08, at 200C and
9hrs, at field 2008-09, at 200C and 6hrs, at 150C and 9hrs and at 150C and 6hrs, respectively on E. sativa. On B. nigra, it was recorded
as highest was 0.1496 at 200C and 6hrs followed by 0.1411 at field 2008-09, 0.1383 at 200C and 9hrs, 0.1379 at field 2007-08, 0.13465
at 250C and 6hrs, 0.1327 at 250C and 9hrs, 0.1275 at 250C and 9hrs and lowest 0.0873 at 150C and 6hrs. The ‘rm’ for L. erysimi on B.
juncea was the highest followed by B. alba, B. campestris, B. carinata, B. napus, B. nigra and lowest on E. sativa. Based on intrinsic rate
of increase ‘rm’ it can be concluded that B. juncea was the most suitable oleiferous Brassica for L. erysimi while development on E.
sativa least suitable.
SCP 14
CHIROPTERAN FAUNA OF EASTERN UTTAR PRADESH
Virendra Mathur, Irulan. A, Yuvana Satya Priya*, V. Elangovan
Residential Coaching Academy, Baba Saheb Bhimrao Ambedkar University (A central University), Rae bareli Road, Vidya
Vihar, Lucknow – 226 025.
E-mail: yuvana76@yahoo.com,
The study was conducted on diversity and distribution of the chiropteran fauna of eastern Uttar Pradesh. Visual observations
were carried out at old abandoned buildings, caves, crevices, historical monument and tree holes. Bats were trapped using mist
nets and hoop nets. Morphological measurements such as body mass, forearm length, body length and wingspan were taken. A
total of 13 species of bats were observed from the study area, which include four species of Megachiroptera namely Rousettus
leschenaulti, Eonycteris spelea, Cynopterus sphinx Pteropus giganteus and nine species of Microchiroptera namely Megaderma lyra,
Hipposideros fulvus, Rhinopoma microphyllum, R. hardwickii, Pipistrellus coromandra, P. tenuis, P. ceylonicus, Scotophillus heathii, S. kuhlii.
SCP 15
EFFECT OF SEED TREATMENT ON GERMINATION AND VIGOUR IN CHICKPEA
Mohd. Shahid, Anuradha Singh, Vipul Kumar, Mukesh Srivastava, * C.P. Sachan & S.K. Biswas
Department of Plant Pathology *Seed Science & Technology, C.S. Azad University of Agriculture & Technology, Kanpur, UP,
E-mail: mukeshcsau@rediffmail.com,shahid.biotech@rediffmail.com
Present investigation was undertaken in order to know the impact of pre sowing seed treatment on germination, seedling
establishment, seedling dry weight and vigour in chickpea genotype (Udai). The different pre sowing seed treatments showed
different responses against all seven seed quality attributes. Seed treatment with T. viride + vitavax -T5 followed by treatment with
Vitavax @ 2gm/kg seed-T2 seed were found superior for laboratory germination (99.00% and 97.66), root length (1.90 and 1.33 cm)
shoot length (7.12 and 6.02) seedling length (9.02 and 7.35cm), dry weight (1.72 and 1.60mg), vigour index I (892.98 and 717.8) and
vigour index II (170.94 and 1565.25), respectively. Among all the treatments control exhibited the poorest performance for all
seven seed quality attributes.
36
Sustainable Crop Production
SCP 16
ECONOMIC VALUE OF MEDICINAL PLANTS IN INDO-GANGETIC PLAIN AREAS OF
KANPUR: AN URBAN ENVIRONMENT
*Alpana Tewari and Archana Srivastava
Dayanand Girls P.G.College, Civil Lines, Kanpur
Email: *alpanatewari@gmail.com
Traditional folklore studies have gained a considerable momentum in past years lately, all over the globe including India. IndoGangetic plain areas of Uttar Pradesh are known to be gifted with the best quality and quantity of wood as well as good forest
cover with rich floristic and medicinal floral composition. Kanpur is one of the oldest of continuously inhabited cities of the
world, and one of the most important growing industrial sites. Despite of this importance, very little information exits on the
cities flora in general, and medicinal species found within its limit in particular. Traditional medicine plays a large role in Indian
society. The presented study attempts to investigate, if traditional plants’ use and availability of important common medicinal
plants are maintained in urban environments or not. The paper presents information on the economic values and traditional
uses of 78 plant species found in the near by areas of Kanpur, Uttar Pradesh, and highlights the uses of these plants by the local
inhabitants and their economic values. The scientific and vernacular names of plants, their ecological distribution, and the
popular uses of the plant, their economic values are presented in this abstract. The majority of medicinal plants grow in the wild
(61%), while others are cultivated (37%) and some (1.9%) are domesticated. Some of these plants are more abundant in the urban
area where they grow in forested areas. Among the 78 species inventoried, 13(12.7%) medicinal plants are widely commercialized
in the region and exploited outside of the province. The data collected from 10 wholesalers and local people. This survey
demonstrates that the medicinal plant sector in the province is a promising economic resource for developing this region, but it
needs planned exploitation, and that the tribes should continue to master the folk-medicine.
SCP 17
ASSESSMENT OF COWPEA BASED INTERCROPPING SYSTEMS
D.C. Hanumanthappa, Nagaraja, M., Padmanabha, K., Veera Kumar G.N., Pramila, C.K. and Pavithravani, B.V.
Department of Agronomy and AICRP on Pigeonpea, University of Agricultural Sciences, GKVK, Bangalore-65
Cowpea (Vigna unguiculata), a legume of African origin is useful as a rotational cover crop to help meet a cash crop’s nitrogen
needs, to control erosion and to improve soil properties. Its drought tolerance makes it valuable in rainfed agriculture or in
unirrigated fallow fields. Cowpea can also be used for the production of high quality hay or silage, when mixed with crops such
as corn or sorghum, or it can be used for rotational grazing. In soils low in phosphorus, the roots of cowpea develop effective
Mycorrhizal associations, improving the soil’s available P content. A field experiment was carried out during Kharif 2010 at Zonal
Agricultural Research Station, G.K.V.K, Bangalore to know the effect of intercrops on performance of the cowpea. In this study
different crops like fingermillet and castor were intercropped with the cowpea at 6:1, 5:1 and 4:1 row proportion. Among the
treatments there was no significant reduction in the yield of cowpea when it was intercropped with either fingermillet or castor
from 4:1 to 6:1 row proportions, where as significantly higher cowpea equivalent yield (1901 kg/ha) and B:C (4.30) ratio was
higher when castor was intercropped with cowpea in 5:1 row proportion.
SCP 18
PERFORMANCE OF HORSEGRAM IN INTERCROPPING SYSTEMS
D.C.Hanumanthappa, Nagaraja, M., Padmanabha, K., Veera Kumar G.N and Pavithravani, B.V.
Department of Agronomy and AICRP on Pigeonpea, University of Agricultural Sciences, GKVK, Bangalore-65
Horse Gram (Macrotyloma uniflorum) is one of the lesser known beans. The whole seeds of horse gram are generally utilized as
cattle feed. However, it is consumed as a whole seed, as sprouts, or as whole meal by a large population in rural areas of southern
India. It is mostly used in South Indian states. Its drought tolerance makes it valuable in rainfed agriculture or in unirrigated
fallow fields. Horse gram can also be used for the production of high quality hay or silage, when mixed with crops such as corn
or sorghum, or it can be used for rotational grazing. A field experiment was carried out during Kharif 2010 at Zonal Agricultural
Research Station, G.K.V.K, Bangalore to assess the intercrops effect on performance of the horse gram. In this study different
crops like fingermillet and castor were intercropped with the horse gram at 6:1, 5:1 and 4:1 row proportion. Among the
treatments there was no significant reduction in the yield of horse gram when it was intercropped with either fingermillet or
37
Abstract
castor from 4:1 to 6:1 row proportions, where as significantly higher horse gram equivalent yield and B : C ratio was higher when
castor was intercropped with horse gram in 5:1 row proportion.
SCP 19
EFFECT OF PACLOBUTRAZOL ON YIELD CONTRIBUTING CHARACTERS OF RICE
P.K. Singh
Post Graduate Department of Botany, Kisan P.G. College, Bahraich, U.P.
E.mail-singh.prabhat961@gmail.com
Effect of different level of Paclobutrazole viz 0 ppm (T0)- control, 25 ppm (T1), 50 ppm (T2), 75 ppm (T3) and 100 ppm (T4) applied
at different stages of crop growth on yield and yield contributing characters were studied with respect to two varieties of Rice i.
e. high yield variety “ Sabha” and “Saket-4”. Seed Soaking treatment with Paclobutrazol at maximum concentration of about 100
ppm showed significant effect on yield and various yield contributing characters like number of panicles per plant, number of
grain per panicle, length of panicle, 1000 grain weight, grain yield per plant, straw yield per plant.
SCP 20
ISOLATION AND SELECTION OF NITROGEN FIXING BACTERIA FOR
FORMULATION OF FOLIAR BIOFERTILIZER
Shyam Bihari Gupta, Sasmita Dehury, Tapas Chowdhury, C.J. Nithi and Renu
Indira Gandhi Agricultural University Department of Agril. Microbiology, Indira Gandhi Agricultural University,
Raipur-492006 (C.G.) India
E-mail: sbgupta_igau2002@yahoo.co.in
Nitrogen although abundant and composes nearly 80 percent of the atmosphere, yet nitrogen is one of the major constraints that
limit the growth and productivity of plant in many ecosystems. This is a result of the inability of plant without symbiotic and
non-symbiotic nitrogen fixing microbes to directly utilize atmospheric nitrogen to meet their biological requirement for this
element. In this connection, an investigation was planned with non-symbiotic free living microbes in order to develop foliar
biofertilizers especially to enhance the usage efficiency of biologically fixed amount of nitrogen (BFAN) for different crops.
Major portion of BFAN by Azospirillum and Azotobacter in soil is wasted due to physico-chemical and biological factors resulting
in very low use efficiency of the fixed atmospheric nitrogen by the main crop. In this connection, from 255 leaf samples of
different plants including natural forest plants, 175 Azospirillum and 80 Azotobacter isolates were isolated. These isolates were
tested for their abilities to fix atmospheric nitrogen and to produce plant growth promoting substances such as indole acetic
acid(IAA) and gibberellic acid (GA) to select effective bacterial isolates. During the study, found BFAN by the Azotobacter
isolates ranged from 0.045 to 7.840 mg/ litre Jensen’s Nf broth. While, Azospirillum isolates gave BFAN ranged from 0.025 to
17.360 mg/ litre Okon’s Nf broth. Apart from atmospheric nitrogen fixation, it was also recorded that produced amount of IAA
by the Azospirillum isolates ranged from 151.6 to179.6 µg/ litre Czapek’s broth medium while, produced GA ranged from 9.6 to
151.2 µg/ litre of the medium. Similarly, produced amount of IAA by Azotobacter isolates ranged from 108.0 to 186.8 µg/ litre of
the medium and GA ranged from 59.6 to 147.6 µg / litre of the medium. Information generated in this investigation is certainly
helpful in order to formulate effective foliar biofertilizers.
SCP 21
ASSESSMENT OF GENETIC VARIABILITY, DIRECT AND INDIRECT EFFECTS IN
MUTANT LINES OF MUNGBEAN (VIGNA RADIATA L. WILCZEK)
Shantanu Tiwari, G. Roopa Lavanya, P. Ashok Reddy* and Pronob Jyoti Paul
Department of Genetics and Plant Breeding, Allahabad School of Agriculture ,Sam Higginbottom Institute of Agriculture,
Technology and Sciences, Allahabad-211007, Uttar Pradesh, India
*Email: pinintiashok@gmail.com
An experiment was conducted to study genetic variability, correlation coefficients, direct and indirect effects in 47 mutant lines
of mungbean during kharif, 2010. High magnitude of GCV and PCV were recorded for number of clusters per plant, number of
branches plant and number of pods per plant, whereas low estimates were observed for days to maturity. High heritability was
38
Sustainable Crop Production
recorded for plant height and days to maturity. The high genetic advance coupled with moderate heritability was observed for
number of clusters per plant. The grain yield per plant showed significant positive association with number of pods per cluster,
number of pods per plant, plant height and number of clusters per plant. Days to maturity, number of seeds per pod, 100 seed
weight and number of pods per plant recorded positive direct effect on grain yield, suggesting the use of these above mentioned
characters as selection indices for yield improvement in mungbean.
SCP 22
BIOFERTILIZERS: KERATIN WASTE AS SLOW NITROGEN RELEASING
BIOFERTILLIZER
Pooja Mishra, *Akash Modanwal, Sachin Mishra and Sumit Singh Verma
Saaii College of Medical Science and Technology, Chaubepur, Kanpur
*Email id: akash.modanwal23@gmail.com
Biologically active products or microbial inoculants of bacteria, algae and fungi either separately or in combination, which may
enhance the availability of nutrients for the benefit of plants are called biofertilizers. These are made by the involvement of
living microorganisms such as Nitrogen fixing bacteria, Rhizobium, blue green algae, Azospirillum, Pseudomonas Azotobacter,
Phosphate solubilizing bacteria and VAM fungi etc. Bio-fertilizers improve root proliferation due to the release of growth
promoting hormones. They help in increasing the crop yield by 10-25%. Requirement of production of these fertilizers is very
cheap and low.Keratin is protein found in hair, nail, horns, feathers etc. According to the recent researches some of the keratin
waste degrading fungi are also proved to be a very cheap and useful biofertillizer, the biofertilizers are found to be very rich in
nutrients and heavy nitrogen content. These are environment friendly. These fungi convert complex organic material (keratin
material) into simple compounds, so that the plant can easily take up the nutrients. For the production of these fertilizers the
waste keratin is used and substrate. This waste is inoculated with the specific fungi capable of degrading the keratin and resulting
in the slow release of the nitrogen content from the keratin waste in the soil. In processing this type of fertilizer there are three
major advantages as (i) Cheap raw material, (ii) Keratin waste utilization, (iii) Slow Nitrogen release in soil which is easy to
uptake by plant.
SCP 23
PHYSIOLOGICAL TRAIT ASSOCIATED WITH SEED YIELD IN EARLY PIGEONPEA
A. Bhattacharya and Vijaylaxmi
Indian Institute of Pulses Research, Kanpur – 208 024
Email: dra_bhattacharya@yahoo.com
Early pigeonpea plays an important role not only in the rice-wheat cropping system but also for soil health as well as for
nutritional security of major part of the population of this country. In spite its over all importance, the yield structure of early
pigeonpea is not well known and/or documented. Thus field trials, involving 20 early maturing genotypes, were conducted at
the Indian Institute of Pulses Research (IIPR), Kanpur during kharif seasons of 2006-2009 to have an insight of the yield structure
in relation to physiological traits during crop ontogeny. The genotypes were seeded on ridges following agronomical
recommendation and plant protection measures were adopted as and when needed. For easy interpretation of the data, the
genotypes were grouped in three groups depending on the yielding ability of the genotypes and the groups were <1000 kg/ha,
1000-1500 kg/ha, and >1500 kg/ha. It was observed that higher yielding genotypes (<1500 kg/ha) also had higher leaf area at all
crop growth stages as compared to lesser yielding genotypes (>1000 kg/ha). At flowering stage, plants of higher yielding (>1500
kg/ha) genotypes were more open as compared to lesser yielding (<1000 kg/ha) genotypes, in terms of leaf and branch angles.
The leaf and branch angles were around 60 0 as compared to 400 for higher and lesser yielding genotypes, respectively. As far as
biochemical traits, leaf soluble sugar content (ì moles/g dry weight) were initially lower at flowering in higher yielding as
compared to lower yielding genotypes. But the trend is reversed during subsequent crop growth stages and finally at maturity
higher yielding genotypes had higher leaf soluble sugar as compared to lower yielding genotypes. Leaf total amino acid content
(ì moles/g dry weight) was initially lower at flowering in lower yielding as compared to higher yielding genotypes. But the
trend is reversed during subsequent crop growth stages and finally at maturity higher yielding genotypes at lower leaf amino
acid as compared to lower yielding genotypes. In higher yielding genotypes, leaf sugar and amino acid ratio was initially lower
at flowering and it increased at subsequent growth stages and reverse was true for lower yielding genotypes from flowering to
maturity. Thus this study indicated that these morpho-physiological and biochemical traits can be exploited by plant breeders
to have a better yielding early maturing pigeonpea genotypes.
39
Abstract
SCP 24
ACTION OF PLANT GROWTH REGULATORS ON THE SEED GERMINATION AND
EARLY SEEDLING OF VICIA FABA
Swapanil Yadav, Nikita Talwar, Hamda Siddiqui and Anwar Masood
Bioarc-Society of Biotechnology and Microbiology, Gandhi Faiz-E-Aam College, Shahjahanpur (U.P.) 242001
Email: bioarcsociety@gmail.com
The effects of Chloroflurenol, Indole Acetic Acid (IAA) and Gibberellic acid (GA) on germination and early seedling of Vicia faba
was studied. The different concentrations of growth regulators (5, 10, 50, 100, 500 ppm) were used in these investigations.
Chloroflurenol and IAA decreased the percent germination while GA increased. Chloroflurenol and IAA decreased the root
length and shoot length at different concentrations. While GA promote these parameters but showing maximum at 50 ppm.
treatment.
SCP 25
GROWTH AND YIELD OF PEARLMILLET AND MUNGBEAN IN INTERCROPPING
Yogendra Kumar Ghilotia1, R. N. Meena1 And Laxman Prasad Balai2
1
Department of Agronomy, 2Department of Mycology and Plant Pathology, Institute of Agricultural Sciences, Banaras Hindu
University, Varanasi, U. P 221005
Email: yogendraghilotia@rediffmail.com
Pearlmillet [ Pennisetum glaucum (L.) ] is a widely grown rainfed cereal crop in the arid and semiarid regions of Africa and
southern Asia. In other continents it is grown under intensive cultivation as a forage crop. The food value of pearlmillet is high.
Among the major crops compatible with Pearlmillet as intercrops, Mungbean [Vigna radiata (L.) Wilczek] is one of them.
Mungbean is an excellent source of high quality protein. Mungbean is an important grain legume of the country having wider
adaptability throughout the year and is grown during kharif and zaid in north India and in rabi season in south India. The
maximum plant height pearlmillet and mungbean crops were observed under (T5) Pearlmillet: mungbean 2:2 intercropping. The
maximum plant leaves pearlmillet crop and mungbean of trifoliate leaves were observed under (T5) Pearlmillet: mungbean 2:2
intercropping. The maximum number of plant tillers was observed under (T 3) pearlmillet: mungbean 2:2 intercropping in
pearlmillet where as branches plant-1 mungbean was observed under (T5) pearlmillet: mungbean 2:2 intercropping. The maximum
number of nodules plant-1 mungbean was observed under (T5) 2:2 intercropping. The maximum dry matter accumulation plant1
was observed under (T3) pearlmillet and mungbean was under (T5) pearlmillet: mungbean 2:2 intercropping. The maximum
diameter, length and weight of ear were observed under (T 5) pearlmillet: mungbean (2:2) intercropping. The maximum pod
length, number of pod and number of grain pod -1 were observed under (T 5) pearlmillet: mungbean (2:2), respectively in
intercropping. The maximum grain yield recorded under (T1) pearlmillet sole and under (T2) mungbean sole were significantly
higher over rest of the treatments. The maximum straw yield recorded under pearlmillet sole (T 1) and under (T2) mungbean sole
were significantly superior over rest of the treatments. The maximum biological yield recorded under (T1) pearlmillet sole and
under (T 2) mungbean sole were significantly superior over rest of the treatments. The highest value of harvest index was
recorded under (T5) pearlmillet and under (T4) mungbean sole were pearlmillet: mungbean (2:2) in intercropping. The maximum
test weight was observed under (T5) pearlmillet: mungbean (2:2) in intercropping.
SCP 26
PRIORITIZATION AND OPPORTUNITIES OF CHICKPEA (CICER ARIETINUM L.)
UNDER RAINFED RICE FELLOW LANDS IN JHARKHAND
Yogesh Kumar1, S. Pande2, C.S. Mahto1, P.K. Singh3, Akhilesh Kumar4, Raju Ghosh2, Madan Mohan Singh1, Vidyapati
Vidyakar4, Pradeep Kumar1, Abhay Kumar1 and Puspa Kumari1
1
Department of Plant Breeding & Genetics, BAU, Ranchi-6, Jharkhand; 2ICRISAT, Patancheru-502324, A.P. (India);
Department of Entomology, BAU, Ranchi, Jharkhand; 4ZRS Chianki, Palamau (Jharkhand). Mailing address:
1
Department of Plant Breeding & Genetics, BAU, Ranchi-6, Jharkhand (India).
E-mail: dryogeshtiwari70@gmail.com, yogiabha2002@yahoo.com
3
Jharkhand is a predominant tribal state created in 15 November 2000 after carving 79.9 lakh ha geographical area from Bihar and
40
Sustainable Crop Production
it comes under sub-tropical region in eastern India between 22o N and 25.5o N latitude. The total population of the state is ~ 25
million and majority of the people are small and landless farmers living in rural areas. The state produces a little less than half
of its food grains requirement. The per capita food grain including pulses (13-14g) availability has been 230g against 523g of allIndia average and against 480g of minimum requirement. Rainfed rice is the main crop covering with 67.3% (1.48 million ha)
area in Jharkhand. The state is backwardness in agriculture having mono-cropping pattern of cultivation, low consumption of
fertilizers, inadequate irrigation facilities, small land holdings, low utilization of technology etc. Thus, to bring about
diversification in agricultural productivity in the State, promotion of efficient use of resources and technology, evolving new
location specific and improved varieties of farm crops deserve future attention. The state has a good rainfall, but the availability
of surface water to agriculture is not sufficient due to inadequate storage facilities. Jharkhand posted 40% growth in the food
grain production during the last five-year (2007-11) over the previous five-year (2002-06), growing from 2.28 million tones in
2002-06 to 3.20 million tones during 2007-11 period. The state comes under agro-climatic zone 7 in the country. Due to diverse
climate, soil and physiographic feature, it is divided into 3 sub agro-climatic zones i.e. sub-zone IV, V and VI. The average
rainfall of the state in the year 2008 is 1180 mm with 53 numbers of rainy days during 2010. Maximum rainfall of 82% received
between June to Sept and only 18% in winter and post monsoon. Jharkhand being an important for chickpea accounts for 1.07%
of the total chickpea area of the country and contributes 0.58% to national production (2008-09), while the total pulses accounts
for 1.75% of the country and contributes 1.93% to national production (2008-09). Pulses are being the second largest crop after rice
and occupy 18.3% of total cropped area in the state. Improved Chickpea Production Technology (ICPT) trials were conducted in
the project 22 villages of Jharkhand and provided seeds of improved cultivars, seed treatment with fungicides and Rhizobium,
fertilizer application and line sowing methods technology to the farmers. In total of 726 farmers were selected from 22 villages
of Ranchi and Palamau districts and supplied 51.8q chickpea seed to covered 84.5 ha area for conducting 871 demonstrations
during Rabi, 2010-11. About 67.2% demonstrations were found success and remaining failed due to moisture stress. After
compilation of yield data, the highest pooled average yield of chickpea was found 7.57q/ha while maximum average yield
received of 10.58q/ha. The variety KPG 59 was recorded highest yield (7.68q/ha) followed by KAK2 (7.61 q/ha) and DCP 92-3
(6.96 q/ha). Similarly, maximum pooled yield were received in KPG59 (10.64 q/ha) as compared to KAK 2 (10.62 q/ha) and
DCP92-3 (9.98 q/ha). Constraints of pulses production have been identified and there appears to have ample scope for increasing
production by expansion of area under rice fallow (1.48 m ha), substitution and pulses are less remunerative crops, encouraging
intercropping with long duration crops and extension of pulses to non-traditional areas. Productivity can be increased by genetic
upgradation, agronomic manipulation and improved management, minimizing losses due to insect/pest and disease by adoption
of IPM/INM/ICM and production of quality seeds for farmers in Jharkhand.
SCP 27
EFFECT OF GROWTH REGULATORS ON GROWTH, YIELD AND QUALITY OF
MUSTARD (BRASSICA JUNCEA L.)
Kuldeep1, Arun Kumar1 and Kapil Kumar1
Department of Plant Physiology, Chandra Shekhar Azad University of Agriculture and Technology, Kanpur-208 002 (U.P.)
India
The above trial was accomplished with ten different growth regulators treatment. The observation on plant growth were
recorded at 50, 75, 100 and at harvest stage and aimed to enhance the yield of mustard.Considering at 50 DAS, Gibberellic acid 40
ppm produced tallest plant closely followed by GA3 @ 60 ppm in comparison to control IAA 40 & 60 ppm and kinetin 15 ppm
failed to influenced significantly. GA3 40 ppm showed maximum relative growth rate (RGR) value (0.018) while lowest in
kinetin 5 ppm (RGR) (0.011). As far as biological yield/plant, is concern IAA 20 ppm obtained maximum dry matter against
control. These two treatments i.e. kinetin 10 and 15 ppm failed to accumulate significantly more biological yield than control.
Individually Kinetin 10 ppm had maximum chlorophyll content than control plant had lowest chlorophyll content values.
Similarly at 75 DAS all doses of Kinetin enhanced chlorophyll content upto maximum in comparison with control. Maximum
seed yield (4.400 g) of mustard plant was obtained through the spraying of GA3 60 ppm in comparison with control plant (3.830
g). GA3 40 ppm was statistically at par with IAA 60 ppm and GA3 60 ppm. GA3 60 ppm appreciated seed yield with 14.9 per cent
increase over control. Considering oil content in mustard seeds, kinetin 10 ppm possesses maximum oil content (33.5%) in
comparison with control. However, GA3 60 ppm, IAA 20 & IAA 60 ppm were at par with kinetin 10 ppm. It may thus, be
concluded that there were exist the possibilities of increasing seed yield and oil content of mustard (Brassica juncea L.) through
bringing about improvement in vegetative and productive growth by spraying of gibberellic acid at 60 ppm and the second best
treatment was observed at IAA 40 ppm observed.
41
Abstract
SCP 28
AN EMERGING SCENARIO OF LONG TERM CHANGES IN BALANCED DIETARY
PATTERN AND FOOD REQUIREMENT IN UTTAR PRADESH
Anil Kumar1 , B.S. Sachan2 , Jitendra Kumar 3 and M. M. Rajput4
Seed & Farm, C.S. Azad University of Agriculture And Technology, Kanpur
5
, Deptt. of Agril. Economics, C.S. Azad University of Agriculture and Technology, Kanpur
6
, Deptt. of Agril. Extension, C.S. Azad University of Agriculture and Technology, Kanpur
Economic B.N.V. College Rath Hamirpur (U.P.)
In this paper an attempt has been made to analyse the National Sample Survey (NSS) data is respect of Uttar Pradesh and to
quantify the Nutritional food Problem in the state. The NSS report of the National Sample Survey Organizations, Government
of India. The calorie and Protein content of food items consumed per consumer unit is the main source of information for this
paper. It gives per capita food consumption levels for 2009 and 2010, disaggregated by Rural and Urban areas exhibited a more
diversified food basket with significantly higher levels of per capita consumption of edible oils, milk, fruits and meat, fish and
eggs increasing urbanization and widening rural-urban disparity has reduced the consumption per head for cereals and pulses.
The consumption of cereals per head declined while consumption for fruits and vegetables, milk and eggs increased significantly.
This shift has taken place among both rural and urban consumers. The trend in rising consumption of high value commodities
has generated higher growth in demand for edible oils, Horticulture and livestock commodities. A structural shift balancing the
food production and demand.Future increase in the production of food has to be essentially achieved through increase if
productivity, as possibilities of area expansion are minimal. Thus, to meet the growing domestic needs, the average yield at the
state level is required to be improved by 66% for 48% and 77% for coarse cereals and 101% pulses over the next two decade.
Structural changes in consumption pattern, growth in the economy as well as sizeable additions to population have increased to
demand for livestock products in Uttar Pradesh in the year 2010 the domestic demand for milk at 5% G.D.P will be 16 MT in 2001
was only 162 thousand tones while domestic demand in 2001 is estimated to be 281 thousand tones while would rise to 349
thousand tones in 2010. Meat and Milk are among the most important commodities of the consumption basket as income level
increases due to high expenditive elasitcities. The consumption of edible oils has increased from 3.8 kg/capita/year in 2009 to 6.2
kg/capita/year in 2010 in rural areas and from 5.4 kg/capita/year in 2009 to 7.4 kg/capita/year in the urban areas of Uttar
Pradesh. The shift is quite, significant even in rural areas and reflects high growth in demand for edible oils soils seeds. Demand
for edible oils for 0.89 MT in 2010 is projected to grow to about 1-72 MT in 2021 to match the demand of edible oils, Uttar Pradesh
farmers may have to increase production of oilseeds from 2.8 MT in 2010 to 9 level of 5 MT by the year 2021. The significant
increase in production of cereals, the state has started paying much attention to the Horticultural crops. This has increased the
availability of Horticultural products and its consumption in both rural and urban households. The annual per capita consumption
of vegetables has increased from a level of 56 kg in 2009 to 81 kg in 2010 in Rural and from 54 kg in 2009 to 88 kg in 2010 in urban
area. More than three fold increases in consumption of fruits were observed from a level of 2.3 kg in 2009 to 10.2 kg in 2010
among the rural consumer and from a level of 3.6 kg in 2009 to 14.9 kg in 2010 in urban areas.
SCP 29
RESPONSE OF BIO FERTILIZER ON YIELD OF GREEN POD OF VEGETABLE PEA IN
BUNDELKHAND
D.P. Singh, H.G. Prakash and Ekhlaq Haider
C.S. Azad University of Agriculture & Technology, Kanpur -208002
Email: dp_singhcsa@yahoo.co.in, ikhlaq786@indiatimes.com
The field experiment was conducted during winter season of 2009-10 and 2010- 2011 in Jalaun district of Bundelkhand. The site of
the operational area for green pod of vegetable pea on farmer’s field were selected in two villages i.e. Launa and Marori. The
operational area of vegetable pea green pod production of Jalaun typically represents soil, climate and socio-economic condition
of Bundelkhand region. The moisture availability period for the crop growth in the pilot area was 122 days. The soil of
experimental site developed over alluvium and occurs ravines affected. The ravines affected area of Jalaun district belongs to
class II and III under the land capability classes and was suitable for cultivation of vegetable pea. Soils of the village having pH
8.0, organic carbon 0.21%, available phosphorus 9.5 kg/ha and available potash 255 kg/ha. Cultivar Azad Pea - 3 vegetable pea
was sown in mid of November during two years in ravine affected area of Jalaun. The recommended package of practices for
vegetable pea green pod production was followed in both the villages. The green pods of vegetable pea harvested after 70 days
of sowing.
42
Sustainable Crop Production
The application of rhizobium culture as seed inoculation gave highest yield of green pods of vegetable pea by 113.00 q/ha, while
un inoculated use of seed produced 91.00 q/ha green pods, thus, the use of rhizobium culture enhanced green pod yield by 22 q/
ha or 24% on Kawar soils.
SCP 30
EFFECT OF FERTILITY LEVELS AND BIOFERTILIZERS ON GROWTH, YIELD AND
QUALITY OF CLUSTERBEAN [CYAMOPSIS TETRAGONOLOBA (L.) TAUB]
Animesh Singh7 , N. L. Jat2, N. K. Singh1, A. K. Singh1, P. K. Singh1, Prakash Singh1* and P. K. Singh3
1
Research Scholar, Institute of Agricultural Sciences, BHU, Varanasi, 2Department of Agronomy. S. K. N. College of
Agriculture, Jobner, SKRAU, Bikaner, 3Division of Plant Pathology, IARI, New Delhi.
*
Email: prakash201288@rediffmail.com
An experiment was conducted during kharif 2008 at Agronomy farm, S.K.N. College of Agriculture, Jobner. The experiment
comprised of 10 nutrient management treatments; viz. control, Rhizobium, PSB, 50% RDF, 75% RDF, 100% RDF, 50% RDF +
Rhizobium, 50% RDF + PSB, 75% RDF + Rhizobium and 75% RDF + PSB was laid out in randomized block design with 3 replications.
The variety RGC-936 was taken as test crop.
The results revealed that application of 75% recommended dose of fertilizer with biofertilizer (Rhizobium /PSB) significantly
increased the plant height, branches per plant, dry matter accumulation, number of nodules per plant, dry weight of nodules,
chlorophyll content, pods per plant and seeds per pod. Application of chemical fertilizers (75% RDF) with biofertilizer (Rhizobium
/PSB) being at par with 100% RDF alone (20 kg N + 40 kg P2O5/ ha) significantly increased the seed, straw and gum yield over
rest of the treatments.
Application of fertility levels and biofertilizers had significant effect on protein and gum content in seed and total nitrogen and
phosphorus uptake. The maximum value of these parameters was obtained with application of 75% recommended dose of
fertilizer + Rhizobium.
Further, application of 75% RDF + Rhizobium and 75% RDF + PSB proved the best treatment combination and recorded significantly
higher net returns and B:C ratio over rest of the treatments.
SCP 31
CROP DIVERSIFICATION: A PROMISING SYSTEM FOR SUSTAINABLE
AGRICULTURE
J. M. Sutaliya1, Parvati Deewan2, Rajhans Verma3 and Vijay Singh Meena3
1
Deptt. of Agronomy, Instt. of Agril. Sciences, B.H.U., Varanasi (U.P.), 2Deptt. of Agronomy, College of Agriculture,
M.P.U.A.T, Udaipur (Raj.), 3Deptt. of Soil Sci. and Agril. Chemistry, Instt. of Agril. Sciences, B.H.U., Varanasi (U.P.)
Email: jsutaliya@gmail.com
Crop intensification and crop diversification are the budge words in agricultural scenario at the national and international level.
During the period of green revolution when there was a need of enhancing total food grain production, emphasis was given on
increasing the cropping intensity and crop productivity but in long term, this approach digressed from the principles of crop
production where the basics of crop rotation and crop sequences play an important role. Many Agriculturist findings by research
and suggest that crops or enterprises get diversified in one or other way, even without any scientific recommendations. Agriculture
and crop diversification is now almost a normal feature of stable agriculture and progressive farm management in most of the
extensive agricultural parts of the world. Therefore, in changing agricultural scenario, crop diversification is one of the ways
towards meeting challenges of food, environmental and economic security of nation and achieving the sustainable agricultural
development. Crop diversification is not only a shift from traditional and less remunerative crop to more remunerative crop but
it is a demand driven, need based situation specific and national goal seeking continuous and dynamic concept and involves
spatial, temporal, value addition and resource complementary approaches. However, crop substitution and addition of more
crops in existing cropping system has been the major approach of diversification in India. The nature of crop diversification is
has been mainly from low value coarse cereals to high value oilseeds and other food grains. Crop diversification or crop shift is
a new paradigm of sustainable agriculture.
43
Abstract
SCP 32
EFFECT OF INM ON QUANTITATIVE AND SEED QUALITY PARAMETERS IN CHILLI
(CAPSICUM ANNUUM L.)
C. P. Sachan, Vikash Kumar, Ashok Chaudhary and Sanjeev K. Singh
C. S. A. U. A. & T., Kanpur
An experiment was conducted to assess the “Effect of INM on Quantitative and Seed Quality Parameters in Chilli (Capsicum
annuum L.)” during 2010-11 at Department of Vegetable Science, Kalyanpur and Department of Seed Science & Technology,
C.S.A.U.A. & T., Kanpur for field and laboratory experiments respectively. The field experiment comprised of 14 treatment
combinations viz : (T1- Control/RDF @ 100:50:50 kg/ha, T2- RDF + FYM @ 25 t/ha, T3- RDF + vermicompost @ 5 t/ha, T4- RDF +
vermicular arbuscular mycorrhiza @ 2 kg/ha, T5- RDF + azospirillum @ 50 g/ha, T6- RDF + NAA @ 40 ppm & T7- RDF + ethereal
@ 250 ppm) involving two varieties, Azad mirch-1 & Chanchal was laid out in R.B.D. with three replications.The experimental
data were collected in three aspects viz., growth parameters (plant height(Cm), no. of branches/plant, days to 50% flowering)
yield & yield contributing parameters (no. of fruits/plant, fruit length (cm), fruit diameter (cm), no. of seeds/fruit, seed wt. &
pericarp wt. (g), fruit yield (g/plant), seed yield (g/plot), fruit yield (kg/ha), seed yield (kg/ha) and seed quality parameters
(seed germination %, root length (cm), shoot length (cm), seedling vigour index, seedling dry wt (mg).
Among different
treatments, T2 treatment was found to be superior in most of the growth parameters, yield parameters along with quality seed
parameters followed by T3 treatment. Similarly, Azad mirch-1 excelled in most of the yield contributing traits over chanchal in
most of the growth, yield and quality parameters. A distinct impact of organics, growth regulators & biofertilizers was recorded
for most of the growth, yield & seed quality parameters.
SCP 33
EFFECT OF INTEGRATED NUTRIENT MANAGEMENT ON SEED YIELD AND QUALITY
SEED PARAMETERS OF PEA (PISUM SATIVUM L.)
Ashok chaudhary, R.A. Katiyar, C.P.Sachan and Poonam Singh
C.S.A.U.A.&T., Kanpur
An experiment was carried out to assess the “Effect of Integrated Nutrient Management on Seed Yield and Quality Seed Parameters
of Pea (Pisum sativum L.)” during 2010-11 at Deptt. of Vegetable Science, Kalyanpur & Deptt. of Seed Science and Technology,
C.S.A.U.A.&T., Kanpur. The field experiment consisted of nine treatments including control viz., T1 (Control-full dose of NPK @
40:60:40 kg/ha), T2 (FYM @ 20 tonnes/ha), T3 (FYM @ 10 tonnes/ha + ½ dose NPK kg/ha), T4 (Neem cake @ 5 q/ha), T5 (Neem cake
@ 2.5 q/ha + ½ dose of NPK kg/ha), T6 (Poultry manure @ 5 tonnes/ha), T7 (Poultry manure @ 2.5 tonnes/ha + ½ dose of NPK kg/
ha), T8 (Vermicompost @ 5 tonnes/ha) and T9 (Vermicompost @ 2.5 tonnes/ha + ½ dose of NPK kg/ha), was laid out in RBD with
three replications and one cultivar (Azad Pea-3). The field observations on Counted germination/m2 area, Days to 50% flowering,
Green pod test wt (g), Plant height (cm), Seed yield (kg/plot & q/ha), Field emergence (%) and laboratory observations on Test
weight of seed (g), Volume of seed (cubic mm), Germination percentage (first count at 5th day), Germination percentage (final
count at 8th day), Shoot length (cm), Root length (cm), Total seedling length (cm), Seedling dry weight (g), Seedling vigour indexI, Seedling vigour index-II & Hiltner/Brick gravel test (%), were recorded. Among different treatments, T9 treatment, scored
2.60% more seed yield by contributing 22.52 q/ha, which was significantly superior over rest of the treatments along with
control. Similarly among different quality seed parameters T9 treatment also contributed significantly superior performance, for
all field and laboratory parameters, it was followed by T1 & T7 treatments.
SCP 34
EFFECT OF VARIOUS IRRIGATION METHODS ON “MERIGOLD” CROP
M.A. Hussain, S. Kausar* and M.Gufran
Faculty of Technology, C.S.A. University of Agri. & Tech., KANPUR
*Indian Institute of Pulses Research, KANPUR
E-mail: mohammadahmadh@yahoo.co.in
There are number of irrigation methods in which most commonly used are surface and pressure irrigation among them.
Particularly in surface irrigation methods, water is applied to the fields by gravity flow i.e. Free Flooded irrigation, Basin
44
Sustainable Crop Production
Irrigation, Furrow Irrigation, and Border Irrigation. In pressure irrigation methods i.e. sprinkler and drip irrigation, water is
conveyed from its source under high pressure through a high pressure conduit pipe system which includes main line, sub main
and lateral lines to the fields where it drips slowly on to soil through emitters or dripper which are located close to the plant.
Therefore, only the immediate root zone of the plant is wetted in drip Irrigation. Present study was carried out to observe
response of marigold crop to different irrigation methods. Irrigation and water storage efficiency was observed maximum in
drip irrigation as comparison to surface irrigation methods like border check basin and sprinkler method of irrigation. Water
saving and water used efficiency was observed maximum in drip irrigation method. Water saving efficiency in drip irrigation
method is up to 60% and also saving in cost of labour and pumping. Similarly, Merigold flowering i.e. quality of flower,
numbers of buds, height and thickness of plant and biomass of plant also was best in drip irrigation method in comparison to
other irrigation methods i.e. Border, check basin and sprinkler methods. Plants survival rates were also observed higher in Drip
irrigation method.
SCP 35
EFFECTIVE MICRO-ORGANISMS AND THEIR APPLICATION IN SUSTAINABLE
AGRICULTURE
Abuzer Amir and Brajesh Singh
Biochemical Engineering and Food Technology Department, Harcourt Butler Technological Institute, Kanpur-208002
Effective Micro-organisms were first developed by Professor Teruo Higa of the Ryukus University in Okinawa, Japan, during
many years of investigation and study which were completed in 1982. EM consists of mixed cultures of beneficial and naturallyoccurring micro-organisms that can be applied as inoculants to increase the microbial diversity of soils and plants. Research has
shown that the inoculation of EM cultures to the soil/plant ecosystem can improve soil quality, soil health, and the growth,
yield, and quality of crops. EM contains selected species of microorganisms including predominant populations of lactic acid
bacteria and yeasts, and smaller numbers of photosynthetic bacteria, actinomycetes and other types of organisms. All of these are
mutually compatible with one another and can co-exist in liquid culture. Sustainable agriculture means soil fertility and water
availability forever and crop/plant protection without damaging the environment and ecological balance. Sustainable agriculture
integrates three main goals—environmental health, economic profitability, and social and economic equity. Effective Micro
organisms are utilized in agriculture for various purposes; as important components of organic amendments and composts, as
legume inoculants for biological nitrogen fixation, as a means of suppressing insects and plant diseases to improve crop quality
and yield, and for reduction of labor. An important consideration in the application of beneficial microorganisms to soils is the
enhancement of their synergistic effects. This is difficult to accomplish if these microorganisms are applied to achieve symptomatic
therapy, as in the case of chemical fertilizers and pesticides.
SCP 36
INFLUENCE OF CHELATE DTPA ON GROWTH AND YIELD OF BARLEY PLANTS
J. Mohan and N. Mohan
Paryavaran Sodh Ekai, Department of Botany, D.A-V. College, Kanpur
Email: drnmohan@rediffmail.com
Barley (Hordium vulgare L. var. Jyoti) plants were raised in sand culture conditions with nil (0), 6.25, 25, 100 and 400 ppm levels of
DTPA along with full nutrition solutions. Effect of DTPA on growth and tissue concentration of minerals were studied. Yield of
barley plants at all the stages of growth studied showed an increase with the increase in levels of DTPA up to 25 ppm. Increase
in tissue concentration of calcium, iron, manganese were found in the range of 6.25 to 25 ppm level of DTPA. However, DTPA
decreased the nitrogen contents of plants.
45
Abstract
SCP 37
EFFECT OF INTEGRATED NUTRIENT MANAGEMENT ON BIOLOGICAL PROPERTIES
OF SOIL AND SUSTAINABLE PRODUCTION OF CONFECTIONERY GROUNDNUT
UNDER KONKAN REGION OF MAHARASHTRA
N. V. Mhaskar, J. R. Ramteke and A. T. Jadye
AICRP on Tuber Crops, CES, Wakawali, Tal: Dapoli (MS)
The large seeded confectionery groundnut is important for direct consumption in India and abroad. It is an exhaustive crop
compared to many other legumes. Integrated nutrient supply system is an established agro technique for sustaining yield level,
enhancing nutrient use efficiency and restoring soil physical, chemical and biological health of soil. Field experiments was
conducted during Rabi 2004-05 and 2005-06 at Agronomy Farm, College of Agriculture, Dapoli Dist: Ratnagiri (MS) to study the
effect of integrated nutrient management on sustainable production of confectionery groundnut and its influence on microbial
situation in soil. The experiment was laid out in Randomized block design with three replications. There were ten nutrient
treatment combinations. The pooled results revealed that dry pod, haulm and kernel yield of confectionery groundnut increased
appreciably by application of higher integration of Poultry manure (PM) + Recommended dose of fertilizer (RDF) + Effective
Microorganism (EM) + Phosphate solubilizing bacteria (PSB) + Sulphur (S) + Calcium (Ca) and thus recorded the significantly the
highest values of these parameters 81.26, 75.83 and 60.35 q ha -1, respectively. The magnitude of increase in dry pod yield, haulm
yield and kernel yield by 54.96, 45.69 and 57.94 per cent, respectively over control. The biofertilizers in combinations with RDF
recorded significantly higher number of bacteria 47.67 and 41.33 in respective years in soil. PM alone and its integrated
combinations with EM + PSB, S and Ca recorded numerically higher number of fungi compared to RDF alone and its integrated
combinations. PM integration with biofertilizers showed higher (4.0 during 2004-05 and 3.67 during 2005-06) diversity of fungi
which was significantly more over similar integrated combination with RDF in both the years. Organic manures (PM) along
with EM+PSB caused numerically higher count of actinomycetes 6.67 during both years in soil as compared to rest of the nutrient
combinations.
SCP 38
GOLDEN RICE
Soujanya Pasumarthi
K L university AP
Email : soujanyabiotechklu@gmail.com
This mini project on GOLDEN RICE give us an information on the definition,inventors of Golden Rice and the role of Vitamin
–A in humans and its importance and also the mechanism of beta carotene pathway , shows how it is combating to Vitamin A
Deficiency(VAD) and the subsequent development of Golden rice strains and its importance in the world. Golden Rice has many
advantages and disadvantages and those prons and cons with the opposition gives us an impact of its application to human
organisms.Golden Rice is thus shows the beginning of Genetically modified foods.Finally, this project shows the perseverance
and dedication of Ingo Potrykus and Peter Beyer for combating VAD
SCP 39
SUSTAINABLE AGREECULTURAL DEVELOPMENT AND USE OF NATURAL
RESOURCES: PAST EXPERIEANCES AND FUTURE PRESPECTIVES
Neha Bharti, , SITM, Lucknow
Shakuntla Sangam, BBAU, Lucknow
E-mail: shakun.rmlnlu@gmail.com
Agriculture is not a natural process it is an invention of human that is basis of modern civilization. Sustainable agriculture is the
practice of farming using principles of ecology, and relationships between organisms and their environment. Means “an
integrated system of plant and animal production, practices having a site-specific application that will last over the long term to
satisfy food, enhance environmental quality and enhance the quality of life through most efficient use of natural resources, that
plays a critical role in agriculture and in the life of farmers which are depend on these resources, such as land, water and energy.
Advanced seeds and improved farming techniques that make the most efficient use of these essential resources can help agriculture,
46
Sustainable Crop Production
around the world. But due to intensive agriculture, continuous cultivation of a selected number of high yielding and economically
profitable crops often results in narrowing of genetic biodiversity, this occurs through replacement of organic manures by
inorganic fertilizers. Inherent fertility of soil is seriously imbalanced due to our sole dependence on chemical fertilizers and
technology. However Genetically Modified(GM) crops are being successfully protected in a number of commercial species but
use of GM crops is difficult to weigh the benefits and risks, because prime object to modify these seed was to create greater
tolerance against herbicides and stronger resistance to insects, not for higher yield. In order to maintain the long term ecological
and biological integrity of sustainable agriculture can be achieved only through natural resources.
SCP 40
PREDICTION OF WATER AND NITROGEN USE EFFICIENCIES IN WHEAT UNDER
LIMITED WATER AVAILABILITY
M. A. Sarath, U. K. Chopra, A. K. Jain, S. Pradhan, I. Chand & S. Jain
Division of Agricultural Physics, IARI, New Delh
E-mail sarathagri@gmail.com
Two years field study was conducted to quantify and predict the influences of water stress and nitrogen stress on the water and
nitrogen use efficiencies of wheat and the associated reductions in the yield. Three levels of water stress and three levels of N
stress along with a non-stressed control were created in the field where wheat was grown during rabi season of 2009-10 and 201011 and the relevant data were collected to compute WUE and NUE under the combined effects of the two stresses. The stresses
were quantified in terms of water stress factor (SFW) and nitrogen stress factor (SFN). Predictive equations for percent decrease
in yield, percent decrease in WUE and percent decrease in NUE as functions of SFW and SFN were developed using the first year
data. The validation of these prediction equations were carried out using the second year data, which showed a very good
accuracy of prediction for yield and WUE equations. However, the prediction accuracy for NUE was not as high as in the other
cases. The interactive effects of the two stresses were also quantified. Predictive equations were also developed to quantify the
impact of one stress factor at a given level of the other stress factor for WUE, NUE and yield of wheat. The results indicated that
the reduction in water by 18% can be applied without significantly decreasing the yield, but increasing WUE by 16% and NUE by
6%. A software program “WUE Predictor” was developed to predict WUE under water stress conditions. The procedure
incorporated in the software was based on modified Penman-Monteith equation for estimating AET and harvest index (HI) for
estimating grain yield. The model over predicted the values of WUE under water stressed condition, therefore, needs further
refinements.
SCP 41
THE EFFECT OF BIOFERTILIZERS ON THE AVAILABILITY OF ZINC AND SULPHUR
IN RICE CROP
C.P. Sharma1,Gyanendra1 ,R.K. Pathak1 & Sanjeev Kumar2
1
Deptt. Of Microbiology,2Deptt. Of Agronomy, C.S.Azad University of Agriculture & Technology, Kanpur 208002, U.P, India,
Email: gyan1989csa@gmail.com
A field experiment was conduct on fertilizer research station Pura, Kanpur in the year 2010 to see the effect of biofertilizer (BGA
& PSB) on zinc & sulphur availability with different level of nitrogen in rice crop, the study also include to see the residual effect
of biofertilizer on rabi season crop chickpea. The data of results indicated that inoculation of BGA, Azotobacter with different
levels of nitrogen (0, 90, 120 Kg/h), zinc (0, 10, 20 Kg/h) and sulphur (0,20,40 Kg/h) increased significantly grain yield of rice &
chickpea in comparision to uninoculated control. The maximum grain yield of Rice (40.88 Q/h) & chickpea (17.06 Q/h) were
obtained with combined inoculation of BGA+PSB+Azotobacter being significantly superior to control as well as single inoculation
of BGA, BGA+Azotobacter & BGA+PSB.
47
Abstract
SCP 42
AGRO – RESIDUE WASTE MANAGEMENT THROUGH VERMICOMPOSTING BY
EPIGEICWORM (EISENIAFOETIDA)
Aparna Yadav , Ashok. K. Agarwal
Dept. of Biological Science M.G.C.G.V Chitrakoot, Satna
In India about 700 millions tones of organic wastes are mainly composed of farm residues and waste of rural and urban
origin. This waste biomass comes from agriculture urban and industrial sources and of domestic waste.Utilization of these
material for the productivity process is important for both economical and environmental reasons.In the present study
an effort was made to assess the efficacy of Eiseniafoetida), utilizing organic waste (agro-residue).These selected waste
material were mixed with cowdung (4:1ratio w/w) separately for understanding physical and biochemical activity,
occurring during the 75 days of composting period. chemical analysis of agro-residue waste used vermicompost sample
collected 0 day ,15 ,45 ,75 day.Clearly indicated potential of earthworm biotechnology in reduction in the biomass of
waste and nutrient enrichment material. during vermicomposting process,biochemical changes occur in the organic
substrate with increasing period of waste management. PH, organic carbon, organic matter and C:N ratio revealed
negative trend.However N ,P ,K content increased in positive trend in vermicomposting period. Thus it can be concluded
that earthworm biotechnology is the one more economic ,ecofriendly waste management technology and resulting in the
bioconversion from waste to wealth.
SCP 43
EFFECT OF DEVELOPMENTAL STAGE AND PLANT SPACING ON ARTEMISININ AND
ESSENTIAL OIL YIELD IN ARTEMISIA ANNUA PLANTS
SUGANDHA TIWARI
Department of Botany, D.G College, C.S.J.M. University, Kanpur, India.
E-Mail: sugandhatiwari7@gmail.com
The study was undertaken to assess the effect of plant density and plant age on artemisinin content in antimalarial plant A. annua.
Treatment consisted of five planting densities (12500, 20825, 41650, 62500 and 83300 plants/ hectare) with four replicates.
Observations were taken for plant height and artemisinin content in the months of June (180 days old plants), July (210 days old
plants) and August (240 days old plants) when the plants were in vegetative stage. Maximum artemisinin content was recorded
in the samples harvested in the month of July (210 days old plants ) which later declined in the samples harvested in the month
of August (240 days old plants) in all the planting densities tested. Maximum artemisinin content was recorded in planting
density of 41,650 plants per hectare with plant to plant spacing of 50 cm X 30 cm. Essential oil was estimated in 210 days old plants
in the month of July. Highest essential oil yield was obtained in the planting density of 20,825 plants per hectare with plant to
plant spacing of 50cm X 80cm.
48
Post Harvest Technology
POST HARVEST TECHNOLOGY
PHT 01
PARTICIPATION AND INFLUENCE OF WOMEN AND MEN IN PULSES PRODUCTION
AND PROCESSING IN BANDA DISTRICT OF BUNDELKHAND REGION
Rajesh Kumar, S. K. Singh, Purushottam and Uma Sah
Agricultural Extension Section Indian Institute of Pulses Research, Kanpur
Email: rkm_13t@yahoo.com
Agriculture is the main occupation of the farmers of Bundelkhand region. It comprises of including 13 district of Uttar Pradesh
and Madhya Pradesh. The pulses are the major source of income and employment. The male and female both are engaged in the
pulses cultivation. There are some areas where specifically women participate like preparation of seed, sowing, weeding,
storing etc. Researchers are developing technologies suitable for the men. Seldom,they pay attention to the need of women.
Keeping in view the above facts a study was conducted in Tenduwari and Kamasin blocks of Banda district of Bundelkhand
among the150 (75 men and 75women) to ascertain role of women in different activities of pulses production, decision making,
drudgery perceived in work performance and sources of information. It was revealed by the study that small and marginal
category farmers (men & women) were participating in the pulse production activities whereas women were not participating
in the outside activities of pulse production which belonged to large farmer’s category. It was observed from the study that small
and medium category farmers were predominantly participating in land preparation, spray of insecticide, threshing and storage
from field to home whereas women participation was more in the sowing of seed (80%), harvesting of crop, plucking of matured
pods, winnowing, storage in bin, making dal. In case of large farmers, women were actively participating in indoor activities
and lesser in outdoor door activities. Further study revealed the women were involved in most of the decisions but due to lack
of knowledge they did not have say. Men perceived very high drudgery in carrying of compost, intercultural operations,
harvesting, winnowing and women perceived very high level drudgery in intercultural operations, harvesting, plucking,
winnowing and threshing of pigeonpea plants. They get injury in hands, finger, legs, eyes and get pain in backache, headache,
vomiting, etc. The most important sources of information are block development office, Deputy Director Office (Agriculture),
IIPR and private seed traders. Farmers were also getting information from radio, doordarshan, farmer’s fairs related to pulse
production. The women reported that they get information from the husband and neighboring women farmer related to pulse
production and processing.
PHT 02
TRADITIONAL SEED TECHNOLOGY IN THE TERAI REGION OF U.P., INDIA
H. P. Pandey
Department of Botany, ISD College, University of Allahabad, Allahabad – 211004 India
E mail: hp.pandey.bps@gmail.com
Agriculture is the backbone of food security; it is the embodiment of culture, heritage, ideas and knowledge of the people which
represent accumulation of philosophy, science, tradition and state of arts of any society. Since the agriculture is oldest occupation
of mankind, which brought about revolutionary rather than evolutionary changes in human civilization, it is therefore, living
testimony of farmer’s scientific understanding about the plants and agro climatic conditions in which they grow. Some of the
seed storage practiced among rural and tribal farmers of Terai region, district Gonda, Balrampur and adjoining regions of U.P.,
India, including sand mixing, ash mixing, dung mixing, clay mixing, bunch method, loft method, clay bin method and mixing
of herbal method.
PHT 03
EVALUATION OF STORAGE STRUCTURES AND PEST MANAGEMENT TECHNIQUES
OF PULSES IN ODISHA WITH GENDER CONCERN
S.K. Srivastava, B.N.Sadangi and B.C.Behera
Directorate of Research on Women in Agriculture, Bhubaneswar, Odisha - 751 003
Email: santoshkumarshrivastava60@yahoo.com
The state of Odisha, bestowed with rich natural endowments characterized by high humidity and medium to high rainfall, which
49
Abstract
play a favourable role for the multiplication of insect pests during the storage of pulses, which compel to retailer/shopkeeper
for the use of pesticides during storage. There is a rising public concerns about food safety throughout all aspects of day to day
living. Use of plant products for storage pest management has been well documented in ancient Hindu literature. Plant products
are widely used even today because they are culturally and geographically acceptable, accessible and affordable as well as free
from any side effects. In the changing climatic scenario, people’s ancient wisdom in pest management has assumed greater
significance, since there are various reports of pesticide contamination in the food chain. This is the right time to rediscover our
past heritage of sustainable agriculture and blend it with the current agriculture for planned growth and sustainable development
of agriculture in the country. Role of farmwomen in pest management is perhaps to an even greater degree than other areas of
development demands attention to crosscutting and cross-sectoral issues because high levels of pesticide poisoning among
resource poor farmers, especially women, are often reported to be linked to low levels of technology transfer among them.
Women are active at every point in the food chain and are often responsible for protecting the integrity and safety of food.
Therefore, different structure for storage of pulses like gunny bag, earthen pot (mati handi/mathia), double plastic bag (jari akha)
with different storage pest management techniques viz., mixing of mustard oil @5ml / kg, neem leaves @ 4gm/kg and dry chilli
@10gm/kg etc. were evaluated at Kantamalim village of Begunia block in Khurda district of Odisha with the participation of
farm women. Farm women were called upon for the demonstration along with their produce of pulses particularly red gram and
black gram. Storage structures and other related alternatives were provided to them. Results and perception of farm women
were recorded with the employment of Village Para Extension Workers (VPEW) at village level. Storage in double jari akha was
most preferred storage structure by the farm women of Odisha followed by earthen pot and gunny bag. Farmwomen observed
maximum loss of pulses when stored in moist condition in the earthen matka even after the treatment with mustard oil.
Research findings and the perception of farm women of Odisha have been discussed in detail for the benefit of researchers and
policy makers.
PHT 04
AN EVALUATION OF BIOCHEMICAL CONSTITUENTS AS AN INDEX FOR BRUCHID
RESISTANCE IN RICEBEAN (VIGNA ACULATES)
Pavithravani, B.V1, Rame Gowda1, K. Bhanuprakash4, C.K., Pramila1, C.Gireesh5, S. Subramanya2 and M. ByreGowda3
1 Department of Seed Science and Technology, 2 Post harvest technology, 3 AICRP on Pigeonpea, University of Agricultural
Sciences, Bangalore, India,
4 Seed Technology unit, IIHR, Hesaraghatta, Bangalore & 5Department of Genetics and Plant Breeding, IARI, New Delhi,
India.
Email: pavisst@gmail.com
Post-harvest damage to the pulses caused by bean weevil or bruchid, is quite extensive and is considered as most devastating
storage pest in India. The control of bruchid by insecticides is not always practical to farmers because of their toxicity and
primitive nature of seed storage facilities. Therefore, there is a need to identify the resistance factor especially the chemical
constitutes like seed protein or specific enzyme that is associated with bruchid resistance. In the present study one hundred
ricebean accessions were screened for relative resistance to bruchid (Callosobruchus aculates) by bruchid bioassay technique,
where the percentage of damaged seeds ranged from 5 (LRB238) – 75 (LRB26). Twelve ricebean accessions with varying levels of
bruchid resistance were selected to study the biochemical basis of resistance. Tannic acid and Polyphenol content was higher in
the seed coat (15.01 and 39.95 mg/g, respectively) than in cotyledons (2.78 and 2.79 mg/g, respectively) irrespective of ricebean
accessions. However, highest tannic acid and polyphenol content was noticed in the seed coats of bruchid resistant accession
LRB168 (17.36 and 51.25 mg/g, respectively). Highly bruchid resistant accession LRB238, exhibited highest peroxidase (11.42 U/
min/mg protein) and polyphenoloxidase (3.34 U/min/mg protein) while, JP100304, a bruchid resistant accession revealed
highest amylase inhibitory activity (33.40 %) followed by LRB238 (22.28 %) against bruchid susceptible accession LRB26 (3.61 %).
Further, protein and isozyme profile also displayed significant variation in the banding pattern between the bruchid resistant
and susceptible accessions. Thus the present study emphasizes the availability of reistance genes which can be used in the
conventional and molecular breeding programmes/ approaches to evolve bruchid resistant cultivars of ricebean .
PHT 05
INFLUENCE OF SEED MOISTURE CONTENT AND PACKAGING MATERIALS ON SEED
QUALITY DURING STORAGE OF HYBRID RICE KRH-2 (ORYZA SATIVA L.)
1
H.V. Divya, 2R. Siddaraju, 1C. K. Pramila, 2Narayana Swamy, 1S. Ramegowda, 2G. T. Thirumalaraju and 2J. Shantala.
1
Department of Seed Science and Tech., College of Agriculture,
Seed Technology Research Centre, NSP, UAS, GKVK, Bangalore
Email: hvdivya28@gmail.com
2
Storage of seeds till the next sowing is an essential segment of the seed industry. The present study was conducted to know the
50
Post Harvest Technology
effect of moisture and packaging materials on seed quality and longevity of hybrid rice KRH-2 during storage for a period of
eight months. Moisture content in freshly harvested seeds was brought to two levels (10% and 12%) and stored in four different
packaging materials (Cloth bag, Polylined cloth bag, Super bag and Tyvek bag). Among moisture levels, seeds stored at 10 per
cent recorded the highest germination (76.0%), vigour index based on mean seedling length (2287), field emergence (61.75%) and
less insect infestation (23.15%) was found at eighth month of storage. Among packaging materials, super bag recorded highest
germination (92.97%), vigour index based on seedling length (2754,) field emergence (77.71%) and less insect infestation (7.63%)
over other packaging materials. It could be concluded that the hybrid paddy KRH-2 can be stored at 10 per cent seed moisture
level in super grain bag for better seed quality upto eight months of storage.
PHT 06
INFLUENCE OF SEED MOISTURE CONTENT AND SEED TREATMENT CHEMICALS
ON SEED QUALITY DURING STORAGE OF HYBRID RICE KRH-2 ( ORYZA
SATIVA L.)
Divya, H.V., Siddaraju, R., Pramila, C.K. Narayana Swamy, S., Ramegowda, Thirumalaraju, G.T. and Shantala, J.
E-mail ID- hvdivya28@gmail.com
1
Department of Seed Science and Tech., College of Agriculture,2 Seed Technology Research Centre, NSP, UAS, GKVK,
Bangalore
Seed quality is a multiple concept comprising several physical, chemical and biological components. The present study was
conducted to know the effect of seed moisture content and chemical seed treatment on seed quality and longevity of hybrid rice
KRH-2 during storage for a period of eighth months. Freshly harvested seeds were brought into two moisture levels viz., 10 and
12 per cent and treated with insecticide (Sevin @ 2g/kg of seed) and fungicides (Thiram @ 2 g/kg of seed) and their combinations
Thiram + Sevin @ 2g/kg of seed. The observations on seed quality parameters were recorded bimonthly. The results revealed
that among seed moisture contents, seeds stored at 10 per cent seed moisture content recorded the highest germination (76.0%),
vigour index based on mean seedling length (2287), field emergence (61.75%) and less insect infestation (23.45%) after eight
months of storage. Among chemical treatments, Thiram + Sevin @ 2g/kg of seed each recorded the maximum seed germination
(95.54%), vigour index based on seedling length (2733), field emergence (75.50%) and less insect infestation (10.63%) over other
chemical treatments at end of eighth months after storage period. Hence, the study depicted that the rice hybrid KRH-2 could be
stored safely for eight months at 10 per cent seed moisture content and seeds treated with Thiram + Sevin @ 2g/kg of seed.
PHT 07
MANAGEMENT OF ANGOUMOIS GRAIN MOTH, SITOTROGA CEREALELLA OLIVIER
IN STORED RICE BY PROTECT ANTS UNDER AMBIENT CONDITION
Devendra Kumar Yadav1, Dr.R B Singh1 ,P K Dwivedi1 , Ashutosh Kumar Srivastava2
Department of Entomology1, Department of Plant Pathology2 Narendra Deva University of Agriculture and Technology,
Kumarganj, Faizabad-224 229 (U.P.)
Paddy (Oryza sativa L.) is an important cereal of world in respect to acreage and production, which provides food for two third of
the world population. During post harvest handling, losses in food grain occurred at the tune of 9.33 per cent. In India every year
about 1.0 to 1.5 crore tones grain are lost due to improper storage. Angoumois grain moth, S. cerealella Oliv. (Gelechiidae :
Lepidoptera) is most destructive pest of stored paddy along with other cereals, such as wheat maize, sorghum, oat, barley
etc.About 10 to 29 per cent weight loss and 3 to 41 per cent germination loss by S. cerealella have been reported under various
agro-climatic zones of country. Keeping in view the present investigation entitled “Laboratory assessment of rice cultivars
against Angoumois grain moth, S. cerealella and its management under ambient condition” taken up under entomological
laboratory of Seed Technology, N.D.U.A&T, Kumarganj, Faizabad (U.P.).Among 8 tested protectants viz., neem leaf powder,
neem cake powder, wheat straw ash, paddy straw ash, cow dung cake ash, brick furnace ash, diatomaceous earth @ 10 g/kg seed
and deltamethrin 2.5 WP @ 40 mg/kg seed as check. Brick furnace ash @ 10 g/kg seed was found to be most effective to protect
the paddy grains against S. cerealella upto 180 days of storage. Besides, the neem leaf powder, neem cake powder and diatomaceous
earth @ 10 g/kg seed were also showed as effective protectants.
51
Abstract
PHT 08
EXTRACTION OF ESSENTIAL OIL AND COMPONENTS OF PLANT THROUGH
MICROWAVE - AN INNOVATIVE AND PROMISING TECHNIQUE
Saleha Ahmed
Department of Chemical Engineering, Harcourt Butler Technological Institute, Kanpur, 208002, India.
E-mail : salehakanpur@gmail.com
In recent years, the use of microwave for extraction of constituents from plant material has shown tremendous research interest
and potential. Although microwave energy has tremendous heating potential, use of microwave extraction technology have
only recently appeared in analytical laboratories Conventional techniques for the extraction of active constituents are time and
solvent consuming, thermally unsafe and the analysis of numerous constituents in plant material is limited by the extraction
step. So extraction of phyto-constituents by microwave provides a vast scope of research exploration. Some excellent review
articles dealing with the application of microwave concept to agricultural and environmental samples have already been
published and demonstrated.. There are two types of microwave assisted extraction, closed vessel and open soxhlet extraction.
The former one is far superior to the later. High and fast extraction performance ability with less solvent consumption and
protection offered to thermo labile constituents are some of the attractive features of this new promising microwave assisted
extraction (MAE) technique. Using these techniques essential oils from a variety of plant parts, viz., leaves, seed, roots, plant tops
etc., have been extracted. areThe components which are of importance and effectively extracted are Cuminum cyminum and
Zanthoxylum bungeanum, Nothapodytes foetida, Lippia alba, Macleaya cordata, Salvia miltiorrhiza , Eucommia ulmodies, Tobacco leaves,
Embelia ribes, Green tea leaves, Artemisia annua, A brief theoretical background of microwave heating and the basic principles of
using microwave energy for extraction have been presented for better understanding. Discussions on the main parameters
influencing the extraction efficiency (namely solvent nature and volume, extraction time, microwave power, matrix characteristics
and temperature) and different statistical optimization strategies are also highlighted. Finally the potential applications of this
new method with comparison of its performance to that of classical techniques are also elucidated.
PHT 09
EVALUATION OF BANANA ( MUSA PARADISIACA L.) VARIETIES FOR FLOUR
MAKING
Isha Swami & A.G. Naik
Department of Post Harvest Technology ASPEE, College of Horticulture and Forestry, Navsari Agricultural University,
Navsari-396450.
Email: ishaswami22@gmail.com
An experiment on “Evaluation of different banana [Musa paradisiacal L.] varieties for banana flour making” was carried out at
the Post Graduate and Post Harvest Laboratory, Department of Horticulture, N. M. College of Agriculture and ASPEE College
of Horticulture and Forestry, Navsari Agricultural University, Navsari during the month of January to June 2010. Keeping the
varieties V 1 (Rasthali), V 2 (Saba), V3 (Bluggoe), V 4(Rajapuri) , V 5 (Chandraballi), V 6 (Udhyam) and V 7 (Grand Naine) as treatments
in CRD with three repetitions. The nutritional value viz. titratable acidity (percent), ascorbic acid (mg/100gm), starch (percent),
T.S.S. (°Brix), total sugar (percent) was carried out. The titratable acidity of flour was found lower in Grand Naine while higher
in Bluggoe variety. While ascorbic acid significantly maximum in Udhyam while lower in Chandrabali variety. In respect to
T.S.S., starch and total sugar content, it was found maximum in Grand Naine and lowest in Saba variety. In other hand moisture
was found significantly maximum in Grand Naine while the lowest in Chandrabali variety.
PHT 10
PERFORMANCE OF ORANGE FLESHED SWEET POTATO VARIETIES UNDER
VARIETALS EVALUATION PROGRAMME IN RAINFED SITUATION UNDER
LATERITIC SOILS OF KONKAN
A. T. Jadye, N. V. Mhaskar, P. M. Haldankar and U. V. Mahadkar
AICRP on Tuber Crops, CES, Wakawali, Tal: Dapoli (MS)
In India majority of farmers cultivated tuber crops as a subsistence crop on small plots or as an intercrop. Among the tropical
tuber crops Sweet potato (Ipomoea batatas L. Lam) produces more edible energy even on marginal land than any other major food
52
Post Harvest Technology
crops. It plays an important role in economy of poor households. Sweet potatoes are grown throughout the tropics for their
edible tubers. Some cultivars having orange fleshed are rich source of â carotene which is precursor of “Vit. A” as well as
nutritionally rich. In order to identify the suitable cultivar of orange fleshed sweet potato in Konkan region, an experiment was
conducted during Kharif season for three consecutive years 2008, 2009 and 2010 at Central Experiment Station, Wakawali. The soil
of experimental field was lateritic in nature having pH 5.5 to 5.6. The experiment was laid out in randomized block design with
four replications. The pooled tuber yield of 3 consecutive years revealed that among the five cultivars of sweet potato, entry
Kamal Sundari produced the highest tuber yield of 16.93 t ha-1, which was significantly superior over rest of the entries under
study. The lowest yield was produced by Konkan Ashwini (9.60 t ha-1). As regards the marketable tuber yield, the entry Kamal
Sundari recorded the highest tuber yield of 13.71 t ha-1, which was significantly superior over rest of the entries. The average
marketable weight of 155 gm was reported by Kamal Sundari. Maximum fresh vine yield of 24.43 t ha-1 was recorded by CIPSWA–
2 which was significantly superior over 362/7 and Konkan Ashwini but at par with Kamal Sundari and SV-98. The studies regarding
comparative economics of the different entries of orange fleshed sweet potato revealed that net returns and B:C ratio was found
to be the highest in case of the entry Kamal Sundari (Rs. 92,852/- ha-1 and 1.55, respectively) followed by the entry 362/7 (Rs.
92,852/- ha-1 and 1.45, respectively).
PHT 11
SEED QUALITY AS INFLUENCED BY SEED STORAGE IN MARIGOLD
Pramila, C.K., Ramachandra, R., Pavithravani, B.V.,Thanuja, W.J., Divya, H.V And Maithreyee, M.N.
Department of Seed Science and Technology, University of Agricultural Sciences, GKVK, Bangalore- Karnataka
Email pramila.aulya@gmail.com
Present study was carried out to study the effect of seed storage on seed quality in African marigold cv. Pusa Narangi. Seeds
produced during kharif-2009 were cleaned, graded and reduced safe moisture level (<7.5%). After recording initial germination
(88.40%) and vigour (1102), stored at Department of Seed Science and Technology for 12 months under ambient conditions using
different packaging materials viz., P1 - Cloth bag; P2 - Polythene bag (700 gauge) with silica gel; P3 - polythene bag (700 gauge)
without silica gel; P4 - Air tight plastic jar with silica gel; P5 - Air tight plastic jar without silica gel. The activated silica gel (5g) in
cloth bags were kept in packaging materials along with seed (10g) as per the treatments and closed/sealed immediately to
restrict the entry of moisture. The required quantity of seeds were drawn at two months interval from each bag and subjected to
seed quality analysis. Among different packaging materials, seeds stored in polythene bag (P2) and airtight containers (P4) with
or without silica gel (P3 and P5) maintained prescribed certification standards (70.00%) upto eight months compared to cloth bag
(P1) (62.50%). At the end of storage P2 recorded slightly higher seed quality parameters viz., germination (48.83%) seedling length
(10.63 cm), seedling dry weight (0.76mg), vigour index I (508), vigour index II (36) and lower EC (0.57 dS/m) and seed infection
(42.22 %) compared to other treatments. Overall mean value of germination and vigour index of this treatment during storage
was 72.11 and 869, respectively. Thus the study can be concluded that, marigold seeds could be stored upto eight months with
silicagel in polythene bag (P2) without loss of seed germination and vigour.
53
Abstract
BIOTIC STRESS MANAGEMENT
BSM 01
BIO-CONTROL OF INSECT PEST OF PULSES
Hem Saxena
Crop Protection Division, Indian Institute of Pulses Research, Kanpur – 208 024 (U.P.)
Email : hem_saxena@yahoo.com
Bio-control has been viewed as a sound alternative to the chemical-control. During past several years, some noticeable success
of bio-control has been achieved. Bio-agents are parasites, predators and pathogens (virus, bacteria, fungi, protozoan and
entomopathogenic nematodes), which offer great scope in bio-control of insect-pests. A large number of parasites have been
reported very successful such as Campoletis chlorideae – larval parasite of Helicoverpa armigera and many more. During 2004, heavy
parasitisation of Copidosoma floridanum – a larval parasite of H. armigera was reported for the first time at IIPR, Kanpur . The most
successful predators are coccinellid beetles, reduviid bugs, pentomid bugs, carabids, araneids and formicids. A large number of
arthropods and insectivorous birds have been also reported as a successful predators of H. armigera larvae. The NPV of
Helicoverpa armigera is effectively controlling H. armigera in chickpea, pigeonpea, groundnut, sunflower, cotton, tomato and
sorghum. Bacillus thuringiensis (Bt.) is one of the earliest microbial insecticides to be commercially produced. In India, this
bacterial insecticide has been used in the management of gram pod borer H. armigera in chickpea and pigeonpea, A number of
commercial formulations of Bt are available in the market. Fungal pathogen particularly Beauveria bassiana, Metarhizium anisopliae,
Verticillium lecani and Nomuraea rileyi have been found to be promising in the control of several agricultural pests. Aspergillus
flavus and Aspergillus niger are reported from the larvae of H. armigera in pulse eco-system at IIPR, Kanpur. Both the fungus are
very effective against H. armigera. A large number of entomopathogenic nematodes were also reported on H. armigera. Recently
two new species of entomopathogenic nematodes (EPN) i.e., Steinernema masoodi and S. seemae have been reported from the larvae
of H. armigera at IIPR, Kanpur, causing upto 67% mortality of H. armigera larvae in laboratory.
BSM 02
BIO-EFFICACY OF ENTOMOPATHOGENIC NEMATODE ( STEINERNEMA
CARPOCAPSAE) AGAINST DIAMOND BACK MOTH ( PLUTELLA XYLOSTELLA)
INFESTING CABBAGE (BRASSICA OLERACEA VAR. CAPITATA)
B. S. Sunanda, A.U. Siddiqui and S. K. Sharma
Department of Nematology, Rajasthan College of Agriculture, Maharana Pratap University of Agriculture & Technology,
Udaipur-313001
Diamond back moth (DBM), Plutella xylostella (L.) (Lepidoptera : yponomeutidae) is a major pest of cabbage in India. Several biopesticides have been tested for the management of DBM in different parts of the country. Among different bio-agents so far
tested, entomopathogenic nematodes were found better over others in suppressing DBM population. The in vitro studies were
carried out to evaluate the efficacy of indigeneous entomopathogenic nematode Steinernema carpocapsae against fourth instar
larvae of diamond back moth (10 larvae/petri plate). The efficacy of Steinernema carpocapsae was tested at four dosages viz., 250,
500, 750 and 1000 IJs/ Petri plate. Each treatment was replicated four times. The results on mean per cent mortality of DBM larvae
revealed that maximum 98.5 per cent mortality was observed with 1000 IJs/petri plate after 124 hrs, followed by 88.3 per cent
after 96 hrs with 750 IJs/petriplate and 82.7 percent with 500 IJs/petriplate after 48 hrs. The mortality of insect larvae gradually
increased with an increase in the inoculum levels and period of exposure.
BSM 03
IN VITRO SCREENING OF ANTI MICROBIAL ACTIVITY OF CALOPHYLLUM
INOPHYLLUM LINN.
T.G. Nagaraja
The New College, Department of Botany, Kolhapur, Maharashtra - 416012
Email: tgnagaraja2010@gmail.com
An attempt was made to assess the anti microbial activity of Calophyllum inophyllum L. in vitro condition using acetone extract of
54
Biotic Stress Management
leaf and stem by Agar well diffusion method. Staphylococcus aureus, E.coli and Micrococcus sp., were used as test bacteria for
assessing anti-bacterial activity. The leaf and stem extract were found to possess anti bacterial properties.
BSM 04
PRODUCTION AND ANTIFUNGAL ASSAY OF RECOMBINANT ENDOCHITINASE
FROM BARLEY FOR PROTECTION OF FOOD CROPS
Pandey, RP and Singh, PK.
Department of Molecular and Cellular Engineering, Jacob School of Biotechnology and Bioengineering, Sam Higginbottom
Institute of Agriculture, Technology & Sciences, Allahabad
Email: rprakash.pandey@gmail.com
Fungal phytopathogens pose serious problems worldwide in the cultivation of economically important plants like various
crops serving as source of staple food, especially in the tropical and subtropical regions. Checking the growth of fungal
pathogens can certainly help to increase the production of food. Plants respond to fungal pathogens by producing various
pathogenesis-related (PR) proteins, such as chitinases, which restrict the spread of the pathogen in incompatible interactions and
allow for systemic acquired resistance. Present study aims to produce cost effective antifungal enzyme using methods of genetic
engineering and assay it for effective use against various fungal pathogens. Chitinase gene from Hordeum vulgare (barley) i.e.
bec gene was cloned and over-expressed in Escherichia coli using expression vectors. Sequence analysis indicated that the bec gene
consists of an open reading frame of 798 nucleotides. The recombinant bec (29kDa protein) was produced as insoluble inclusion
bodies and was released into active soluble form under alkaline pH and mild denaturing condition. The purified chitinase was
assayed against the three economically important fungal pests, Aspergillus niger, Fusarium oxysporum and Penicillum, the causative
agents of leaf wilting and damping off diseases. BEC inhibits the growth of the three fungi at 100 µg and 200 µg ml -1. Data
obtained from this study suggest that bec-coding sequence can be introduced into the genome of different crop plants to enhance
its fungal-resistance property. Study can help in development of antifungal plants as wells as mass production of antifungal
enzyme which can help the yield of food.
BSM 05
BIOEFFICACY OF COW URINE DECOCTION (CUDS) OF DIFFERENT PLANTS ON
POPULATION GROWTH OF LIPAPHIS ERYSIMI (KALTENBACH) UNDER FIELD
CONDITIONS
*Wajid Hasan and M. S. Ansari
Department of Plant Protection, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh-202002 (U.P.)
Email: entowajid@gmail.com
Bioefficacy of cow urine decoctions (CUD) on some plants viz. A. cepa, A. sativum, A. squamosa, A. indica, C. papaya, P. hysterophorus,
C. gigantea, C. citriodora @5% and neem oil (@ 0.005 & 0.003%) were evaluated against percent population growth of L. erysimi
under field conditions. Two sprays were conducted at 12 days intervals with knapsack sprayer. The number of aphids was
counted on 10 cm apical central shoot of inflorescence on five tagged plants in each replication before spray, one, three, five and
seven days after spray. The percent population growth of L. erysimi after two sprays of CUDs was lowest in neem oil 0.005% (56.2) followed by A. indica (-20.9), neem oil 0.003% (-18.6), A. squamosa (3.1), C. citriodora (8.9), P. hysterophorus (10.7), A. cepa (15.4),
A. sativum (24.4), C. papaya (27.5), C. gigantea (66.5) and highest in untreated control (76.3) in timely sown crop. While in late sown
crop it was lowest in Neem oil 0.005% (-15.1) followed by neem oil 0.003% (-14.5), A. cepa (-10), A. indica (-7.8), A. sativum (-6.7), A.
squamosa (-1.9), C. gigantea (6.2), C. papaya (7.7), C. citriodora (7.7), P. hysterophorus (7.8) and highest in untreated control (24.7). The
highest yield i.e. 1925.83 Kg./ha was recorded in plots treated with neem oil (0.005) followed with neem oil ( 0.003) 1885.00,
1825.16 Kg./ha with CUDs of A. indica, 1816.16 Kg./ha with CUDs of A. squamosa, 1782.66 Kg./ha with CUDs of A. sativum,
1742.83 Kg./ha with CUDs of A. cepa, 1742.33 Kg./ha with CUDs of C. citriodora, 1738.16 Kg./ha with CUDs of C. gigantea, 1722.50
Kg./ha with CUDs of P. hysterophorus, 1705.50 Kg./ha with CUDs of C. papaya and lowest 1654.16 Kg./ha in untreated control. The
mean pooled yield was higher in timely sown crop (1928.18 Kg./ha) and lower in late sown crop (1624.60 Kg./ha). On the basis
of percent population growth, A. indica was the best among all CUDs used.
55
Abstract
BSM 06
VARIETAL SCREENING OF EARLY MATURITY GROUP OF PIGEONPEA AGAINST
POD BORER COMPLEX
I. S. Patel, P. S. Patel, B. Panikar and Y. Ravindrababu
Centre of Excellencebfor Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (GUJARAT)
Email: dr.ispatel@gmail.com
Pigeonpea is an important crop of the North Gujarat. It is extensively cultivated in Sabarkantha, Mahesana, Banaskantha, Patan
and Kutch. This crop suffers from the attack of pod borer complex right from seedling to maturity. For the management, toxic
insecticides are used injudiciously by the farmers. As a result environmental problem have been created. To overcome of these
problems, use of resistant variety is one of the important solution. Therefore, attempt was made to screen out early maturing
variety of pigeonpea against Helicoverpa armigera and Melanagromyza obtusa. A field trial of eighteen genotypes of early maturity
group was conducted at research farm of Centre of Excellence for Research on Pulses, S. D. Agricultural University,
Sardarkrishinagar during Kharif 2009. All the genotypes were sown under randomized block design replicated twice. Plants
were spaced at the distance of 60 x 10 cm. Experimental plot was kept free from the pesticidal spray throughout the crop season.
Five plants were selected from each variety and total number of pods and damaged pods due to Helicoverpa and podfly were
counted at the time of harvesting of the pods and per cent pod damage was worked out. Results revealed that significantly lowest
pod damage was recorded in SKNP-607(1.16%) and was at par with GT-101 (1.83%). However the minimum pod fly damage was
observed in SKNP-706 (0.66%). Maximum pod borer (9.92%) and pod fly damage (5.70%) was recorded in SKNP-505 which was
significantly higher than all the tested variety. Maximum yield was obtained in genotype SKNP-615 (1708 kg/ha) as compared
to the rest of the genotypes.
BSM 07
SCREENING OF VARIOUS CULTIVARS OF COWPEA AGAINST IMPORTANT PESTS
P. S. Patel, I. S. Patel, B. Panikar and Y. Ravindrababu
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (GUJARAT)
Email: prakashars251275@gmail.com
Cowpea is one of the most important arid legume crops. It suffers from various insect pests i.e. leafhopper, whitefly and spotted
pod borer right from sowing and its damage continue up to harvesting of the crop. For the management of these pests, toxic
insecticides are used injudiciously by the farmers. As a result various environmental problems have been created. Resistant
variety is one of the important components to overcome these problems. Therefore, attempt was made to screen out different
cultivars of cowpea against leafhopper, whitefly and Maruca vitrata. Different cultivars of cowpea were sown at research farm of
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrushinagar during Kharif 2010. All the cultivars
were sown under randomized block design and replicated thrice. Experimental plot was kept free from the pesticidal spray
throughout the crop season. Five plants were selected randomly from each variety and total number of leafhoppers and whitefly
were recorded from each leaf one from top, middle and bottom region of the plant at weekly interval. Total number of pods and
damaged due to Maruca vitrata were counted at the time of harvesting from five plants in each variety and on that basis per cent
pod damage was worked out. Fourteen genotypes of cowpea were evaluated against sucking pests and pod borer. Significantly
minimum leafhopper (2.11/leaf) population was observed in the genotype GC-0723 and it was at par with GC-3 and GC-4.
Whitefly population was ranged between 1.25/leaf (GC-0723) and 3.45/leaf (GC-0502). Significantly lowest pod borer damage
was noticed in the genotype GC-0203(8.10%). The yield of cowpea varied from 895 (GC-0815) to 630 (GC-0121) Kg/ha.
BSM 08
EVALUATION OF IPM MODULE FOR MANAGEMENT OF MAJOR PESTS OF
MUNGBEAN
B. Panickar, I. S. Patel, P. S. Patel and Y. Ravindrababu
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (Gujarat)
Email: bindu.ento@gmail.com
Mungbean crop is severely affected from various insect pests right from sowing to harvesting. Among these, pod borers
considered as major damaging insect in mungbean crop. They starts damage at initiation of flowering till pod mature. Due to
56
Biotic Stress Management
continuous use of pesticides, pod borers develop resistance to insecticides and created environmental pollutions. Therefore, it is
a needed to develop the integrated pest management practices to overcome these problems. An experiment was conducted in
0.05 ha area for the comparison of pod borers in IPM module and Farmers practices at Research Farm of Centre of Excellence for
Research on Pulses, S. D. Agricultural University, Sardarkrushinagar during Kharif 2010. Observations on pod damage were
recorded at harvesting time. Yield of pigeonpea and groundnut was recorded from net plot and converted to kg/ha. At
Sardarkrushinagar, IPM modules were evaluated in comparison with farmers method. Groundnut grown as intercrop in mungbean.
Pod borer damage was recorded low in IPM module plot (13.6%) as compared to farmers method (28.4%). Yield of groundnut and
mungbean was also recorded higher in IPM plot(1090 kg/ha). Minimum cost of plant protection was also noted in IPM block. A
seed treatment trial was conducted at research farm of Centre or Excellence for Research on Pulses, S. D. Agricultural University,
Sardarkrushinagar during Kharif 2010. A total of four insecticides with their two different doses were given as a seed treatment
to cowpea seeds one day before sowing. Experiment was laid out under randomized block design with three replications. Five
plants were observed at weekly interval in each plot to record incidence of sucking insect pest starting one week after germination
till harvesting of crop. The population of leaf hopper and whitefly were recorded from three leaves one each from top, middle
& bottom region of selected plant and mean number of leaf hoppers and white fly per leaf were recorded. The thrips population
was counted from randomly selected five flowers on each tagged plant and mean number of thrips per flower was worked out.
Blanket spray for spotted pod borer was made at 50% flowering and 2 nd spray at 7 days after 1st spray.
All the seed treatments were found significantly superior over control in reducing the sucking pests in cowpea. The seed
treatment of imidacloprid 70 WS @ 5g/kg seeds (0.44/leaf) found superior in reducing the leafhopper population and it was at
par with the same treatment at 3g/kg seeds, thiomethoxam70 WS@ 5g/kg seeds and fipronil 5%SC@ 2 & 4 ml/kg seeds.
However, significantly minimum population of whitefly was noticed in thiomethoxam70 WS@ 5 g/kg seeds(0.49/leaf) and was
at par with the same treatment at 3 g/kg seeds. So far thrips population concerned the lowest population was recorded in
imidacloprid 70 WS @ 5g/kg seeds (2.96/flower) and it was statistically at par with all the treatment except control. Significantly
higher grain yield was harvested from imidacloprid 70 WS @ 5g/kg seeds(870 kg/ha) and was at par with fipronil 5%SC@ 4 ml/
kg seeds and imidacloprid 70 WS @ 3g/kg seeds.
BSM 09
A REPORT ON THE ASSOCIATION OF DORYLAIMID AND TYLENCHID NEMATODES
WITH GUAVA AND LITCHI PLANTATIONS IN SOUTH 24-PARGANAS DISTRICT,
WEST BENGAL, INDIA
Debabrata Sen
Zoological Survey of India, M – Block, New Alipore, Kolkata- 700 053
Email: dsen_nema@rediffmail.com
Periodical and random survey were made during 2004–2007 in most of the guava and litchi orchards in different subdivisions of
South 24-Parganas district, West Bengal, India having the geographical position 21 0 26¤-220 38¤ North Latitude and 87° 57¤-89°
09¤ East Longitude to observe and to explore the occurrence and association of the nematodes belonging to the orders Dorylaimida
Pearse, 1936 and Tylenchida Thorne, 1949.Guava (Psidium guajava L.) and litchi (Litchi chinensis Sonn.) are the most economically
important fruit crops in this district and are grown extensively in numerous orchards with considerable high production in West
Bengal. In the present study, total 31 species of Dorylaimida under 19 genera, 14 subfamilies, 10 families, 5 superfamilies and 2
suborders have been observed. Out of these, one genus and 11 species were found to be new to science. Again, 2 species from
India, 9 species from West Bengal and 8 species from South 24-Parganas district have been recorded for the first time. 16 species
under 9 genera, 4 subfamilies, 4 families and 2 superfamilies under the suborder Tylenchina of the order Tylenchida were met
with. Among these, one genus and 3 species have been proposed as new. 5 species from West Bengal and another 5 species from
South 24-Parganas are reported for the first time. Systematic and distribution lists of the available nemic fauna have been
provided. The present study contributes some additional and valuable information on this relatively unattended field.
BSM 10
OCCURRENCE AND DISTRIBUTION OF DORYLAIMID AND TYLENCHID NEMATODES
OF ANDAMAN AND NICOBAR ISLANDS
Viswa Venkat Gantait* and Debabrata Sen
Zoological Survey of India, M-Block, New Alipur, Kolkata-53, West Bengal
Email: v.gantait@rediffmail.com
The Andaman and Nicobar Islands comprise an actuate chain of 348 islands of varying size of an area of about 8300 sq km
57
Abstract
between lower Burma and upper Sumatra in the eastern sector of the Bay of Bengal in 6 °-14° north latitude and 90°-92° east
longitude. The islands are very much rich with faunal diversity due to moderate temperature and moisture and also equable
climate. Nematodes represent one of the most abundant and diverse groups in the animal kingdom. The soil and plant parasitic
nematodes belonging to the orders Dorylaimida and Tylenchida perform a major role in agriculture as well as in horticulture.
The predatory dorylaimids regulate microbial biomass and nitrogen mineralization in the ecosystem inhabits and has a major
role in maintaining the natural ecological balance. They also act as biological control agents. Some species are known to play as
vectors in transmitting so many soil-borne bacterial, fungal as well as viral pathogens to their host plants. Plant parasitic
dorylaimids and tylenchids have the direct effect and cause significant yield losses to agricultural and horticultural crops. All the
nematode species (54 under the order Dorylaimida and 18 under Tylenchida) recorded so far from the islands and their distribution
are being reported in the present paper.
BSM 11
EVALUATION OF PATHOGENICITY AND IN VIVO MASS PRODUCTION OF
ENTOMOPATHOGENIC NEMATODES
Rashid Pervez1 and S. S. Ali2
1
Indian Institute of Pulses Research, Kanpur - 208 024 2Indian Institute of Spices Research, Calicut (Kerala) – 673 012
Email: rashid_pervez@rediffmail.com; ss_ali@rediffmail.com
Pathogenecity of five native entomopathogenic nematodes (EPN) viz., Steinernema masoodi (Ali et al., 2005), S. seemae (Ali et al.,
2005), S. mushtaqi (Pervez et al., 2009), S. carpocapsae (Weiser,1955) Wouts, Mracek, Gerdin and Bedding, 1982) and O. amsactae (Ali
et al., 2011) were tested against final instars larvae of pod borer Helicoverpa armigera, legume pod borer, Maruca vitrata, tobacco
caterpillar, Spodoptera litura, blue butterfly, Lampides boeticus and red hairy caterpillar, Amsacta moorei in petri-dish at room
temperature. The suitability of these insects for the in vivo mass production of the infective juveniles (IJs) of above tested EPN
species were also evaluated at different temperature (20, 25, 30, 35 0C). Each EPN species against each insect tested separately
along with control (water only) and replicated ten times. EPN infected dead larvae of test insects were removed from the petri
dish and put on the White trap and kept in BOD at respective temperature for emerging IJs of EPN and harvested IJs after 15 days.
The population of EPN were counted thrice under stereoscopic binocular microscope with the help of Syracuse counting dish and
mean values were worked out. Among the five species of EPN, S. masoodi, S. mushtaqi and S. seemae were found most pathogenic
to H. armigera, S. litura and L. boeticus as it brought about cent per cent mortality within 48 h, followed by A. moorei (72 h). The
other species of EPN, viz., S. carpocapsae and O. amsactae were the least pathogenic and killed the larvae of S. litura and H. armigera
within 96 and 120 h, respectively, while, L. boeticus and A. moorei within 144 h. No mortality of insect was recorded in control. No
multiplication of tested EPN species IJs was recorded at 20 and 350 C. Very poor multiplication of all tested IJs were found from
A. moorei. Maximum number of IJs yielded at 30 0C followed by 25 0C. H. armigera was found the most suitable host for the mass
production of IJs of O. amsactae, which yielded 1.2 X 105 IJs/larva, followed by S. masoodi and S. mushtaqi (1.1 and 0. 91 X 105 IJs/
larva, respectively) at 30 0C. However, S. litura was the next best suitable alternate host, which produced O. amsactae and S. seemae
(0.75 and 0. 61 X 105 IJs/larva, respectively). L. boeticus was the least suitable host for multiplication of IJs. The present study gives
a clue for utilising a suitable EPN, its mass production potential and biological control suitability in lepidopteron insect pests
management programme.
BSM 12
TOXIC EFFECT OF NEEM INSECTICIDES ON THE FITNESS OF HELICOVERPA
ARMIGERA (HUBNER) ON CHICKPEA
M. Shafiq Ansari*, Salman Ahmad and Maher Ahmad Moriat
Department of Plant Protection, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh, India.
Email: mohdsansari@yahoo.com
Three Neem based insecticides viz Neemazal (0.5% EC), Neemix (0.25% EC) and Neemarine (0.15%EC) were evaluated for their
efficacyagainst Helicoverpa armigera (Hubner) on chickpea. Pods of chickpea were dipped in 15 ppm concentration of the above
insecticides and provided to 6th instars to feed for 24 hours. Toxic effects were studied on the next generation through the life table
method. Neem insecticides have significantly affected the life stages of H. armigera. The expectancy of life (ex) was increased in
the beginning and tended to decrease with the advancement of the age in both the treated and untreated control. It was highest
when H. armigera was treated with neem oil and the lowest in the control. The survivorship (Ix) was highest at the beginning and
gradually decreased with age in the treated and untreated control. It was prolonged to 46 days with the treatment of neem azal
compared to 42 days in control. The natality rate (mx) was reduced to 189 females/ female/ generation with neemix as compared
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Biotic Stress Management
to 517 in the control. The net reproductive rate (Ro) was lowest with the treatment of neem azal (15.28 females/ female/
generation) and highest in the control (94.18 females/female/generation). The lowest r m (0.0257 females/female/day) occurred
when H. armigera treated with neemazal and highest 0.0470 in the control. Mean length of generation was significantly prolonged
with neem azal (40.5 days) as compared to control (34.8 days). Corrected generation time (ô) was highest with the treatment of
neem azal (46.0 days) and least with the neem oil (41.0 days) while it was 41.9 days in the control. H. armigera took longer time
(11.6 days) to double its population with the treatment of neem azal than 6.4 days in control. Therefore, it was concluded that
neem based insecticides had caused a significant toxic effect on all the stages of H. armigera and may be fitted in IPM of H. armigera
on chickpea.
BSM 13
EFFECT OF NEEM-BASED INSECTICIDES ON THE FITNESS OF PIERIS BRASSICAE
(LINN.)
M. Sha?q Ansari, *Fazil Hasan and Nadeem Ahmad
Department of Plant Protection, Faculty of Agricultural Sciences Aligarh Muslim University, Aligarh-202002, India
Email: fazilento10@gmail.com
Four neem-based insecticides, Neemix® (0.25% EC @ 20 mg azadirachtin/liter), Ecozin® (3% EC @ 20 mg azadirachtin/liter),
Agroneem® (0.15% EC @ 4.8 mg azadirachtin/liter) and Neem oil® (0.25% EC azadirachtin @ 20 mg azadirachtin/liter) and a noncommercial neem leaf powder, were evaluated for oviposition deterrence, antifeedant effect to larvae and toxicity to eggs and
larvae of Pieris brassicae (Linn.) on cabbage leaves in the laboratory. The concentrations tested were within the ranges of
recommended ?eld rates. Oviposition deterrence in no-choice, two-choice and six-choice assays, was observed for all the treatments.
They exhibited signi?cant (P < 0.01) oviposition deterrence on P. brassicae when compared with a non-treated control. Cabbage
leaves treated with the neem-based insecticides were used as an egg-laying substrate. Numbers of eggs oviposited by P. brassicae
adults on treated cabbage leaves were signi?cantly lower than those treated with water, but no signi?cant differences were
detected among the neem insecticides. They also deterred feeding by Pieris larvae and exhibited signi?cant antifeedant effects.
Larvae of P. brassicae on treated leaves stopped feeding and dropped from the leaf, resulting in no or minimal damage. Direct
contact with neem-based insecticides decreased the survival of eggs. Survival of larvae fed for 9 days on leaves treated with
neem-based insecticides was reduced to 51%, 49%, 48%, 24% and 18% in the Neem oil, Neemix, Agroneem, Ecozin and neem leaf
powder treatments, respectively. Therefore, it can be concluded from the present investigations that neem-based insecticides
had oviposition deterrence, antifeedant and toxic effect on P. brassicae.
BSM 14
EVALUATION, VALIDATION AND ECONOMIC ANALYSIS OF IPM TECHNOLOGY IN
TOMATO THROUGH FARMER PARTICIPATORY APPROACH
Nutan Kushik and Vivek Sharma
The Energy and Resources Institute, New Delhi (India)
Tomato IPM module was evaluated in farmer participatory approach in Western Uttar Pradesh during 2008-09 and large scale
validation trials were conducted in 2010. The components of IPM technology consisted with soil treatment by de oiled Neem
cake @ 250 kg/ ha, seed treatment with Trichodermaviridae+ Pseudomonas florescence @ 5g/kg each, installation of yellow sticky
traps @ 30/ ha, installation of pheromone traps for monitoring and mass trapping of Helicoverpa armigera @ 20 /ha, hand
collection and destruction of fruit borer infected fruits and larvae, 2 sprays of NPV-H at 40 and 50 DAT, 3 sprays of Neem
formulation at 15, 25 and 45 DAT, one spray of Bacillus thuringiensis var. Kurstaki at 65 DAT and two spray of Beauveria bassianaat
30 and 55 DAT. 1-2 sprays of safe chemical pesticide was reduced tomato insect pest population, minimize yield losses and
increase yield. Adoption of IPM resulted reduction of chemical pesticides spray to 1-2 from 13-14 in control farm and with higher
average yield 33000 kg /ha in IPM as compared to 18500 kg/ha in control co farm.
59
Abstract
BSM 15
EFFECTS OF NEEM BASED INSECTICIDES ON THE FITNESS OF PLUTELLA
XYLOSTELLA (LINN)
Nadeem Ahmad, M. Shafiq Ansari* and Fazil Hasan
Department of Plant Protection, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh (202002)
Email: mohdsansari@yahoo.com
Three neem-based insecticides viz. Neemazal®T/S (1% Azadirachtin), Neemix® (0.25% Azadirachtin) and Neemexcel® (0.15%
Azadirachtin) were evaluated for developmental and population growth parameters, pupal weight and duration and nutritional
indices of Plutella xylostella on cauliflower leaves. The concentrations tested were 5, 10, 15 and 20ppm. The highest concentration
(20ppm) of all three neem insecticides was significantly affected the fitness parameters of P. xylostella when compared with
lowest concentration (5 and 10ppm) and control. However, these differences were not significant when compared with 15ppm
concentration of neem insecticides. Further comparisons were made within the neem insecticides and it was proved that
neemazal was the most effective among all three neem insecticides tested. Results showed that developmental time was
concentration dependent on all neem insecticides. Neemazal significantly prolonged the developmental time at higher
concentration when compared with other neem insecticides and control. Neemazal was significantly affected the biological
parameters and reduced the weight of pupa at 15 and 20ppm concentration which could be explained by reduced consumption
and utilization of food. In this way 15ppm concentration of neemazal has proven effective for the fitness of P. xylostella. Therefore,
this recommendation could be utilize in IPM program of P. xylostella on cauliflower crop ecosystem.
BSM 16
STUDY ON EFFICACY OF DIFFERENT FUNGICIDES AGAINST EARLY BLIGHT OF
POTATO CAUSED BY ALTERNARIA SOLANI.
Silberth Ch. Sangma, Abhilasha A. Lal, Awneesh Kumar Sahu, Arjune Ryngkhlem and Ramesh K. Mishra
Department of Plant Protection, Allahabad School of Agriculture, SHIATS, Allahabad-211007, Uttar Pradesh, India.
Email: awneeshsahu44@gmail.com
Epidemics of early blight, white mold, black dot, and gray mold all caused problems to varying degrees of potato production.
Early blight of potato caused by Alternaria solani is one of the important constraints in cultivation of potato and can cause
significant economic damage to the crop if not adequately controlled. Management of all these diseases requires an integrated
approach utilizing fungicides and sound agronomic practices that favor the development of a healthy crop. Foliar fungicides are
tools that can be used to help manage these diseases. An experiment was carried out during rabi 2010 at Central Research Farm,
Sam Higginbottom Institute of Agriculture Technology and Sciences, Allahabad in Randomized Block Design (RBD) with three
replications. Five fungicidal treatments (T1, T2, T3, T4, T5) were used during the investigation viz. (T1) Mancozeb (3.6 g/litre), (T2)
Copper oxychloride (2.7 g/litre), (T3) Carbendazim (3.2 g/litre), (T4) Chlorothalonil (3.6 g/litre) and (T5) Blitox (2.7 g/litre) and
Control (T0). Effect of fungicides on mean disease intensity (%) was recorded at 75, 90 and 105 Days after sowing (DAS). Early
blight intensity recorded at 75 DAS revealed that treatment T1 -Mancozeb (9.24) showed the most effective fungicidal control
against early blight, followed by T3 - Carbendazim (13.87), T5 -Blitox (14.30), T4- Chlorothalonil (14.33), T2- Copper oxychloride
(16.13) and T0- Control (19.40).Observation taken at 90 DAS showed that treatment T 1 -Mancozeb (18.93) showed the most
effective fungicidal control against early blight, followed by T 3 - Carbendazim (23.13), T 4- Chlorothalonil (24.50), T 5 -Blitox
(24.87), T2- Copper oxychloride (24.93) and T0- Control (30.05). Reading recorded at 105 Days after sowing (DAS) revealed that
treatment T1 -Mancozeb (27.70) again showed to be the most effective fungicidal control against early blight, followed by T3 Carbendazim (30.93), T2- Copper oxychloride (31.38), T4- Chlorothalonil (32.37), T5 -Blitox (32.84) and T0- Control (40.27).
BSM 17
OVIPOSITION, FEEDING AND LARVAL SURVIVAL OF PLUTELLA XYLOSTELLA (L.)
ON BRASSICA HOSTS
2
1
Nazrussalam, M. Shafiq Ansari1 and Tufail Ahmad1
Department of Plant Protection, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh-202002,
ZRS, Darisai, Barakhurshi, East Singhbhum-832304 (Jharkhand)
2
Oviposition behaviour of Plutella xylostella was studied on six varieties of cabbage (Brassica oleracea var. capitata) i.e. Diamond
Express, Hybrid-1080, F1 Deepti, Field Man, Golden Acre and Cabbage-NS-25 and three varieties of Indian mustard (B. juncea) i.e.
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Biotic Stress Management
Pusa Bold, Varuna and Pusa Bahar under choice and no-choice tests of 2007-08 and 2008-09 under protected field condition.
Female of P. xylostella significantly preferred to oviposit on cabbage as compared to Indian mustard in both choice and no-choice
tests. While, Diamond Express of cabbage was more preferred host than that of Hybrid-1080, Golden Acre, F1-Deepti and Field
Man in both choice and no-choice tests. Among the Indian mustard, Pusa Bold was more preferred over Varuna and Pusa Bahar
in both choice and no-choice tests. Feeding behaviour of P. xylostella larva was significantly/non significantly differed on
cabbage and Indian mustard. Highest leaf area consumed by the larva of P. xylostella was i.e. 15.05, 15.77 cm2 and 14.97, 15.94 cm2
and the lowest i.e. 6.21, 7.59 cm2 and 6.03, 8.83 cm2 on Diamond Express and Field Man in both choice and no-choice tests during
2007-08 and 2008-09, respectively. Diamond Express is highly preferred/susceptible variety of cabbage for P. xylostella followed
by Hybrid-1080, Cabbage-NS-25, Golden Acre, F1-Deepti and Field Man. Larval survival was found to be highest i.e. 80.58 and
82.76 percent on Diamond Express and smallest on Pusa Bahar i.e. 30.84 and 47.76 percent in 2007-08 in both choice and no-choice
tests, respectively. Whereas, insignificant difference was obtained in 2008-09. Larval survival of P. xylostella is considerably
affected by Brassica hosts at 10°, 15°, 20°, 25° and 30°C. Survival was highest on Diamond Express and the lowest on Field Man on
cabbage at all temperatures tested. Larval survival was smaller (12.88 percent) on Pusa Bahar than that of Varuna and Pusa Bold
at 10°C. Survival was higher at 20°C on cabbage and Indian mustard varieties than to other temperatures.
BSM 18
EVALUATION OF FUNGICIDES, KRESOXIM METHYL 15% AND CHLOROTHALONIL
56% AGAINST ALTERNARIA SOLANI OF POTATO
Arjune Ryngkhlem*, Sobita Simon, Ramesh Mishra and Awneesh K. Sahu
Department of Plant Protection, Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology
and Sciences, Deemed-to-be-University, Allahabad - 21107
Potato plants are attacked by several plant pathogens causing serious diseases during the growth stage, which accounts for
approximately 19% of the crop lost. Early blight of potato, caused by Alternaria solani poses a significant risk to crop productivity
in the field and to tuber quality in storage. Early blight is one of the major foliar diseases in our country. The proposed
investigation entitled “Evaluation of fungicides (Kresoxim methyl 15% and Chlorothalonil 56%) against Alternaria solani of
potato” was carried out at Central Research Farm, Department of Plant Protection, Sam Higginbottom Institute of Agriculture,
Technology and Sciences Allahabad. The crop was planted during rabi 2010 in randomized block design (RBD) with three
replication. Seven fungicidal treatments (T1, T2, T3, T4, T5, T6, T7) and control were used during the investigation viz. Treatment (T1)
Kresoxim methyl 15% + Chlorothalonil 56% @ 0.75 kg/ha , (T2) Kresoxim methyl 15% + Chlorothalonil 56% @ 1 kg/ha , (T3)
Kresoxim methyl 15% + Chlorothalonil 56% @ 2 kg/ha , (T 4) Kresoxim methyl 15% + Chlorothalonil 56% @ 4 kg/ha , (T 5)
Kresoxim methyl 15% @ 0.75 kg/ha , (T6) Kresoxim methyl 15% @ 1 kg/ha , (T 7) Chlorothalonil 56% @ 0.75 g/ha. Effect of
fungicides on mean disease intensity (%) and their corresponding yield (q/ha) was recorded at 75, 90 and 105 Days after sowing
(DAS).The experimental results from the observation taken on minimum disease intensity (%) revealed that treatment (T4)
Kresoxim methyl 15% + Chlorothalonil 56% @ 4 kg/ha, (16.46 ) showed the least disease intensity followed by (T3) Kresoxim
methyl 15% + Chlorothalonil 56% @ 2 kg/ha, (18.31) and (T2) Kresoxim methyl 15% + Chlorothalonil 56% @ 1 kg/ha (20.37).The
maximum yield (q/ha) was recorded in treatment (T4) Kresoxim methyl 15% + Chlorothalonil 56% @ 4 kg/ha (110.00 q/ha)
followed by (T 3) Kresoxim methyl 15% + Chlorothalonil 56% @ 2 kg/ha (106.67 q/ha) and (T 2) Kresoxim methyl 15% +
Chlorothalonil 56% @ 1 kg/ha (103.89 q/ha).
BSM 19
EFFICACY OF HERBICIDES FOR CONTROLLING WEEDS IN DIRECT SEEDED RICE
R.A.Yadav, Naushad Khan, R. N. Dixit and Prakash Yadav
Department of Agronomy, C.S. Azad University of Agriculture and Technology, Kanpur-208002 (UP)
A field experiment was conducted during kharif season of 2010-11 under All India Coordinated Research project on weed control
running under this university to evaluate suitable herbicides/herbicide mixtures for weed control in direct seeded rice. Thirteen
treatment consisting pyrazosulfuron (25g/ja), pretilachlor-s (750g/ha). Cyhalofop butyl (90g/ha), fenoxaprop (60g/ha), cyhalofop
butyl + almix (90+20g/ha), fenoxaprop + almix (60+20g/ha), azimsulfuron (35g/ha), bispyribac sodium (25g/ha), fenoxaprop +
ethoxysulfuron (60+15g/ha), oxyflurfen + 2, 4-D (300+500g/ha), hand weeding twice (20 and 40 days after sowing) and weedy
plots were assigned in Randomized Block Design replicated thrice. All treatments resulted significantly reduction in total
density and dry matter of weeds. Cyhalofop butyl and almix (90+20g/ha) proved most effective in arresting population (6.28/
m2) and dry matter of weeds (9.53g/m 2) which was comparable with bispyribac sodium (25g/ha). There was tremendous
reduction in grain yield of rice due to uncontrolled weeds. Grain yield under weedy condition was significantly less than all
61
Abstract
other treatments. The significantly higher yield (34.32q/ha) achieved with the application of cyhalofop butyl + almix (90g + 20g/
ha) followed by with the application of bispyribac (25g/ha) (32.21q/ha) and minimum was recoreded under weedy plot (12.50q/
ha).
BSM 20
IN VITRO ASSESSMENT OF ANTAGONISTIC ACTIVITY OF TRICHODERMA SPECIES
AGAINST FUSARIUM SOLANI CAUSING BRINJAL WILT
Enespa and S.K. Dwivedi
Department of Environmental Science, Babasaheb Bhimrao Ambedkar (A Central) University, Lucknow-226025, U. P. India.
Email: enespasingh@gmail.com
In vitro antagonistic activity of two species of Trichoderma i.e. T. Konigii and T. viride was assessed at three concentrations i.e. 25,
50 and 75% by poisoned food technique against Fusarium solani causing wilt disease in brinjal. The test bioagents were isolated
from the healthy brinjal fields. Data revealed that both the test antagonists effectively suppressed the mycelail growth of the
pathogen. In culture, the test antagonists grew faster than the pathogen and produced inhibition zones there by limiting the
growth of the pathogen. Among the bioagents, T. koningii showed the highest percentage inhibition (64.57%) followed by T.
viride (64.14%) at 75% concentration.
BSM 21
INDUCTION OF RESISTANCE AGAINST HADDA BEETLE, HENOSEPILACHNA
VIGINTIOCTOPUNCTATA FAB., IN BRINJAL THROUGH ORGANIC AMENDMENTS.
Muntaha Qamar, Masarrat Haseeb and Deepak Kumar Sharma
Department of Plant Protection, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh.
Email: masarrat_h@yahoo.co.in,
Importance of organic farming system is being slowly realized at the global level owing to the loss of natural resources viz.,
land, water and biodiversity and subsequent impact on food security, besides, production of quality produce for export as per
WTO regime. Indiscriminate use of chemical fertilizers, pesticides, weedicides etc. over four decades has adversely affected the
soil fertility, productivity and quality of the produce. To overcome these problems, the use of organic farming as alternate
practice has to be further strengthened to make agriculture more sustainable in India. In view, the present study was carried out
in the experimental field of Faculty of Agricultural Sciences, A.M.U., Aligarh, during the year 2011, to assess various eco-friendly
measures to control hadda beetle damage in brinjal. The observations were recorded at ten days interval commencing from 15th
to 75th DAT by calculating per cent leaf damage from ten randomly selected plants / plot (3 x 2.5m2) in Randomized block design
having 13 treatments with three replications. Farm Yard Manure, Biofertilizer, Poultry manure, Neem cake and Mahua cake
were used as organic sources of nutrients for the management of beetle damage in brinjal. From the study conducted, the
treatment involving the application of FYM (12.5t/ha) + Azophos (2kg/ha) + Neem cake (800kg/ha) and need based foliar
application of Neem oil 3% recorded highest (82.22%) per cent reduction of beetle infestation over NPK as inorganic form. The
highest fruit yield of (169.8 q/ha) was also noticed in the promising treatment. 154
BSM 22
STATUS OF ANTHRACNOSE DISEASE OF DOLICHOS BEAN CAUSED BY
COLLETOTRICHUM LINDEMUTHIANUM (SACC & MAGNUS) IN SOUTHERN
KARNATAKA
Manjunath, B1., Nagaraju 1, Byre Gowda2, M., Ramappa, H.K2., Veerakumar, G.N2., Pramila, C.K.2 and Pavithravani, B.V.2
1
Department of Plant Pathology, UA S, GKVK, Bangalore 560 065, Karnataka
AICRP on Pigeonpea, Zonal Agricultural Research Station, UA S, GKVK, Bangalore 560 065, Karnataka
2
Dolichos bean, Lablab purpureus L. (Sweet) is an ancient legume crop widely grown throughout the world for its vegetable or
pulse for human consumption or as animal forage or feed. Anthracnose in dolichos bean caused by Colletotrichum lindemuthianum
(Sacc. & Magnus) is the most widespread and destructive disease. The disease is prevalent in Dolichos bean growing areas of
62
Biotic Stress Management
Karnataka and is considered as a limiting biotic factor for successful cultivation. In the present study, different cultivars of
dolichos bean were used and an intensive roving survey for anthracnose of dolichos bean was carried out during kharif 2010 and
2011 in major dolichos bean growing areas of southern Karnataka to get precise information on the distribution and intensity of
the disease. The data on survey revealed that the anthracnose severity varied from locality to locality. The average disease
severity varied in various locations in different districts owing to varied agro-climatic conditions and also different cultivars
used. In Southern Karnataka, the disease severity was found more in Mysore district (45.23%) followed by Chamarajanagar
(38.12%) and Mandya (32.59%) and the least in Ramanagaram district with 23.86 per cent.
BSM 23
HOST PLANT DEPENDENT CHANGES IN FOOD UTILIZATION PATTERN AND LIFECYCLE TRAITS OF DEFOLIATING LOOPER PEST OF TEA, HYPOSIDRA TALACA
(WALKER, 1860) (LEPIDOPTERA: GEOMETRIDAE)
Anjali Km. Prasad1, Soma Das and Ananda Mukhopadhyay2
Entomology Research Unit, Department of Zoology, University of North Bengal, P.O. North Bengal University, Darjeeling
734013, West Bengal
E-mail: anjalipd10@gmail.com1; am_nbu@yahoo.co.
Hyposidra talaca has proved in recent past to be a dominating defoliating pest causing heavy damage and recurring crop loss in the
sub-Himalayan tea plantations (Camellia sinensis) of North Bengal. In many tea sub-districts, the loopers are difficult to manage
due to its constant influx from the alternate sylvan hosts such as Schiima wallichi. In view of the above warranting situation, a
thorough understanding of their nutritional requirement vis-à-vis performance on different hosts is essential for management
of this pest. Effects of natural hosts viz., C. sinensis and S. wallichi on nutritional indices and life cycle traits of the species were
reflected through a shorter development period, higher growth rate, lower maintenance cost and higher productive index in the
former host. Based on these parameters it appears that the tea leaves are better exploited and utilized by H. talaca than that of S.
wallichi. Nevertheless, as the pest species could complete its life cycle on S. wallichi, it’s survival in wild is quite possible. Under
such a situation invasion of tea by the lepidopteran species, H. talaca from forest plant source is quite a possibility
BSM 24
CHARACTERIZING AND TESTING BIOCONTROL POTENTIAL OF TWO BACILLUS
STRAINS ISOLATED FROM THE TEA DEFOLIATING PEST, ARCTORNIS
SUBMARGINATA(WALKER) (LEPIDOPTERA: LYMANTRIIDAE).
Sangita Khewa (Subba)1 and Ananda Mukhopadhyay2
Entomology Research Unit, Department of Zoology, University of North Bengal, P.O.- NBU, Dist: Darjeeling (W.B.),
Pin. No. 734 013
E-mail: sangita.khewa@yahoo.com1; am_nbu@yahoo.co.in2
Two strains of Bacillus were isolated from the diseased caterpillars of Arctornis submarginata (Walker) (Lepidoptera: Lymantriidae),
a defoliator of tea crop from Darjeeling Terai region. Biochemical characteristics of Bacillus strain Arc02 showed positive reaction
in lysine utilization, ornithin utilization, Citrate utilization, malonate utilization, esculin hydrolysis, rhamnose, cellobiose,
raffinose and glucose utilization while Arc03 strain showed positive reaction in nitrate reduction, H2S production, V-P test,
esculin hydrolysis and utilization of citrate, saccharose, trehalose and glucose. Studies on SDS-PAGE of crystal protein of of Arc
02 showed four major protein bands with the molecular weights 117.32 kDa, 75.14 kDa ,55.97 kDa and 39.15 kDa, while the profile
of four protein bands of Arc03 showed 122.7 kDa, 85.8 kDa, 50.3 kDa and 46.84 kDa bands. The LC50 value was of Arc02 was found
to be 796.22µg/ml compared to 342µg/ml as the LC50 value of Arc03. Based on LC50 value the latter strain (Arc03) apprears to be
more toxic with a higher biocontrol potential as a microbial pesticide against A.submarginata.
63
Abstract
BSM 25
NATURAL (TEA) AND SEMI-SYNTHETIC DIET-BASED REARING OF THE
DEFOLIATING LOOPER PEST, HYPOSIDRA TALACA : ITS UTILITY IN PEST
MANAGEMENT
Ananda Mukhopadhyay1 and Anjali Km. Prasad2
Entomology Research Unit, Department of Zoology, University of North Bengal, P.O. North Bengal University,
Darjeeling 734013, West Bengal,
E-mail: am_nbu@yahoo.co.in1; anjalipd10@gmail.com2
Natural diet based on leaves of host plant may be a classical approach for mass rearing of a folivore species but with some
disadvantages. The availability, quality and sterility (disease free) may not ensure in natural diet. So, artificial diet based rearing
of a pest is one of the pre-requisites for undertaking various studies such as testing virulence of microbials, synthetic insecticides
and mass production of bioagents. In North East India, the Terai- Dooars tea plantation at the foothills of Darjeeling is severely
infested by looper caterpillars of Hyposidra talaca Walker (Lepidoptera: Geometridae). The life- cycle traits of H. talaca were
studied on a newly formulated artificial diet as well as on natural diet (tea leaf). H. talaca showed good performance on artificial
diet with better survivability, higher fecundity, increased adult emergence and shorter developmental period (egg to adult)
when compared to that on tea leaves. Food consumption and utilization study of the 5 th instar larva showed low maintenance
cost (MC) and high production index (PI) on the artificial diet than that on tea-leaf diet. The present study reveals that the newly
formulated artificial diet is adequate for rearing and maintaining laboratory-based culture of H. talaca.
BSM 26
RESISTANT SOURCES AGAINST FUSARIUM WILT IN CHICKPEA GROWN UNDER
NORMAL AND HEAT STRESS ENVIRONMENT
Anita Babbar, Rashmi Thakur, Shailendra Singh Yadav, Vijay Prakash and Suneeta Pandey
Department of Plant Breeding and Genetics, JNKVV, Jabalpur 482004
Chickpea is the world’s third most important food legume. MP, UP, Maharashtra and Rajasthan are the major chickpea growing
states in India sharing 85% area. It is an important post rainy season crop of MP, produces the major share 40% with 1072 kg/ha
productivity. The major constraints of successful cultivation of chickpea is the soil born disease. Wilt caused by Fusarium
oxysporium f. sp. ciceri, occurs in seedling to flowering/podding stage. High temperature at the time of pod/seed developing
stage also affect the yield, size of the seed, duration and reaction to the diseases. Therefore, the best and most effective option is
to search the sources of host plant resistant in the management of this disease. Considering this fact, 80 genotypes including, 69
desi and 11 kabuli were screened for vascular wilt in the field grown under normal and late (heat stress) environments during
2010-11 at JNKVV, Jabalpur. The reaction of tested genotypes against Fusarium wilt disease was recorded on 1-9 scale. Sixty and
fifty three genotypes found resistant to wilt in normal planting and in late planting, respectively. The promising high yielding,
wilt resistant entries were ICC14402, ICCV06301, ICC16216 ,ICCV07105, ICC8474 ICCV07109, ICC4958 in heat stress environment
whereas, ICCV07105, ICC15888, JG16, ICCV07118, ICC1483, JAKI9218, ICC148, ICC4958 in normal planting. The two high
yielding lines viz., ICC4958 and ICCV07105 showed consistent resistant reaction to wilt in both environments. These entries can
be utilized in the breeding programme under heat stress environment as a resistant source of Fusarium wilt.
BSM 27
FORMULATION OF BIOCONTROL AGENTS FOR PREVENTION OF CONTAMINATION
IN FOOD CROPS BY PHYTOPATHOGENIC FUNGI
Mahboob Ahmad1, Malik M. Ahmad2, Rifat Hamid1, M. Z. Abdin2 and Saleem Javed1
1
Molecular Biology and Biotechnology Lab, Dept. of Biochemistry, Jamia Hamdard, New Delhi-110062, 2Centre for
Transgenic Plant Development, Dept. of Biotechnology, Jamia Hamdard, New Delhi-110062
Email: saleemjaved70@yahoo.co.in
The mould contamination of foods/feeds, particularly with mycotoxin-producing fungi is a cosmopolitan problem. However,
in the developing countries like India, where pre-and post-harvest conditions are favorable for fungal growth and mycotoxin
64
Biotic Stress Management
production, much of the population relies on farming or on unregulated local markets. Approximately 25% of the world crops
are affected by mycotoxins annually, causing tremendous yield and economic losses. Current agricultural practices emphasizes
on environmental sustainability by limiting the use of chemical fertilizer and pesticides. In that course, soil bio-amendments
offer promising alternatives in minimizing the deleterious effects of chemical fertilizers besides doing their regular job.
Encapsulation of living cells in polymeric gel is a well established technology in a broad and increasing range of different
applications. The gel-like matrix allows the cells to remain viable and with its catalytic ability for longer duration against
phytopathogenic fungus.
The main objective of this study was to isolate the potential antagonistic microbes against pathogenic fungus and to immobilize
them as biocontrol agent within the alginate beads. A soil bacterium was isolated from rhizospheric area of peanut plant which
showed antifungal activity against the Aspergillus flavus species. Molecular characterization confirmed the identity of bacterium
as Stenotrophomonas maltophilia isolate SJ602 while chitinase production assay affirmed the antifungal activity. Therefore, a
method of batch fermentation of immobilized bacterial cells was developed to enhance its secretion and to increase the bacterial
shelf-life. Optimization of conditions suggested the alginate concentration of 4% at a pH range of 6.0-7.0 and temperature of 37
0
C are the best for achieving maximum antagonistic activity of immobilized cells. Amendment of alginate with 5% skimmed
milk powder added greater stability, and also maintained the viability of bacterial cells inside the entrapped alginate beads.
Thus, the alginate encapsulation resulted as nutrient source for maintaining the critical biomass with enhanced stability during
long term storage at ambient temperature for providing a longer shelf-life.
BSM 28
EVALUATION OF NEEM BASED FORMULATIONS AGAINST BUD FLY, (DASYNEURA
LINI BARNES) IN LINSEED
R. K. Pal, K. Shanker and K. Dwivedi
Department of Entomology, C. S. Azad University of Agriculture and Technology, Kanpur- 208002 (Uttar Pradesh), India
Email: rpal09@rediffmail.com
Experiment on neem based formulations viz., Neem leaf extract @ 2 and 5 %, Neem seed kernel extract @ 2 and 5 %, Neem seed
extract @ 2 and 5 %, Neem seed coat extract @ 2 and 5 % along with commercial neem formulation, Nimbicidine @ 0.5 % was
carried out to test the efficacy of these botanicals against bud fly on linseed cv. Neelum. Results revealed that Nimbicidine @ 0.5
% and Neem seed extract @ 5 % gave significant lowest incidence of bud fly i.e. 13.8, 18.2 per cent followed by higher per cent
reduction 72.5 and 63.7, respectively over control. The highest yield (1176.2 kg/ha) was obtained in Nimbicidine @ 0.5 % treated
plots followed by Neem seed extract @ 5 % (1080.8 kg/ ha)
BSM 29
ROLE OF ORGANIC AMENDMENTS IN CUCURBIT CROPS FOR MANAGEMENT OF
ROOT KNOT NEMATODE
Kusum Dwivedi, Kripa shanker and R.K. Pal
Department of Entomology,C.S.A.University of Agriculture and Technology, Kanpur, U.P.
E mail: k1dwivedi@yahoo.com
During survey of vegetable crops it has been observed that root knot nematode, Meloidogyne incognita and M. javanica adversely
affect the cultivation of cucurbit crops in fields. To manage the nematode problem in a safer way, an experiment was conducted
in Kharif 2010 with bittergourd. Five treatments i.e., Neem cake@ 30g/plant, castor cake@30g/plant, Jatropha cake @30g/plant,
cabofuran(3G)@ 10g/plant ( treated check) and untreated control were applied. Organic amendments were applied 10 days prior
to sowing and carbofuran at the time of sowing. Experiment results revealed that all the treatments improved the germination
%, reduced the root knot index and increased the yield. Neem cake @30g/plant was best in all respect for germination(93.2%),
reducing root knot index(2.5) increasing yield(100.2q/ha) and ICBR was 1:3.7
65
Abstract
BSM 30
REACTION OF COTTON GERMPLASMS/CULTURES UNDER ARTIFICIAL
EPIPHYTOTIC CONDITIONS OF INOCULATION AGAINST ALTERNARIA ALTERNATA
(FRIES), KEISSLER
Parul Trivedi (Mishra)
Deptt. of Botany, D.G..P.G College, Kanpur
Fifteen germplasm/cultures, of cotton were screened under artificial conditions of inoculation for their reaction to pathogen
during kharif season. For this study, the seeds of different cultures were used. The disease intensity was recorded and it was
found that maximum disease intensity of 28.73 % was observed in PRT-45 followed by 28.35 % in LD-380 and 24.57% in khandwa2 while minim. 23.49% was recorded in PRT-10.
BSM 31
TARGETING INFLAMMATORY PATHWAYS BY BACOPA MONNIERI LEAF EXTRACT
FOR PREVENTION AND TREATMENT OF CANCER
Chhaya Pandey1*, Prakash Tiwari1 and Rashmi Arnold2
1. School of Environmental Biology, A.P.S.U. Rewa - 486003, (M.P.) India. 2. Department of Botany, Govt. Model Sc. College,
Rewa - 486001, (M.P.) India.
Email: pandey.chhaya589@gmail.com
Bacopa monnieri L. Penn. commonly known as “Brahmi” is an important medicinal herb of the family Scrophulariaceae. It is the
foremost brain tonic herb of the Indian System of Medicine and other traditional systems, used primarily as a nerve tonic, to treat
insomnia and nervous tension. Recent research has been focused primarily on Bacopa’s anti-inflammatory effects. Surprisingly,
these claims are not well supported by adequate studies, and the molecular mechanisms of its action remain largely unexplored
to date. We undertook a study to identify and characterize the anti-inflammatory activity of the topical application of Bacopa
monnieri leaf extract on 7,12- dimethylbenz[a]anthracene (DMBA)- and 12-O-tetradecanoylphorbol- 13-acetate (TPA)-induced
skin papillomas in swiss albino mice. Result showed that topical applications of the leaf extract prior to TPA treatment in DMBAinitiated mouse skin resulted in a significant reduction in NF-kappaB and STAT3 expression both in mRNA and protein level.
Our results thus suggest that Bacopa monnieri leaf extract has potential lead compound for developing new anti-inflammatory
drug.
BSM 32
FIELD EVALUATION OF PIGEONPEA GENOTYPES FOR IDENITIFICATION OF
REISTANCE SOURCE TO PIGEONPEA STERILITY MOSAIC DISEASE
Mary Reena, G.A., Byre Gowda, M., Ramappa, H.K., Manjunath, B. and Veerakumar, G.N.
AICRP on Pigeonpea, ZARS, UAS, GKVK, Bangalore-560 065
Email: reena.amarnathan@gmail.com
Pigeonpea is the second most important grain legume in India. The crop suffers from several diseases such as sterility mosaic
disease, wilt, and phytophthora blight. Among them sterility mosaic disease (SMD) is considered to be the most important
disease of pigeonpea and major threat to pigeonpea production in India The disease induces sterility(Cessation of flower
production) and mosaic symptoms on leaves. The eriophyid mite Aceria cajani transmits the causal virus. Two hundred and thirty
three pigeonpea germplasm lines were screened artificially to sterility mosaic disease under field condition during 2009-2010
kharif. Among them ICP 9871 showed resistance, seven lines viz., ICP7736, ICP 7765, ICP 7817, ICP 9775, ICP 9799, ICP 9868, and
ICP 10774 were moderately suceptible and 225 lines were highly susceptible to SMD.
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Biotic Stress Management
BSM 33
EVALUATION OF DOLICHOS BEAN GENOTYPES FOR RESISTANCE TO
ANTHRACNOSE (COLLETOTRICHUM LINDEMUTHIANUM) (SACC AND MAGN.)
SCRIBER
Rajesha, G1., Mantur, S.G.1, Mary Reena, G.A.2 and Byre Gowda, M.2
1Department of Plant Pathology, UAS, GKVK, Bangalore- 560 065, 2 AICRP on Pigeonpea, ZARS, UAS, GKVK,
Bangalore-560 065
Email: reena.amar nathan@gmail.com
Dolichos bean is an important pulse-cum-vegetable crop. The crop is affected by many fungal diseases viz., anthracnose, early
blight, root and stem rot, powdery mildew and rust. Among them anthracnose is an important disease present throughout the
world but severe in tropical and subtropical regions. Bean anthracnose caused by Colletotrichum Lindemuthianum (Sacc and Magn.)
Scriber affects all plant parts viz., stem, pods and seeds. One hundred and ninety five germplasm lines of dolichos bean were
screened under field condition for identification of resistance source to anthracnose. Among the genotypes screened for disease
resistance, 9 genotypes viz., GLB3, GLB 4, GLB 8, GLB 9, GLB 11, GLB 19, GLB 60 GLB 166 and GLB 167 were found immune, 48 were
resistant, 83 were moderately resistant, 51 were moderately susceptible, 4 susceptible, but none of the genotype came under
highly susceptible category.
BSM 34
INFECTION OF COLLETOTRICHUM SPP. ON DIVERSITY OF VEGETATION IN
GANGETIC PLAINS
1
1
Priti Singh, 2Hamid Ali Khan
Department of Botany, S.N. Sen B.V. PG College, Kanpur,
2
Tilak Degree College, Auriya
The isolates of Colletotrichum lagenarium, C. gloeosporoides and C. dematium were tested on 52 cucurbitaceous plants. C. lagenarium
was infectious on all cucurbits viz. bottle gourd, sponge gourd, ghia tori, kali tori, bitter gourd, squash gourd, water melon, ash
gourd, pointed gourd, pumpkin, kaddu, musk melon, kundru and cucumber etc. and all of them had spots of anthracnose disease.
Most of cucurbits were also infected by C. glocosporoides excluding watermelon and kali tori. However C. dematium did not infect
the cucurbits except bottle gourd, watermelon, pumpkin and kaddu. Meanwhile C. gloeosporoides infection was seen on all 38 non
cucurbitaceous plants of different families including Anacardiaceae, Apocyanaceae, Chenopodiaceae, Compositeae, Crucifereae,
Euphorbiaceae, Malvaceae, Myrtaceae, Papilionaceae, Pedaliaceae, Poaceae, Rhamnaceae, Solanaceae and Umbellifercae. The
infection of C. dematium was confind mustard, cauliflower and cabbage of family Crucifereae; groundnut, pegion pea, chickpea,
bean, soybean and green bean of family Papilionaceae; ladies finger and cotton of family Malvaceae; sesamum of family
Pedaliaceae; chilli, brinjal, makoi, potato,and tomato of family Solanaceae; pedilanthes, castorbean, ratalu, euphorbia and rubber
of family Euphorbiaceae; sarpgandha of family Apocyanaceae; ber of family Rhamnaceae; mango of family Anacardaceae and guava
of family Myrtaceae.
BSM 35
EFFECT OF NEEMAZAL ON THE DEVELOPMENTAL PROGRAMMING OF THE COTTON
PEST, EARIAS VITTELLA FAB. (LEPIDOPTERA)
Ajad K. Bhardwaj1 and Badre Alam Ansari2
1
Department of Zoology, K.N. Govt. P.G. College, Gyanpur, Sant Ravidas Nagar, Bhadohi - 221 304 (U.P.), India 2Zebrafish
Laboratory, Department of Zoology, D.D.U. Gorakhpur University, Gorakhpur - 273 009 (U.P.), India
E-mail: ba.ansari@rediffmail.com
Cotton is the most important fibre crop of India and it plays a dominant role in its agrarian and industrial economy. It is the
backbone of our textile industry, accounting for 70% of total fibre consumption in textile sector. But India ranks fourth in the
yield because cotton is attacked by a large number of insect pests in different stages of its growth and is one of the main reasons
for the low yield in this crop. One of the very common and notorious members of this destructive group of individuals is Earias
vittella, commonly known as the spotted bollworm. Organic pesticides are frequently used on crops and animals in the integrated
67
Abstract
form for the eradication of the pests, mites and weeds to increase the crop production. These pesticides adversely affect the nontarget organisms including human. Natural pesticides are available as alternatives to synthetic chemical formulations. The
objective of this study was to evaluate the influence of Neemazal, a neem formulation, on the developmental programming of
the E. vittella. Adults in sufficient number were anesthetized with ether and treated on the ventral thorax and abdomen with 0.70,
1.10, 1.50 and 1.90 µg/insect of Neemazal T/S diluted in acetone. After continuous exposure of pesticide, six males and six
females were selected for each batch and allowed to breed to observe the fecundity, hatchability and survival. The study showed
a significant (P<0.001) reduction in the fecundity, hatchability and adult emergence. It was observed that fecundity was reduced
to 76% of the control (100%) at the dose of 0.70 µg/insect of Neemazal. The maximum reduction in the eggs count was observed
to be 49% of the control (100%). There was 84% hatching and 66% emergence of the adult after 0.70 µg/insect treatment. The
hatching in the eggs of the highest treated insects (1.90 µg/insect), was 44% and the emergence was recorded to be only 31% of
the 300 eggs (100%). From result it is evident that the hatching and the adult emergence was dose-dependent. It is concluded that
although natural pesticides are being considered as less toxic, but it affects the development of E. vittella at a continuous exposure
of the pesticide and can be used as alternative to the organic pesticides. Further, there is a need for a wider comparative survey
of the study of insect development in biochemical terms.
BSM 36
SCREENING OF BASMATI RICE VARIETIES AGAINST M.ORYZAE PATHOGEN
Gaurav Kumar, Subhashish Sarkhel, Rajashekara H., U.D. Singh and Suneeta Pandey
Division of Plant Pathology, Indian Agricultural Research Institute, New Delhi-110012
Rice is the principal food crop for nearly 2.7 billion people of world’s population. India is one of the largest rice growing
countries in the world. Rice is affected by many diseases caused by fungi, bacteria and viruses. Among these diseases and pests,
rice blast is the most damaging disease to Basmati rice. Hence, keeping this in view, an attempt has been made in IARI, New
Delhi in 2009, for analyzing the virulence pattern of rice blast isolates infecting basmati varieties. A great variation in the
virulence pattern of M. oryzae according to their compatibility with blast resistance was observed among the rice blast isolates
collected from Basmati varieties. The isolates were categorized into different groups based on their reaction on monogenic
differential set. The matching virulence appropriate to all R-genes was observed in the pathogen population. Out of twenty five
rice blast isolates obtained from Basmati varieties, Mawana isolate was found to be extremely virulent. It severely infected 83%
of the monogenic lines, i.e. 20 R-genes out of 24 were found to be compatible with this isolate. With regard to virulence pattern
of other isolates, M. oryzae from Dehradoon and Hisar were found to be highly virulent on 19 R-genes of monogenic lines.
Remaining isolates possessed varying degree of virulence on monogenic differential set. The highest degree of resistance i.e., 80
% was recorded on Pi-z. Pi-3, Pi-km, Pi-19 and Pi-7(t) had the minimum resistance level of only 8-12%. Monogenic line with Pi-20
was found to be highly susceptible to all of the test isolates.Considering the resistance spectrum of various R-genes, a combination
of Pi-z with Pi-ta2 and Pi-zt appears to exclude entire pathogen population.
BSM 37
STUDIES ON VARIED THERMAL GRADIENTS INFLUENCING VIRULENCE OF
STEINERNEMA MEERUTENSIS N. SP. (NEMATODA: STEINERNMATIDAE)
A.K. Chaubey, Chhavi Kaushik and Tanu Vats
Nematology Laboratory, Department of Zoology CCSUniversity, Meerut-250005
E-mail: akc.nema@gmail.com
A study was conducted to assess the influence of 5 thermal gradients (5, 15, 25, 35 & 45 0C) on the host mortality and penetration
of infective juveniles (IJs) of Steinernema meerutensis (n. sp.?) isolated from Meerut (U.P.) using Galleria mellonella. Total 11 isolates
were tested for their best efficacy against the studied thermal gradients. Results indicated that among all tested isolates, S5 and
S14 was found most pathogenic to G. mellonella causing 100% mortality within 18 hrs at 250C followed by 80% within 72hrs at 350C,
50% within 48 hrs at 150C and 40% mortality within 48 hrs at 450C. Isolate S30 was also observed showing 100% mortality at two
of the slightly higher temperature (250C & 350C) but it took a long time to kill the host (72 hrs). Only 4 isolates S35, S7, S5 & S14 were
observed the thermophilic behaviour (450C); of which S14 took least time to kill the host. The emergence of S. masoodi from the
cadaver of G. mellonella larvae was observed at all temperatures except 5 and 150C indicating the cessation of activity at the lower
temperature. Among all tested temperature regimes, 350C seems to be optimum with maximum host mortality and maximum
penetration of IJs (S14) into the host body and causing maximum mortality of G. mellonella. Comparative mortality data revealed
that isolate S14 was the most virulent isolate. The high temperature optima (15-45 0C) of S14 corresponded with the climatic
conditions of Meerut region, where the temperature varies between 28-45 0C (summer) and 5-250C (winter).
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Biotic Stress Management
BSM 38
EVALUATION OF SOME NEW AND TRADITIONAL INSECTICIDES AGAINST CABBAGE
APHID BREVICORYNE BRASSICAE LINN. (HOMOPTERA: APHIDIDAE)
Parvez Qamar Rizvi and Shabistana Nisar
Department of Plant Protection, Faculty of Agricultural Sciences, Aligarh Muslim University Aligarh, U.P, India.
Cabbage aphid, Brevicoryne brassicae is one of the most imperative and highly destructive pests of cabbage and cauliflower, kills
the young plants and impair the older ones, and causing heavy losses to other crucifers too. The mass flight of this species in
plains generally occurs in December-March coinciding with vulnerable stages of the crop. Laboratory studies for eliminating
cabbage aphid were conducted during 2008-2009 in Department of plant protection, faculty of Agricultural Sciences, Aligarh
Muslim University, Aligarh. The studies were started with the collection of female adults of cabbage aphid, from the experimental
field of the department and reared up to three generations for experimentation at room temperature. Final instar nymphs were
selected for testing the toxicity of six different insecticides consisting pyriproxifen, dimethoate, acetamiprid, lambda-cyhalothrin,
acetamiprid+cypermethrin, acetamiprid+lambda-cyhalothrin. All the treatments were found significantly varying from each
other and were found superior (P<0.005) over control. The best control (99.8% mortality) was achieved with dimethoate at 0.07%
concentration however no remarkable difference was noticed even after 48 hrs of treatment, where the percentage mortality
remained similar. Other treatments (acetamiprid+ cypermethrin) also listed very good results (96% killing at 0.07% concentration)
being slower in action, provided better control (98.40% mortality) after 48 hrs even at 0.03% concentration, with minimum of
85.0% mortality at 0.05% concentration followed by Lambda-cyhalothrin, Acetamiprid exhibiting 92% and 72% mortality
respectively. At the same time Pyriproxifen did not encounter significant mortality even at higher dose of 0.07% concentration.
BSM 39
COMPARATIVE BIOLOGICAL ATTRIBUTES OF WHITEFLY, BEMISIA TABACI GENN.,
(HOMOPTERA: ALEYRODIDAE) ON SOME VEGETABLE HOSTS.
Syed Kamran Ahmad and Parvez Qamar Rizvi
Department of Plant Protection, F/O Agricultural Sciences, A.M.U, Aligarh
Information on various life parameters of an insect pest plays a key role in exploring the effective management options
(Cultural, chemical and biological methods etc.). With this objective an experiment was conducted to investigate the life
parameters of B. tabaci on four vegetable hosts viz., Tomato (Lycopersicon esculentum Mill), Chilli (Capsicum annuum L.), Brijal
(Solanum melongena L.) and Okra (Abelmoschus esculentus Moench) hosts under controlled environment (Temp. 28-30ºC; RH 6575% and 12 hrs of photoperiod). The maximum incubation period (7.54±0.16 days) was recorded on tomato followed by Chilli
(7.32±0.20 days) whereas, the least (5.62±0.13 days) was observed on brinjal. The longest Ist and IInd instar duration (4.36±0.17 and
4.74±0.15 days, respectively) was noticed on okra followed by Chilli (4.36±0.12 and 4.38±0.18 days). For IIIrd instar nymph, the
duration was found maximum (5.74±0.20 days) on tomato whereas the lowest period (2.78±0.16 days) was recorded on brinjal. As
far as the pupal period was concerned, it showed maximum time on chilli (7.21±0.17 days) followed by okra (4.78±0.10 days) and
the lowest on tomato (3.26±0.05). With regard to adult survival, female survived longer than male. The maximum duration
(male 14.28±0.54 days and female 19.46±0.6 days) of adults was recorded on tomato followed by brinjal (male 12.42±1.4 days and
female 14.28±0.54 days). On the other hand, shortest duration (male 10.3±0.47 and female 12.00±0.56 days) of adult male and
female was observed on okra. The total life cycle from egg to adult was found maximum (43 days) on tomato followed by chilli
(41 days) whereas the shortest duration was noted on brinjal (33 days).
BSM 40
PERFORMANCE OF INORGANIC NITROGEN, ORGANIC MATTER AND
BIOFERTILIZERS ON THE GROWTH AND PRODUCTIVITY PARAMETERS OF TOMATO
IN RELATION TO MANAGEMENT OF PHYTONEMATODES
S. A. Tiyagi, I. Mahmood, Z. Khan and R. Rizvi
Section of Plant Pathology and Nematology, Department of Botany, Aligarh Muslim University, Aligarh-202002
Email: zehra.khan08@gmail.com
A field experiment was conducted at the Aligarh Muslim University Agricultural Research Farm to investigate the effect of
69
Abstract
inoculation of different levels of nitrogen and organic matter like neem leaves with biological nitrogen fixers on growth and
productivity parameters of tomato (Solanum lycopersicon L.) cv. ‘Pusa Ruby’ in relation to the management of phytonematodes.
The growth and productivity parameters such as fresh as well as dry weights, percent pollen fertility, ascorbic acid content,
chlorophyll content, no. of fruits as well as no. of fertile branches per plant of tomato increased significantly with the inoculations
of biological nitrogen fixers using Azospirillum and Azotobacter. Azospirillum was found better than Azotobacter when compared to
growth and other parameters. Conjoint inoculation of 100% recommended dose of N-fertilizer and neem leaves with biofertilizers
resulted the maximum growth and productivity parameters. Their synergistic effects help to save much amount of nitrogen
fertilizers which to be incorporate in tomato crop. Manifold improvement was noted in plant’s nitrogen, phosphate and potash
and available soil nitrogen, phosphate and potash with simultaneous inoculations of biofertilizers alongwith recommended full
dose of nitrogen fertilizers and neem leaves. Multiplication of plant-parasititc nematodes was recorded in decreasing order in all
the treatments but more pronounced in those beds where Azospirillum and Azotobacter were inoculated.
BSM 41
BIOEFFICACY OF TRICHODERMA SPECIES AGAINST ALTERNARIA ALTERNATA
CAUSING LEAF BLIGHT OF TULSI (OCIMUM SANCTUM)
Shabbir Ashraf and Mohd Zuhaib
Department of Plant Protection, Faculty of Agricultural Sciences, A.M.U., Aligarh.
Email:shabbiragri@yahoo.co.uk
Tulsi (Ocimum sanctum) is an annual aromatic herb belongs to the family lamiaceae. It’s essential oil have high medicinal value
and reported to possess antifertility , anticancer , antidiabetic , antifungal , antimicrobial, antiemetic , antispasmodic ,
analgesic and diaphoretic actions. Leaf blight caused by Alternaria alternata is a major problem of Tulsi which causes about 60-70%
yield loss. For ecofriendly and susutainable management of the disease, 4 isolates of Trichoderma harzianum (viz; TNS1, TNS2,
TNS3, and TNS4) and 1 strain of Trichoderma viride were evaluated against Alternaria alternata. The isolates of Trichoderma spp were
evaluated against the pathogen in dual culture. While evaluating the bioefficacy of isolates of Trichoderma spp, it was found that
TNS2 is the most effective strain inhibiting the radial growth of the pathogen upto 70%, next effective were TNS3 (59.16%
inhibition), TNS1 (54.16% inhibition), TNS4 (52.33% inhibition) and T. viride found to be the least effective causing 49.33%
inhibition in the radial growth of the pathogen. Microscopic examination at the point of contact of two fungi revealed that the
overgrowing mycelium of the antagonist penetrates the conidia of the pathogen which adversely affect its growth.
BSM 42
STUDY ON CONTROL OF SOYBEAN MOSAIC VIRUS BY VIRUS INHIBITORY
CHEMICALS
S. M. Yadav, R. K. Patil and Laxman Parsad Blai
Department of Plant Pathology, B.A. College of Agriculture, Anand Agricultural University, Anand -388 110 (Gujarat) India.
E-Mail: Sanwar1785@gmail.com
Management of soybean mosaic virus disease was attempted using virus inhibitory chemicals under field condition during
Kharif 2006-2007. The effect of virus inhibitory chemical was tested by spraying the chemicals viz., salicylic acid (1000 and 2000
ppm), barium chloride (1000 and 2000 ppm) and benzoic acid (1000 and 2000 ppm) on primary leaves of 15 days old soybean
seedlings. Suitable controls were maintained using distilled water only. Percentage of plants infected and per cent reduction in
infection over control under different treatments were calculated Three different chemicals and water spray (control) were
evaluated at their respective concentrations through two sprays at an interval of 15 days commencing after 15 days at appearance
of soybean mosaic virus infection. Salicylic acid 0.2 per cent performed the best as evident from per cent increased over control
(21.02 %) with higher yield of soybean pod (2307.22 kg/ha) followed by salicylic acid 0.1 per cent (18.44 %) with yield (2256.00
kg/ha). Remaining all the chemicals were significantly reduced per cent infection at par over control and got yield of pod on
treatments viz., barium chloride 0.2 per cent (14.81 %), barium chloride 0.1 per cent (10.28 %), benzoic acid 0.2 per cent (6.6 %) and
benzoic acid 0.1 per cent (5.18 %) in descending order. Salicylic acid 0.2 per cent was effective as virus inhibitory agent, which
interfere the soybean mosaic virus infection and there by reduced the disease incidence. So this salicylic acid 0.2 per cent
treatment gave best result compare to other treatments.
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Biotic Stress Management
BSM 43
STUDIES ON DIFFERENT OILS FOR ECO-FRIENDLY MANAGEMENT OF
PENICILLUIM FRUIT ROT OF CITRUS IN IN VIVO CONDITION.
S. M. Yadav, R. K. Patil and Laxman Parsad Blai
Department of Plant Pathology, B. A. College of Agriculture, Anand Agricultural University, Anand -388 110 (Gujarat) India.
E-Mail: Sanwar1785@gmail.com
All the nine oils with 10 per cent concentrations studied were found significantly superior in reducing the Penicillium rot
severity over control on 5th and 10th day after inoculation in pre- and post-inoculation methods. The significantly lowest Penicillium
fruit rot severity was noticed in fruits treated with 10 per cent mustard oil (8.75%) and it was at par with neem oil (9.25%), cotton
oil (10.00%) and soybean oil (10.50%) on 5th day after inoculation. The 10 per cent mustard oil (20.75%) also found effective at 10th
day after inoculation and followed by neem (25.00%), soybean (25.75%) and cotton (27.75%) oils. Sesamum (12.25 & 32.50%),
coconut (13.50 & 31.50%) and groundnut (13.25 & 31.00%) oils were least effective in reducing the rot severity at 5th and 10th day
of inoculation in pre inoculation technique. Similar trend as observed in pre-inoculation was noticed in post – inoculation
treatment. The 10 per cent mustard oil proved best in controlling the Penicillium rot severity (11.50%) but it was at par with
soybean (11.75%), neem (13.25%), sunflower (13.50%) and cotton oil (14.25%) on 5 th day after inoculation. The mustard oil
(18.50%) also found effective at 10th day of inoculation but it was at par with soybean (19.00%) and neem oil (20.50%). Coconut
(16.75 & 24.50%), castor (15.25 & 27.75%) and groundnut oils (16.25 & 27.75%) were least effective in reducing the rot severity both
at 5th and 10th day after inoculation. All nine oils (10 %) screened, significantly lowest Penicillium rot severity was recorded in
fruits treated with mustard oil (20.75 & 18.50%) followed by soybean (25.75 & 19.00%) and neem oil (25.00 & 20.50%) in pre- and
post- inoculation methods, respectively. Groundnut oil (31.00 & 27.75%) proved least effective in controlling the rot in both the
methods of inoculation at 10th day after inoculation.
BSM 44
INFLUENCE OF TEMPERATURE ON THE PUPAE OF BRACON HEBETOR SAY
(HYMENOPTERA : BRACONIDAE) – A POTENTIAL ECTO-LARVAL PARASITOID OF
HELICOVERPA ARMIGERA IN CHICKPEA ECOSYSTEM
Hem Saxena, Duraimurugan, P. and Ashoo Sachan
Crop Protection Division, Indian Institute of Pulses Research, Kanpur - 208024
E mail: hem_saxena@yahoo.com
Bracon hebetor, a promising gregarious ecto-larval parasitoid of Helicoverpa armigera was reported for the first time from the
larvae of H. armigera in chickpea eco-system at New Research Farm of Indian Institute of Pulses Research, Kanpur during 2008
in March-April. H. armigera is a major pest of pigeonpea and chickpea. It is regarded as a major constraints to increase the
production and productivity of pulses in India. In North India during March-April H. armigera moths emerge out from
hibernating pupae and breed freely due to absence or low parasitization along with favourable climatic conditions and
podding stage of Pigeonpea and chickpea, causing heavy crop losses every year. Therefore, there is strong need for the
inundated release of potent larval parasite during this period. The studies on storage of B. hebetor pupae at low temperatures for
different periods could be useful to store the parasitoid for field release against H. armigera in chickpea and pigeonpea and to
transport the parasitoid safer from one place to another place for field release against H. armigera. In the present study, the two
day old pupae of B. hebetor were stored at 4-5 ºC for 1, 15, 30, 45, 60 and 75 days. The percentage survival of the cocoon was studied.
The percent survival decreased with the increase in period of storage. It was found that survival of the B. hebetor was 80.2, 67.2,
53.90 and 7.70 percent, when the cocoons were stored at 4-5 ºC for one, fifteen, thirty and forty- five days, respectively. But there
was no survival of B. hebetor pupae when stored at 4-5 º C for 60 and 75 days. It is clear from the results that the pupae of B. hebetor
may be stored at 4-5 ºC for 30 days with 53.90 percent survival.
71
Abstract
BSM 45
CURRENT SCENARIO OF DISEASES OF RESISTANCE AGAINST YELLOW MOSAIC,
CERCOSPORA LEAF SPOT AND ANTHRACNOSE DISEASES IN RELEASED VARIETIES
OF MUNGBEAN
R.G. Chaudhary, Naimuddin, Kalpana Kanchan, Neetu Trivedi and P.K.Katiyar
Indian Institute of Pulses Research, Kanpur-208024, India
Mungbean (Vigna radiata (L.) Wilczek) is among the most important kharif pulse crops of India. In northern India, the crop suffers
heavily from yellow mosaic disease (YMD) caused by mungbean yellow mosaic India virus, cercospora leaf spot (CLS ) caused
mainly by C. canescens and C.cruenta, anthracnose caused by Colletotrichum capsici and 3 more species and occasionally the web
blight caused by Rhizoctonia solani. With a view to have a current status of major diseases, 57 mungbean varieties released for
cultivation in different agro-ecological zones/states were evaluated in screening nursery in paired rows alternated with mungbean
genotype Kopergaon which is susceptible to all the diseases occurring in northern India. The screening was done at Indian
Institute of Pulses Research, Kanpur during kharif 2011. Weather conditions that prevailed during crop season favoured whitefly
buildup and resulted in very high incidence of YMD. However, due to early cessation of rains in September, development of CLS
was moderate and of the anthracnose was low; and these conditions appeared to have disfavoured development of web blight
disease as this could not be observed during the crop season. Therefore, periodical observations on each variety were recorded
only for YMD, CLS and anthracnose on 1-9 scale. The results showed that none of the varieties was free from any of the diseases.
Against YMD, Samrat was rated as resistant (rating 2), whereas PKUAM 4, MH 2-15, BPMR 145, Vamban 1, Pusa 9531and
Narendra mung 1 showed moderately resistance (rating 3-4), and 17 varieties showed moderatetly susceptibe (rating 5) reaction.
Rest of the varieties were found susceptible to highly susceptible (rating 6-9). For CLS also, none of varieties were resistant.
Seven varieties viz.,Ganga 1, KM 2241, Pusa 105, OBGG 52, TAP 1, LGG 450 and CO 4 were found moderately resistant. Others
were moderately susceptible. Anthracnose development was low due to dry weather in September and at this disease pressure
six varieties viz., Pusa 99072, OBGG 52, MH 96-1, TAP 1, Pusa 9531 and RMG 8803 were found resistant (rating 2). Thus, OBG 52
and TAP 1 showed higher resistance to both leaf spot disease.
BSM 46
SUITABILITY OF CULTURE MEDIA AND MICRONUTRIENTS FOR GROWTH OF
CERCOSPORA CANESCENS CAUSING CERCOSPORA LEAF SPOT IN MUNGBEAN
R.G.Chaudhary, Neetu Trivedi, Naimuddin, V.D. Singh and K. Kanchan
Indian Institute of Pulses Research, Kanpur-208024
Mungbean (Vigna radiata L.) is one of the most important pulse crops in India. However, productivity of this crop is quite low in
comparison to its yield potential. One of the causes for low productivity in kharif season is cercospora leaf spot caused by
Cercospora canescens and C. cruenta etc. in north east plains, north west plains and part of central zone of this country. Very little
is known about the cultural requirements of this pathogen as isolation and sporulation is quit difficult. Keeping this in view 12
different solid culture media viz., Dextrose Tryptone Agar, Rose Bengal Agar, Czapeks Dox Agar, Corn Meal Agar, Malt agar,
Dextrose Peptone Agar, Triple Sugar Iron Agar, Sabourd Chloramphanical Agar, Tomato Juice Agar, Nutrient Agar, Potato
Dextrose Agar (Locally prepared), Potato Dextrose Agar (Hi- Media) were tried for their suitability for the growth and sporulation
of two isolates of Cercospora canescens (isolates 27 and 34). In another experiment 5 different micronutrients at 125 -1000ppm
concentrations on these two isolates were also evaluated. Observations recorded after 7 days of incubation revealed that Potato
Dextrose Agar, Czapek Dox Agar, Sabourd Chloramphanical Agar were best for the growth of both the isolates and were at par
with each other. Microscopic examination of one month old cultures did not show any spore indicating no sporulation in any of
the media used. Among micronutrients, copper sulphate at 1000 ppm was inhibitory to both the isolates. MnSO4 at 125 and 250
ppm significantly enhanced the growth of isolate 27 only, whereas ZnSO4, Boron and MgSO4 at 125, 250, 500 and 1000ppm had
no effect on the growth of both the isolates and appeared at par. Observations on combined effect of these 3 best suited culture
media with micronutrients viz., ZnSO4, Boron & MnSO4 at 125 ppm revealed that none of the combinations gave better colony
growth of C. canescens over plain PDA, CDA and SCA. These observations clearly indicated that PDA, Czapeks Dox Agar and
Sabourd Chloramphanical Agar were the best-suited media for the growth of C. canescens. However, none of these media or
micronutrients induced any sporulation in C. canescens in culture.
72
Biotic Stress Management
BSM 47
EFFICACY OF TRICHODERMA STRAINS AGAINST FUSARIUM OXYSPORUM F. SP.
CICERI, THE INCITANT OF WILT DISEASE IN CHICKPEA
Shubha Trivedi, R.G. Chaudhary and Neetu Trivedi
Indian Institute of Pulses Research, ( ICAR) Kanpur 208024.
Wilt caused by Fusarium oxysporum f.sp. ciceri (Foc) is the most serious disease of chickpea. Use of resistant varieties is undoubtedly
the best and most economical method of managing this disease. Also, the use of systemic fungicides such as Benomyl, Carbendazim
and Benlate-T as seed treatment have been recommended. The use of eco-friendly method for the management of this disease
like antagonistic fungi and bacteria has also been advocated. Keeping this in view, the present studies were undertaken to find
out the efficacy of Trichoderma strains against Fusarium oxysporum f. sp. ciceri (Foc) (Race-2, Kanpur isolate). Thirty isolates of
Trichoderma mostly native, isolated from the rhizosphere soil of different crop niches were evaluated for their potential out of
which 22 were T. harzianum, seven were T. viride and one was T. virens. All theses isolates were evaluated against Fusarium
oxysporum f.sp. ciceri by dual inoculation technique. Beside this, the effect of volatile and non-volatile compounds released by
Trichoderma strains on the growth of Foc was also studied. In case of dual inoculation, inhibition in the growth of Foc by different
isolates of Trichoderma ranged 10.7-28.5 percent (at 72 h.). Most effective isolates were IPT 2.4,6 followed by 10, 17, 22 and 29.
Inhibition in conidia production by different Trichoderma isolates was between 44.4-88.8 percent and the most effective isolates
were IPT 4, 6, 8, 16, 25 and 28.
Non–volatile compounds present in the culture filtrates of Trichoderma isolates IPT 5,7,11,17,19, 25 and 31 were inhibitory to
colony growth of Foc. Culture filtrates of these isolates showed >50.0% growth inhibition. Culture filtrates of IPT
5,6,9,13,14,15,16,17,18,19,22,24 and 31 were highly detrimental to sporulation showing 85.7 to 100 percent inhibition in conidia
production of the pathogen. In case of volatile metabolites, all the isolates showed 25.0-65.3 percent growth inhibition, in which
IPT 24 and 28 were most inhibitory (50.0 and 65.3%) followed by IPT 2,6,9,11,20,and 31. Inhibition of conidia production by
volatile compounds ranged between 25.0-87.5 percent. IPT 3,6,9,11,16,20,24,28,and 31 were most effective in reducing sporulation
of Foc. Thus, of all the Trichoderma isolates, IPT 5,6,9,11,16,17,22,24 and 31 were found very effective in reducing the pathogen
potential by way of higher saprophytic growth, volatile and non-volatile metabolites released in the substrate/ environment
and these need to be further evaluated for the management of chickpea wilt.
BSM 48
STUDIES ON THE CORRELATION ON PHYSICAL CHARACTERS OF BARLEY GRAIN
WITH FECUNDITY F1 PROGENY AND INDEX OF SUSCEPTIBILITY AGAINST THE
RICE WEEVIL SITOPHILUS ORYZAE L. COLEOPTERA : CURCULIONIDAE
S. P. Srivastava, B. S. Azad, Alok Kumar Pandey, Rajnish Kumar & S. K. Singh*
Department of Zoology D.A-V. College, Kanpur
*IIPR, Division of Entomology, Kalyanpur, Kanpur
Among physical characters, the correlation coefficient of hardness and moisture of grain with fecundity, F1 progeny and index
susceptibility were observed to be highly significant. The hardness had negative correlation with fecundity. F1 progeny and
index of susceptibility. It means the variety which had high breaking strength and low moisture content exhibited resistant
behaviour to Rice Weevil.
BSM 49
MICROBIAL CONTROL OF POD BORERS IN PIGEON PEA CROP
I. S. Patel, P. S. Patel, B. Panikar and Y. Ravindrababu
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (GUJARAT)
Email : dr.ispatel@gmail.com
Pigeonpea is an important legume crop. It suffers from 150 insect pests right from sowing to harvesting. Among them, pod
borers viz. Helicoverpa armigera and Melanagromyza obtusa ) are considered major damaging pests. Various insecticides of different
groups are being employed for the control of these pests. Injudicious use of toxic insecticides led several environmental
73
Abstract
pollution problems. Therefore, attempt was made to find out most effective microbial pesticide for the management of pod
borers in pigeonpea crop. A field trial consisting of five microbial pesticides along with one neem based insecticides was
conducted at research farm of pulses research station, S. D. agricultural university during Kharif 2009.Field investigation was
laid out under randomized block design replicated thrice. Spraying of different treatments was made at 50% flowering. Five
plants were selected randomly and tagged for recording the observation. At the time of harvesting, pod damaged by pod borer
and pod fly were counted and converted to percentage. Yield of pigeonpea recorded from net plot and converted to kg/ha. All
the treatments were found significantly superior in reducing the pod borer as well as pod fly damage in pigeonpea as compared
to control treatment. Significantly minimum pod borer (2.66%) and pod fly (4.22%) damage was recorded in the treatment of
DOR Bt. 1.5 kg/ha. Similarly maximum yield (2404 kg/ha) was also obtained in the same treatment and was at par with the DOR
Bt. 1.0 kg/ha (2107 kg/ha).
BSM 50
MANAGEMENT OF POD BORERS WITH NEWER INSECTICIDES IN PIGEONPEA
I. S. Patel, P. S. Patel, B. Panikar and Y. Ravindrababu
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (GUJARAT)
Email : dr.ispatel@gmail.com
Pigeonpea crop is severely affected from various insect pests right from sowing to harvesting. Helicoverpa armigera and Melanagromyza
obtusa are considered as major pod damaging insects. It starts damage at initiation of flowering till pod mature. Due to continuous
use of pesticides, pod borer develop resistance to insecticides. Therefore newer insecticides are tested for its efficacy at Research
Farm of Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrushinagar during Kharif 2009-10. All
the insecticides were tried at 50 % flowering stage and second spray was made at an interval of 15 days. Pod damage by pod
borers were recorded at harvesting time. Yield of pigeonpea was recorded from net plot and converted to kg/ha.
Six treatment s were evaluated to find out the efficacy of various insecticides against pod borer and pod fly damage in pigeonpea.
The treatment of flubendiamide 20 WG @ 50g ai./ha proved to be very effective in reducing the pod borer (2.44%) as well as pod
fly (4.89%) damage in pigeonpea as compared to rest of the treatments. Significantly maximum yield was obtained in the
treatment of flubendamide 20 WG @50g ai./ha (2444 kg/ha).
BSM 51
MANAGEMENT OF SUCKING PESTS OF COWPEA THROUGH SEED TREATMENT
P. S. Patel, I. S. Patel, B. Panickar and Y. Ravindrababu
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (GUJARAT)
Email : prakashars251275@gmail.com
Cowpea [Vigna unguiculata (L.) Walpers] an ancient pulse is an important food legume for livelihood of millions of rural
masses in the under developed third world. Among the different constraints responsible for low yield of cowpea, insect pests
cause considerable losses. Among various insect pests attacking, sucking pests like aphid, leafhopper and whitefly are most
important pests of cowpea and causes severe yield losses by sucking the cell sap from leaves and tender parts of the plants. So far
no information is available on the management of sucking pests through seed treatment in cowpea. Hence, present study will be
conducted to manage the early sucking pests with the different seed treatments.
A seed treatment trial was conducted at research farm of Centre or Excellence for Research on Pulses, S. D. Agricultural University,
Sardarkrushinagar during Kharif 2010. A total of four insecticides with their two different doses were given as a seed treatment
to cowpea seeds one day before sowing. Experiment was laid out under randomized block design with three replications. Five
plants were observed at weekly interval in each plot to record incidence of sucking insect pest starting one week after germination
till harvesting of crop. The population of leaf hopper and whitefly were recorded from three leaves one each from top, middle
& bottom region of selected plant and mean number of leaf hoppers and white fly per leaf were recorded. The thrips population
was counted from randomly selected five flowers on each tagged plant and mean number of thrips per flower was worked out.
Blanket spray for spotted pod borer was made at 50% flowering and 2 nd spray at 7 days after 1st spray.
All the seed treatments were found significantly superior over control in reducing the sucking pests in cowpea. The seed
treatment of imidacloprid 70 WS @ 5g/kg seeds (0.44/leaf) found superior in reducing the leafhopper population and it was at
par with the same treatment at 3g/kg seeds, thiomethoxam70 WS@ 5g/kg seeds and fipronil 5%SC@ 2 & 4 ml/kg seeds.
However, significantly minimum population of whitefly was noticed in thiomethoxam70 WS@ 5 g/kg seeds(0.49/leaf) and was
at par with the same treatment at 3 g/kg seeds. So far thrips population concerned the lowest population was recorded in
74
Biotic Stress Management
imidacloprid 70 WS @ 5g/kg seeds (2.96/flower) and it was statistically at par with all the treatment except control. Significantly
higher grain yield was harvested from imidacloprid 70 WS @ 5g/kg seeds(870 kg/ha) and was at par with fipronil 5%SC@ 4 ml/
kg seeds and imidacloprid 70 WS @ 3g/kg seeds.
BSM 52
MANAGEMENT OF SPOTTED POD BORER, MARUCA VITRATA IN COWPEA THROUGH
NEWER INSECTICIDES
P. S. Patel, I. S. Patel, B. Panickar and Y. Ravindrababu
Centre of Excellence for Research on Pulses, S. D. Agricultural University, Sardarkrishinagar-385506 (GUJARAT)
Email : prakashars251275@gmail.com
Cowpea [Vigna unguiculata (L.) Walpers] an ancient pulse is an important food legume. Among the different constraints responsible
for low yield of cowpea, insect pests cause considerable losses. Among these, spotted pod borer is one of the most important pest
of cowpea and causes severe yield losses (up to 60%). The larvae of spotted pod borer are known to cause damage by web the
leaves, bud, flower and pods together and feed inside on them. This typical feeding habit protects the larvae from natural
enemies and other adverse factors. Therefore, it is important to have a critical look to manage the spotted pod borer with newer
insecticides at a particular stage of crop. Hence, this experiment was conducted at Research farm of Centre of Excellence for
Research on Pulses, S. D. Agricultural University, Sardarkrushinagar during Kharif, 2008 to 2010.
All the treatments were found significantly superior over control in reducing the spotted pod borer damage in cowpea during
all the years as well as in pooled results. During the year 2008-09 the treatment of emamectin benzoate 5 SG (2.02%) and
indoxacarb 14.5 SC (2.02%) found equally effective to manage the spotted pod borer damage as compared to the rest of treatments.
The treatment of indoxacarb 14.5 SC exhibited least spotted pod borer damage (3.05%) and it was at par with emamectin benzoate
5 SG (3.18%) and spinosad 45 SC (3.78%) in the year 2009-10. During 2010-11 significantly lower spotted pod borer damage was
noticed in emamectin benzoate 5 SG (2.90%) as compared to rest of treatments. Similarly in pooled results emamectin benzoate
5 SG (2.70%) found significantly better to reduce the spotted pod borer damage and was at par with indoxacarb 14.5 SC (2.98%)
and spinosad 45 SC (3.58%).
Significantly highest yield was obtained in the treatment of emamectin benzoate 5 SG (619 kg/ha) as compared to the rest of the
treatments during the year 2008-09. During 2009-10, significantly highest yield was obtained in the treatment of indoxacarb 14.5
SC (823 kg/ha) and it was at par with emamectin benzoate 5 SG (758 kg/ha) and spinosad 45 SC (749 kg/ha). Again the treatment
of emamectin benzoate 5 SG (898 kg/ha) found significantly superior and was at par with spinosad 45 SC (865 kg/ha) and
indoxacarb 14.5 SC (852 kg/ha) during 2010-11. Similarly in pooled results same treatments were found very effective in
increasing the yield of cowpea. The economics of various treatments revealed that the higher PCBR was obtained in the
treatment of bifenthrin 10 EC (1:2.69) and it was followed by indoxacarb 14.5 SC(1:2.36), chlorpyriphos (1:1.60), quinalphos
(1:1.48), spinosad (1:1.29) and emamectin benzoate (1:1.10).
Based on the efficacy, indoxacarb 14.5 SC (3.45 ml/10 lit.) or spinosad 45 SC (1.62 ml/10 lit.) or emamectin benzoate 5 SG (3 g/10
lit.) found to be very effective against Maruca vitrata in cowpea.
BSM 53
LIFE TABLE OF PLUTELLA XYLOSTELLA (LINN.) ON BRASSICA HOSTS
*Nazrussalam, M. Shafiq Ansari and Nadeem Ahmad
Department of Plant Protection, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh-202002
* ZRS, Darisai, Barakhurshi, East Singhbhum-832304 (Jharkhand)
Email: mohdsansari@yahoo.com, nazrussalam@yahoo.co.in
Life table of Plutella xylostella was studied on cabbage and Indian mustard varieties. The Survivorship (Ix) was greater on cabbage
varieties than on the Indian mustard. Highest number of eggs were hatched on cabbage i.e. Diamond Express followed by
Golden Acre and Field Man as compared to Indian mustard. Unhatched eggs were highest when P. xylostella reared on Pusa Bahar
and the lowest on Diamond Express. Mortality (dx) was also occurred at different stages of P. xylostella and larval mortality was
more on Indian mustard than cabbage varieties. Adult emergence was highest on Diamond Express as compared to Indian
mustard. The expectancy of life (ex) was higher on cabbage (Diamond Express) than to Indian mustard varieties.
P. xylostella preferred to lay more eggs on Diamond Express than other varieties of cabbage and Indian mustard. Total oviposition
period was 8-days on Indian mustard while, 11 days on Diamond Express. The Highest potential fecundity (Pf) occurred on
75
Abstract
Diamond Express i.e. 124.05 and lowest on Pusa Bahar i.e. 52.42 females/female/generation. The net reproductive rate (Ro) was
highest (64.99 females/female/generation) on Diamond Express and lowest (7.78) on Varuna. The highest intrinsic rate of
increase (rm) i.e. 0.049 females/female/day occurred on Golden Acre and lowest (0.027) on Varuna. The r m was significantly
(P<0.05) reduced when P. xylostella reared on Indian Mustard. The finite rate of increase (ë) was lowest (1.027 females/female/
day) on Varuna and highest (1.05) on Golden Acre. Corrected generation time of P. xylostella (ô) was 38.01 days on Diamond
Express while, fractional difference was recorded on Pusa Bold, Varuna, Field Man and Golden Acre. P. xylostella multiplies fast
on cabbage varieties as compared to Indian mustard.
BSM 54
GENETIC DIVERSITY OF EMPOASCA FLAVESCENS FABRICIUS (HOMOPTERA:
CICADELLIDAE), AN EMERGING PEST OF TEA FROM SUB-HIMALAYAN
PLANTATION
Dhiraj Saha1 and Ananda Mukhopadhyay2
Entomology Research Unit, Department of Zoology, University of North Bengal
P.O. North Bengal University, Siliguri-734013, West Bengal
1
dhirajsaha_nbu@rediffmail.com; 2dr_amukherjee_nbu@rediffmail.com
Empoasca flavescens Fabricius (Homoptera: Cicadellidae), an emerging insect pest of tea, Camelia sinensis L. (Theaceae), damages
by sucking the sap of young leaves and tender shoots resulting ‘Rim Blight’. Most plantations are managed conventionally using
different synthetic insecticides. Continuous application of synthetic insecticides leads to the selection of resistant E. flavescens
populations. So, there is a pressing need to know the genetic variability in the pest populations and develop a population specific
control strategy. In small insects, like E. flavescens RAPD is an important genetic marker to study genetic variability. Three
populations of E. flavescens were studied using RAPD-PCR. Polymorphism in populations was assayed using eight random
primer resulting amplification of 53 loci. Polymorphic loci recorded were 83.02, 84.92 and 88.68 percent in Darjeeling hill, Terai
and the Dooars populations respectively. The genetic distance between Darjeeling hill and Terai, Darjeeling hill and the Dooars
populations noted were 0.0255 and 0.0332 respectively. UPGMA dendrogram based on the ‘Nei’s (1978) genetic distance method’
showed greater genetic distance of Darjeeling hill population from Terai-Dooars populations; the distance between the latter
two being much lesser.
BSM 55
RELATION OF TEMPERATURE AND HUMIDITY TO POSTHARVEST ROT OF CHICK
PEA CAUSED BY FUNGI
Sarita Joshi and Kamlesh Gupta
Botany Department, Dayanand Girls P. G. College Kanpur.
Low temperature inhibited the growth of Phoma glomerata, Ascochyta rebiei, Phytophthora megasperma and Sclerotium rolfsii on post
harvest chickpea fruits. Relative humidity appears to have low influence on development of fungal diseases at low percentage
but fairly good infection was noticed at high level of humidity. However rotting due to different fungi on the host was earliest
at 90 and 100% Rh fungal infection was most favoured at 250 and 300C.
BSM 56
MORPHOLOGICAL CHARACTERS OF URDBEAN IN RELATION TO ANTHRACNOSE
DISEASE
Versha Mishra, Sadhna Yadav and K.C Srivastava
Department of botany, DG college Kanpur & Department of botany, DAV college Kanpur
Urdbean (Vigna mungo (L) Hepper) is an important pulse crop in India occupying 29.6 million hac area with production of 1.28
million tones and productivity of 43 kg / hac (Anonymous, 1999). Various biotic and abiotic stresses cause immense losses in
urdbean crop throughout the world. Among biotic stresses, anthracnose of urdbean caused by fungus colletotrichum capsici (syd.)
. butler & bisby is the most serious disease which has gained national importance causing considerable damage the quality of
76
Biotic Stress Management
seed and yield.The morphological characters of leaves of urdbean genotypes were studied in relation to anthracnose disease
caused by colletotrichum capsici. Stomatal frequency in both adaxial and abaxial surfaces of leaves was higher in susceptible
genotypes. Number and size of stomata were highly correlated with disease severity. Thickness of leaves had no role in
resistance of urdbean against anthracnose disease. Trichome density did not differ significantly in resistant and susceptible
genotypes
BSM 57
MANAGEMENT OF PESTICIDES IN SUSTAINABLE CROP PROTECTION
1
Alka Kushwaha, 2Richa Nigam and 2Archana Srivastav
1
Botany Department D.A.V. College, Kanpur &
2
Botany Department D.G. College, Kanpur
Over the years, there had been increase in pests due to intensive agriculture alongwith high yielding varieties, increased use of
huge chemical fertilizer, off season cultivation, especially vegetables and improper use of pesticides. Pesticide use is very
important for agriculture to protect the crop. In Indian use of pesticide is 90,000 ton / years but this is very harmful for
environment and human.These pesticides or agro chemicals are costly and leads upto degradation of soil. On the other hand to
fulfill the need of growing population it essential to increase agriculture production with the same rate. In modern agriculture.
Chemicals (Pesticides, fertilizers) are being used for increasing, promotion Economical loss by the pest in India in a year have
pest / weed 33%, disease 26% bacteria 26% and bird / nematode 15%. This is challenge to human being that how to minimise the
pesticide use. The whole scenario of our rural development can be changed by this single intervention of increased plant
protection or integrated pest management
BSM 58
IDENTIFICATION OF POLYMORPHIC SSR LOCI AMONG LANDRACES AND SOME
ELITE RICE VARIETIES
R. K. Gupta1*, P.Ray Choudhury2 and G. Thomas1
1
Department of Molecular & Cellular Engineering, SHIATS, Allahabad, 211007, U.P. India
Room no. 422, KrishiBhawan, Pusa Campus, New Delhi
Email: rajesh.raj.25784@gmail.com
2
SSR markers are highly polymorphic, abundant and easy to use; these have become the marker of choice for genetic mapping,
hybrid testing, population studies etc. Highly polymorphic, co-dominant and transferable molecular markers in Oryza can be
useful for exploiting the genetic resources of this genus for detecting allelic variants in loci associated with other important
crops. Further scope of crop improvement depends upon exploitation of genetic variation and diversity in plant breeding
programmes and development of novel biotechnological tools judiciously. Ample genetic variation is available in rice germplasm
and can also be used to predict potential genetic gains. Moreover, rice is also an ideal model cereal plant for the study of grass
genetics and genome organization due to its diploid status, relatively small genome size 430 Mb, significant level of genetic
polymorphism, large amount of well-conserved genetically diverse material (about 125,000 accessions of rice germplasm
worldwide) and the availability of large number of wild species. Characterization and quantification of genetic diversity has
long been a major goal in evolutionary biology. Information on the genetic diversity within and among closely related crop
varieties is essential for rational use of genetic resources. The analysis of genetic variation both within and among elite
breeding materials is of immense interest to plant breeders. It contributes in quantifying variation in germplasm and used to
provide clues in predicting potential genetic gains. For the purpose of genetic diversity studies and varietal differential, six rice
genotypes including landraces and popular cultivars (viz; Thakurbhog, Karahani, Ketakijoha, Kalanamak, Pusa Basmati1, Narendra
usar-3) have been studies to understand for allelic variability. A total of 22 rice STMS primers were used for the study. It has been
observed that 10 RM primers showed polymorphism and others showed monomorphism. Those have identified 2-3 alleles in
loci across the genotypes.Polymorphic alleles were found to be useful for genetic purity test, varietals identification and
diversity.
77
Abstract
BSM59
EFFECT OF FLY ASH EXTRACT ON MORTALITY OF ANGUINA TRITICI AND SEED
GERMINATION OF WHEAT.
Shamee Kausar, A.A. Khan
Plant Pathology and Environmental Botany Section, Deptt. of Botany, Aligarh Muslim University, Aligarh
Email: Samee.aina@gmail.com
In present study mortality rate (%) of seed gall nematode of wheat, Anguina tritici juveniles was increased significantly from 1st
to 4th day except at 100 percent concentration of fly ash-extract in 1st day. Highest mortality rate was found at 100% fly ash-extract.
At this level 0n 2nd day none a single juvenile was survived. Mortality rate was increased with respect to no. days increased.
Similarly, in seed germination of wheat germination rate was decreased as fly ash- extract conc. were increased.
BSM 60
EFFECT OF INTEGRATED USE OF FARM YARD MANURE AND UREA WITH AND
WITHOUT SULPHUR ON PERFORMANCE OF CITRONELLA JAWA( CYMBOPOGAN
WINTERIANS) AND FERTILITY STATUS.
Avinash Rai, Sumit Rai, Yaseen Ansari
Department of Soil Science and Agricultural Chemistry, Institute of Agriculture Sciences, Banaras Hindu University,
Varanasi- 221 005
A field experiment was conducted to investigate the influence of integrated use of Farm Yard Manure and Urea with and without
sulphur on fertility status of soil and performance of Citronella Jawa.The details of various treatments applied to citronella are as
follows:T1= control; T2=100%N through Urea; T3=100%N through Urea+40 Kg S ha-1;T4= 50% N through Urea+50% N through
FYM;T5=50% N through Urea+50% N through FYM+ 40 Kg S ha -1;T6=25% N through FYM+75% N through Urea and T7=25% N
through FYM+75% N through Urea+ 40 Kg S ha-1.Application of 50% N through Urea+50% N through FYM+ 40 Kg S ha-1 showed
a significant increase in available NPKS content of soil. The perceptible improvement in available NPKS content of soil,growth,oil
and herbage yields were recorded in 25% N through FYM+75% N through Urea+ 40 Kg S ha -1 treated plots. Plots received 50% n
through FYM recorded significantly higher availability of NPKS and growth and oil yield. Application of S significantly
increased the oil contents of Citronella over other treatments without sulphur. Combined application of urea, FYM and sulphur
exhibited significantly higher available N, P, K and S content of soil as well as growth and oil yield of citronella.
BSM 61
EFFECT OF INTEGRATED USE OF ORGANIC MANURES, INORGANIC FERTILIZERS
AND BIOFERTILIZERS ON PHYSICO-CHEMICAL PROPERTIES OF SOIL AND
PERFORMANCE OF ONION (ALLIUM CEPA L.)
Sumit Rai, Avinash Rai, Yaseen Ansari.
Department of Soil Science and Agricultural Chemistry, Institute of Agriculture Sciences, Banaras Hindu University,
Varanasi-221 005
Email: sumit.rai101@yahoo.in
A field experiment was conducted to find out the effect of integrated application of organic manures (FYM and vermicompost),
inorganic fertilizers and biofertilizers (PSB and Azotobacter) on growth and yield of and nutrient uptake by onion (Allium cepa L.)
and nutrient build up in the soil. There were six treatments comprised of integration of FYM, Vermicompost, chemical fertilizers,
PSB and Azotobacter. The experiment was laid out under randomized block design (RBD) and the treatments were triplicate
during the experiment. Significantly higher yield of onion (74.85 q ha -1) was observed in the plots received 50% N through
vermicompost +25% N through urea + PSB + Azotobacter (T6) as compared to other treatments. After completion of experiment,
the highest available N, P, K and S concentration (248.6, 19.7, 230 and 12.13 Kg ha-1, respectively) were recorded in the case of the
treatment consisted of 50% N through vermicompost +25% N through urea + PSB + Azotobacter (T6). Similar significant effect was
observed on nutrient content (N, P, K and S) and nutrient uptake (N, P, K and S). Furthermore, the use of organic manures showed
a significant improvement in soil’s physico-chemical properties (bulk density, water holding capacity, porosity, pH and EC) and
78
Biotic Stress Management
residual nutrients concentration (N, P, K and S). The treatments had PSB and Azotobacter integrated with FYM or vermicompost
showed a remarkable increase in residual soil fertility status over the treatments which received FYM or vermicompost only.
The use of FYM and vermicompost has also showed a significant increase in soil fertility status over chemical fertilizers alone.
The Azotobacter can substitute the N requirement of plant to the extent of 25% without compromising with the yield, makes it a
better integration in the present day context to sustain soil health and productivity to achieve better yield.
BSM 62
IMPACT OF INTEGRATED NUTRIENT MANAGEMENT ON SOIL FERTILITY AND YIELD
ATTRIBUTES OF POTATO (SOLANUM TUBEROSUM L.) CV.KUFRI BADSHAH
Yaseen Ansari, Sumit Rai, Avinash Rai
Department of Soil Science and Agricultural Chemistry, Institute of Agriculture Sciences, Banaras Hindu University (BHU),
Varanasi-221 005.
Email: yayasinansari75@gmail.com
A field experiment was conducted to investigate the impact of integration of chemical fertilizers with FYM and Biofertilizer
(Trichoderma viride) on soil fertility status and yield attributes of potato (Solanum tuberosum L.) crop. The treatments were
allocated in a randomized block design with three replications. The treatment consisted of three levels of Nitrogen (N0, N70 and
N140) Kg/ha, three levels of Phosphorus (P0, P25 and P50) Kg/ha, three levels of Potassium (K0, K70 and K140) Kg/ha, two levels of
FYM (FYM0 and FYM10) t/ha and two levels of Trichoderma viride (B0 and B1.25) Kg/ha. Application of inorganic fertilizers and
organic manures at N140 P50 K140 B0 Kg/ha and FYM at 10 t/ha recorded highest plant height, number of leaves and number of
branches of potato. The application of treatment combination T4 at N140 P50 K140 B0 Kg/ha and FYM at 10 t/ha, there was a decrease
in pH, Bulk density and increase in OC (%), available NPK, WHC (%) and pore space (%). The treatment combination T4 at N140
P50 K140 B0 Kg/ha and FYM at 10 t/ha has shown the highest tuber yield of potato.
79
Abstract
GLOBAL WARMING AND CLIMATIC ISSUES
GWC 01
IMPACT OF CLIMATE CHANGE IN BUNDELKHAND REGION: A MICRO STUDY
1
1
Sarju Narain and 2A.K. Singh
Agril. Ext. BNPG College Rath (Hamirpur), B.U. Jhansi, U.P., 2Director, ZPD (ICAR), Unit IV, Kanpur.
Climate risk is common for Indian agriculture. It is highly vulnerable to drought because two third agricultural land is rainfed
and even irrigated system is depend upon monsoon. Droughts in 2002, 2004, 2006 and 2009; floods in 2005, 2006 and 2008; and
high temperature in March 2004 and up to mid October 2011 are the some examples of climate change. Climate change risk is a
particular challenge for the hundreds of million whose livelihoods depend on rainfed agriculture in marginal high risk
environment. The vulnerability of climate changes varies across regions, sectors and social groups. To understanding the
regional and local dimensions of vulnerability, it is essential to develop appropriate and targeted adoption efforts. Among the
different agro- climatic pockets of India Bundelkhand pocket is badly affected from climate change. For the impact assessment
of climate change a time line survey of two districts namely Hamirpur and Banda was conducted through random sampling
method. The result showed the key historical events and major changes perceived by villagers, i.e. soil erosion and degradation,
changing cropping pattern, fooding habits, availability of natural resources, poor productivity of crops & animals, etc. This
region have clear cut impact an fertilization of desi - cows , losses of fodders, result increasing ‘Annapratha’, poor milk producing
capacity of animals , rural migration and some time suicide deaths are also occurs. These are the major impact of climate change
which is badly affected to the rural society of this pocket.
GWC 02
CLIMATE CHANGE IMPACTS ON AGRICULTURE: SOME OBSERVATIONS ON
URDBEAN CROP PRODUCTION SYSTEM AT AGRA
Subhash C. Biyan, Pooja Dhuppar, Basanti Ch and D.Sarveshwara Rao
Farming Systems Research, Botany Department, Dayalbagh Educational Institute (Deemed University) Agra
Email: subhash.biyan@gmail.com
Indian agriculture is facing challenges due to several factors such as increased competition for land, water and labour from nonagricultural sectors and increasing climatic variability. The climatic variability associated with global warming will result in
considerable abiotic and biotic stresses, seasonal/annual fluctuations in food production. Pulses occupy a very important
position in Indian agriculture as they restore the soil fertility. Moreover, pulses are the cheapest source of proteins for Indian
population and fulfill its 20-30% of protein requirement. Urdbean is a warm season crop grown with in temperature range of
about 20°- 40°C. It is sensitive to low temperature and destroyed by frost. The mean temperature of 28-30°C is optimum for its
growth and warm temperature is essential for germination. India is largest producer of urdbean contributing 1.33 million
tonnes annually from an area of about 3.17 million hectare. The production of urdbean (1.33 million tons) is far below the present
requirement of the country which has caused recent surge in prices. Climate change will surely have an adverse effect on
productivity on account of reduction in total crop cycle duration. Urdbean is an important short duration pulse crop; further
reduction in crop duration will amount to lower field per unit area. Change in climate will also cause enormous flower drop and
under-development of pods and seeds, and immature pods. The present paper includes the observation on the vegetative and
reproductive performance and realized yield of Urdbean crop in relation to changing weather at Agra for three successive years
(2009-2011). Local agronomic management practices were also closely monitored which may help in preparing mitigation
strategies. Need for training undergraduates students in techniques of Biofertilizer production so as to expend the network of
production and extension workers is recommended with the help of DEI as a case study.
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Global Warming and Climatic Issues
GWC 03
ASSESING THE RELATION BETWEEN NDVI AND RAINFALL OVER INDIA
S.K.Dubey1, G.Pranuthi2 and S.K.Tripathi3
1,2
Water Resource Development & Management, 3Water Resource Development & Management, Indian Institute of
Technology, Roorkee, 247667
Email: Sunil2949@gmail.com
The Indian subcontinent has diverse vegetation with the climate varying from monsoonal in south to temperate in the North.
The biological productivity of the vegetation cover therefore largely controlled by water and temperature stresses. The
Normalized Deferential Vegetation Index (NDVI) was shown to be sensitive to changes in vegetation conditions. Since it is
directly influenced by the chlorophylls absorption of the suns radiation. In this study rainfall data (from IMD) and MODIS- NDVI
data (GLAM project) for 27 states of India was used. NDVI data from MODIS (with a resolution of 250 km) images was correlated
with state wise annual precipitation for the year 2004-2008. The correlation value for NDVI and rainfall was observed to be 0.63
and R2 value was 0.40. From this study we can conclude that the NDVI is majorly dependent on the rainfall. Other factors like
temperature, humidity, radiation etc., also influence the vegetation growth and productivity but in lesser proportion compared
to precipitation.
GWC 04
SIGNIFICANCE OF NOSTOCALES IN GANGA WATER QUALITY
S.K. Tripathi, C. Bhan*and V. K. Singh
Department of Botany, Brahmanand College Kanpur-208004
*Department of Botany, K.N.P.G. College Tejgaon, Raibareily
Present investigation deals with the study of Nostocales in Ganga water at Shuklaganj (Kanpur). Here in 81 species of Nostocales
belonging to 12 genera (Arthrospira, Spirulina, Oscillatoria, Phormidium, Lyngby Cylindrospermum, Nostoc, Anabaena, Nodularia, Calothrix,
Rivularia and Gloeotrichia) have been reported from Ganga water. Implication of such Nostocales in water quality and pollution
are of considerable significance. Certain members of Nostocales play an important role in determining the water quality and
pollution as indicator organism forms like Oscillatoria subbrevis, O. limentica, O. pseudogeminata var. unigranulata, O. formosa,
Nostoc linkia var.arvense, Anabaena planktonica, A. fertilssima, A. iyengarll var. tenuis, A. oscillaroides and Nodularia spumegena are
significant propagators allergenic diseases. Application of pollution indices of genara and species coupled with the role
of Nostocales in water quality have been described.
GWC 05
EFFECT OF GLOBAL WARMING ON BIODIVERSITY IN INDIA
Parul Bhargava and Ashwani Kumar
Forest Research Institute, Kanpur U.P.
It is now well established that the world is heating up. The average temperature of the earth’s surface increased by an estimated
0.6oC in the 20th century, and according to the most recent projections of the Intergovernmental Panel on Climate Change, could
rise 1.4 to 5.8oc above the 1990 average by 2100.In its recent assessment, the IPCC reiterates that 20-30% of species assessed so far
are likely to be at increased risk of extinction if increases in global average warming exceed 1.5-2.50c and as global average
temperature increase exceeds about 3.50C, model projections suggest significant extinctions (40-70% of species assessed) around
the globe. Global warming does not only make vegetation “gasp for air” but also leads to animal habitat loss. The loss of these
habitats leads to extinction of the amphibians dependent on the forests for their survival. Many species may be seriously affected
by the spread of viruses and bacteria which normally thrive in warmer conditions. This, among many things, may push these
animals even closer to the brink of extinction. As far as different species are concerned, the effect of global warming is clearly
visible with some of them shifting their habitats. Moreover, it is also becoming more difficult to preserve huge land tracts, which
is affecting the chances of preserving biodiversity of a particular region. It is believed that if the situation is not taken stock of
immediately, then around 2050 species will disappear from the surface of the Earth as a result of global warming. Thus, due to
Global Warming the list of animals and plants at risk of climate will, of course, be longer and longer as the planet gets hotter and
hotter.
81
Abstract
GWC 06
HARMFUL EFFECT OF ENVIRONMENT ON THE BIODIVERSITY OF AVIAN FAUNA
OF KANPUR CITY
Atul Kumar Misra
Department of Zoology, D.A.V. P.G. College, Kanpur (U.P.) INDIA
E-mail: atulkumarmisra03@gmail.com
Change of environment is very complex phenomenon that effects many living organisms on the earth. There are many aquatic
and terrestrial animals which decline due to sudden change of climate in the atmosphere. There are so many abiotic and biotic
factors which are responsible for decline of the bird’s habitat in the environment. The rate of absorption of solar radiations on
earth and its emission back into earth in the form of infra-red waves balances the heat on the earth, which is the main cause for
the survival of the living organisms. Sudden climate change is the result of human activities like deforestation, use of fossil fules
and excessive use of energy and some other natural factors like volcanic eruptions, solar variability etc., which directly effect the
amount of ozone layer present in the atmosphere, and is also responsible for decline in the avian fauna of Kanpur city in Uttar
Pradesh.Present study focusses on the harmful effects of environment changes on the biodiversity of avian fauna of Kanpur
region. The data of native species of birds was collected in summer, rainy and winter season. It is clearly evident from the above
study that either the variety of birds are declining or they are at the stage of extinct day by day due to climate changes in the
environment due to many anthropogenic activities by human beings.
GWC 07
INTERCROPPING AND COVER CROPPING WITH FOOD LEGUMES AS A
CONSERVATION MEASURE TO ADOPT TO CHANGING CLIMATE IN MANGO
ORCHARDS
A.N. Ganeshamurthy, V. Ravindra and N.K. Srinivasarao
Indian Institute of Horticultural Research, Bangalore 560 089
Monoculture in horticulture has resulted in many ecological diseases. They may be grouped into two categories. Diseases of the
ecotope, and diseases of the biocoenosis. Diseases of the ecotope include erosion, loss of soil fertility and depletion of nutrient
reserves, salinization and alkalinization, pollution of water systems, loss of fertile croplands to urban development. Diseases of
the biocoenosis, include loss of crop, wild plant, and animal genetic resources, elimination of natural enemies, pest resurgence
and genetic resistance to pesticides, chemical contamination, and destruction of natural control mechanisms. Under conditions
of intensive management, treatment of such diseases requires an increase in the external costs to the extent that, in some
agricultural systems, the amount of energy invested to produce a desired yield surpasses the energy harvested. We need to
understand the inbuilt principles of conservation agriculture to make a hybrid between intensive agriculture and conservation
agriculture. To alleviate these problems there is need to build-in several strategies of management to buffer against changing
climate through improvement of soil health, enhancement of biodiversity and improve and sustain crop yields. These include:
Maintaining permanent soil cover and promoting minimal mechanical disturbance of soil through zero tillage and allelopathy,
ensures sufficient living and/or residual biomass to enhance soil and water conservation and control soil erosion. In turn, this
improves soil aggregation, soil biological activity and soil biodiversity and increases soil carbon sequestration. Also, it enhances
water infiltration, improves soil water use efficiency, and provides increased insurance against drought and other abiotic
stresses. Permanent soil cover is maintained during crop growth phases using cover crops and maintaining residues on the
surface.Promoting a healthy, living soil through crop rotations, cover crops assists in enhancing the benefits of integrated pest
management technologies. These practices reduce requirements for pesticides and herbicides, control off-site pollution, and
enhance biodiversity. The objective is to complement natural soil biodiversity and to create a healthy soil microenvironment
that is naturally aerated, better able to receive, hold and supply plant available water, enhances nutrient cycling, and mitigate
pollutants. Crop rotations and associations can be in the form of crop sequences, relay cropping, and mixed crops besides crop
residue management.Promoting application of fertilizers, pesticides, herbicides, and fungicides in balance with crop requirements.
Feed the soil rather than fertilize the crop. This will reduce chemical pollution, improve water quality, and maintain the natural
ecological integrity of the soil including biodiversity, while optimizing crop productivity and economic returns.Promoting
precision placement of inputs to reduce costs, optimize efficiency of operations, and prevent environmental damage. Treat
problems at the field location where they occur, rather than blanket treatment of the field, as with conventional systems.
Promoting legume cover crops, composting and the use of manures and other organic soil amendments improves soil structure
and biodiversity, and reduces the need for inorganic fertilizers and irrigation requirement.To evaluate these possibilities a
standing mango orchard was converted into conservation horticultural garden. Alphonso mango garden of 25 years old trees
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Global Warming and Climatic Issues
with a spacing of 7m x 7m which was under intensive management with clean cultivation was brought under zero tillage. The
orchard was divided into several sub plots. After the harvest of mango fruits in June, pigeonpea and Mungbean was sown as
intercrop with four rows of mungbean for every one row of pigeonpea. In the second plot cowpea was sown as sole crop. In the
third plot frenchbean was sown as a vegetable crop and in the fourth plot a green manure crop of Mucuna purience was sown as
cover crop. Besides this several vegetables were also planted as inter crop in the orchard. Periodically soil health parameters
and crop performance was monitored. Frenchbean, mungbean and cowpeas were harvested and the yields of these crops were
economical for farmers to be convinced to go for a intercrop in mango orchards. Biodiversity changes and soil health changes
and their impact on mango performance are being continuously monitored.
GWC 08
SIDA CORDIFOLIA : A COMPARATIVE STUDY ON MORPHOLOGICAL
CHARACTERISTICS OF ROADSIDE OF KANPUR NAGAR
Archana Srivastava, Alpana Tewari and Naina Srivastava
Botany Department, Dayanand Girls P.G.College, Kanpur
Email: alpanatewari@gmail.com
Macromorphological characters of some species of medicinal plants of Kanpur nagar were studied. The aim was to search for
stable, distinctive and diagnostic characters for the identification of these species in habitat variation. Qualitative characters
were noted and recorded while quantitative observations were done by the use of a metric ruler and the measurements were
taken to the nearest centimeters. In general, the characters such as number of leaflet pairs, length and width of leaflets, leaflet
base, and number of leaflets lateral nerves revealed generic distinctions. Others include the degree of hairiness in sepals, petals
shape, types of inflorescence, fruit shape and fruit length. The attributes that delimits the species are mainly quantitative.
GWC 09
CLIMATE CHANGE AND THEIR IMPACT ON HORTICULTURAL CROPS IN 21ST
CENTURY: A GLOBAL PERSPECTIVE.
Vikas Kumar1, Enespa2, Chhatarpal Singh3 and Preeti Gautam4
1
Indian Veterinary Research Institute, Izatnagar, Bareilly, UP - 243122. 2Department of Environmental Science, 3&4Department
of Environmental Microbiology, Babasaheb Bhimrao Ambedkar (A Central University), Lucknow, Uttar Pradesh-226025
Email: vs1744@gmail.com and enespasingh@gmail.com
The Intergovernmental Panel on Climate Change (IPCC) has been publishing periodic assessment reports on atmospheric CO2
concentration and its likely impact on the Agricultural/Horticultural crops. The IPCC in its 4 th Assessment Report states that
emission of global GHGs has increased since pre-industrial times, with an increase of 70% between 1970 and 2004. The big
challenge before the international community is to limit the emission of green house gases by 2050 and measurably by 2020.A
significant change in climate on a global scale will impact agriculture and consequently affect the world’s food supply. Climate
change per se is not necessarily harmful; the problems arise from extreme events that are difficult to predict. More erratic
rainfall patterns and unpredictable high temperature spells will consequently reduce crop productivity. Developing countries in
the tropics will be particularly vulnerable. Latitudinal and altitudinal shifts in ecological and agro-economic zones, land
degradation, extreme geophysical events, reduced water availability, and rise in sea level and salinization are postulated.
Unless measures are undertaken to mitigate the effects of climate change, food security in developing countries in the tropics
will be under threat.Environmental stress is the primary cause of crop losses worldwide, reducing average yields for most major
crops by more than 50%. The tropical vegetable production environment is a mixture of conditions that varies with season and
region. Climatic changes will influence the severity of environmental stress imposed on vegetable crops. Moreover, increasing
temperatures, reduced irrigation water availability, flooding, and salinity will be major limiting factors in sustaining and
increasing vegetable productivity. Extreme climatic conditions will also negatively impact soil fertility and increase soil
erosion. Thus, additional fertilizer application or improved nutrient-use efficiency of crops will be needed to maintain productivity
or harness the potential for enhanced crop growth due to increased atmospheric CO2. The response of plants to environmental
stresses depends on the plant developmental stage and the length and severity of the stress. Plants may respond similarly to
avoid one or more stresses through morphological or biochemical mechanisms. Environmental interactions may make the
stress response of plants more complex or influence the degree of impact of climate change. Measures to adapt to these climate
change-induced stresses are critical for sustainable tropical vegetable production. Until now, the scientific information on the
effect of environmental stresses on vegetables is overwhelmingly on tomato. There is a need to do more research on how other
vegetable crops are affected by increased abiotic stresses as a direct potential threat from climate change..The impact of climate
83
Abstract
change on flowering plants and crops will be more pronounced. Melting of ice cap in the Himalayan regions will reduce chilling
required for the flowering of many of the ornamental plants like Rhododendron, Orchid, Tulipa, Alstromerea, Magnolia,
Saussurea, Impatiens, Narcissus. etc. Some of them will fail to bloom or flower with less abundance while others will be
threatened. Indigenous species in the natural habitat will be under threat for not getting favorable agro-climatic conditions for
their proliferation. Western Ghats and surrounding regions may be deprived of normal precipitation due to abnormal monsoon.
Plant species requiring high humidity and water may find them under difficult conditions for survival. Plains of India will also
have similar kind of problems and will be affected either by drought or excessive rains, floods and seasonal variations. Commercial
production of flowers particularly grown under open field conditions will be severely affected leading to poor flowering,
improper floral development and colour besides reduction in flower size and short blooming period. On the basis of above
article we can say that the most effective way to mitigate the climate change is to adopt a sustainable development pathway,
besides using renewable energy, forest and water conservation, reforestation etc. Awareness and educational programmes for
the growers, modification of present horticultural practices and greater use of green house technology are some of the solutions
to minimize the effect of climate change. Hi-tech horticulture is to be adopted in an intensive way. It is necessary that selection
of plant species/cultivars is to be considered keeping in view the effects of climate change. The performance of different
seasonals may not be satisfactory due to shorter and warmer winter.
GWC 10
SEASONAL DISTRIBUTION OF KERATINOPHILIC FUNGI FROM INDUSTRIAL
WASTE HABITAT
Richa Pandey1 and Vandana Nigam2
1
Department of Botany, S.N. Sen BVPG College Kanpur , 2Department of Botany, D.G.P.G. College Kanpur
Email: 1 pandeyrich@rediffmail, 2vandananigam@hotmail.com
Eighteen soil samples were collected from industrial waste habitat during 2006-2007 in different seasons and screened for the
presence of keratinophilic fungi by using hair bait technique. In industrial waste maximum number of fungi were isolated in
winter season (8) followed by rainy season (6) and least number of fungi were isolated in summer season (5). Acremonium sp. and
Botryotrichum piluliferum were isolated only in winter season (16.67%). Chaetomium globosum was isolated in winter and summer
season and maximum distribution was recorded in winter season (33.33%). Chrysosporium indicum was isolated in all the three
season and maximum distribution was recorded in summer season (33.33%). C. keratinophilum was equally isolated in summer
and rainy season (16.67%). C. tropicum was isolated in rainy season (16.67%). Ctenomyces serratus isolated in winter season
(16.67%) and Curvularia lunata isolated in summer and rainy season (16.67%). Malbranchea sp. was isolated only in rainy season
(33.33%). Microsporum gypseum and Paecilomyces sp. were recorded in only in winter season (16.67%).
GWC 11
BIODIVERSITY: IMPACT OF GLOBAL WARMING ON BIODIVERSITY
Shubhi Mishra, Parul Sagar, Ajay Kumar and Uma Devi
Saaii College of Medical Science and Technology, Kanpur
Email: sachinmishra79@gmail.com
It is believed that global warming is one of the most important threats to our biodiversity. Plants and animals even far from
human habitation are now endangered due to global warming and climate change. Extinction is hotly debated, but poorly
understood topic in science, the same goes for climate change. When scientist try to forecast the impact global change on future
biodiversity levels, the results are contentious, to say the least. In addition to warming temperatures, more frequent extreme
weather events and changing patterns of rainfall and drought can be expected to have significant impacts on terrestrial biodiversity.
The various commitments to check extinction can be-adoptation of ways and means to conserve biodiversity, managing
biodiversity for sustainable use, ensuring equitable sharing of benefits from biological diversity including utilization of genetic
resources. Various views are given by various researcher, but as per plan on extinction of bio diversity due to global warming
are –reducing our carbon and green house gas emissions will not make our personal living space more sustainable but it will
also save a money in both the short and long term and make our environment a nice place to live in. While human kind has
ability to destroy the planet, we can also help protect and sustain it. By recycling half of our house hold waste, we can save 2,400
pounds of CO2 annually. This basic program would result in meaningful reductions in green house gases in United-States
meanwhile these performance standards could be recommended to the rest of the world, particularly in the developing countries
where most of the growth in emissions will occur. An ultimate goal would be to have a set of performance standards that apply
across the globe.
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Global Warming and Climatic Issues
GWC 12
BIOPOLLUTANTS: THE DANGEROUS CONTAMINANTS
Anamika Pandey*1, Mohd Kamran Khan2, George Thomas3 and Saumya Choudhary4
Department of Molecular & Cellular Engineering, Jacob School of Biotechnology & Bioengineering, Sam Higginbottom
Institute of Agriculture, Technology and Sciences, Allahabad, INDIA.
Email: anamika.biotech@gmail.com
Biopollutants are the most dangerous contaminants found in the indoor environment and need to be kept under control because
they can lead to serious health consequences. All biopollutants are living organisms, or are derived from them, and they come
in many forms. Some produce severe to mild health effects ranging from cancer, pneumonia, fever, asthma and rhinitis to
membrane irritation and headache. Some common biopollutants are: bacteria (E.Coli), fungi (aflatoxin), viruses (influenza),
mammals (cats), arthropods (dust mites) and green plants (ragweed). The results of qualitative and quantitative analysis of the
atmospheric biopollutants are correlated with the meteorological parameters such as temperature, relative humidity, wind
speed and cloud cover. “Effects of introduced, invasive species sufficient to disturb an individual (internal biological pollution
by parasites or pathogens), a population (by genetic change) or a community (by increasing or decreasing the species complement);
including the production of adverse economic consequences” were defined as biological pollution (biopollution). This biological
pollution due to biopollutants presents a distinct threat to the environment. Just as chemicals may contaminate the air, water, or
soil, invasive plants and animals can overwhelm an ecosystem. Whether they come from distant habitats or biotechnology labs,
non-native invaders may out-compete native species and diminish biodiversity. New technologies have brought additional
biopollutants. Genetically engineered (GE) crops have introduced new genetic traits never before found in nature. Biopollution
from GE plants has contaminated non-GE and even organic crops. In the short-term this may pose threats to the environment or
human health. In the most publicized contamination incident so far, the Star Link variety of corn, which has not been approved
for human consumption, made its way into our food supply. Over the long term, GE pollution threatens biodiversity. Biopollution
from genetically engineered organisms is particularly dangerous because it exists on the genetic scale, making it nearly impossible
to control or clean up. For biopollutants to cause problems indoors, they need reservoirs, such as standing water or rotting
matter, although a very dirty, neglected carpet is also considered a reservoir. Biopollutants also must grow or increase in
concentration before they can harm people. And finally they have to be disseminated – away and a means to leave its reservoir
and get to the human receptor. In the outdoor environment, we have little control over biopollutants, but indoors we can control
their reservoirs and amplification by controlling their sources with routine cleaning and preventive maintenance. We have to
control the environment – moisture and temperature – so the organism can’t grow and keep any organism or other pollutants
away from humans. Kill it, remove it or contain it. An efficient, safe way to kill microorganisms is to use a vapor machine that
uses high temperature vapor to kill germs and insects and makes it easy to remove soil from surfaces.
GWC 13
AN IMPERATIVE SCENARIO OF COMMON EFFLUENT TREATMENT PLANTS (CETPS)
AND POLLUTION CONTROL IN SMALL SCALE INDUSTRY-IN INDIA WITH SPECIAL
REFERENCE OF CETP AT JAJMAU, (KANPUR (U.P.)
Anil Kumar1, B.S. Sachan2, Jitendra Kumar 3, M. M. Rajput4
Assistant Director Seed & Farm, C.S. Azad University of Agriculture And Technology, Kanpur
Associate Professor, Deptt. Of Agril. Economics, C.S. Azad University of Agriculture and Technology, Kanpur
Ph.D. Scholar, Deptt. Of Agril. Extension, C.S. Azad University of Agriculture and Technology, Kanpur.5 Reader Deptt. Of
Agril. Economic B.N.V. College Rath Hamirpur (U.P.)
The empirical studies on cost of pollution abatement in India show presence of scale economics in waste water treatment. Small
Scale Industries in India have an important place in the economy as these procombined treatment of wastewater is considered a
cost-effective alternative to effluent Treatment by Individual Smalvide substantial employment and value addition per unit of
capital employed. Besides earning significant amount of Foreign Exchange. However, they also create severe pollution problems.
The enforcement of environment regulation mainly comprising command and control type of instrument on Small Scale units
have been highly unsatisfactory for a variety of Technical, financial and political reasons. The Design of Policy instrument for
control of pollution is small scale industries is very challenging in principle. The regulation has various types of Physical, Fiscal
and Legal instruments but the presence of large number of small scale industries that lack knowledge funds, technology and
skills to treat their effluent. Make the application of conventional regulatory approaches problematic.This paper has developed
a framework to examine the cost effectiveness of CETPs in addressing water pollution from Small Scale Industries in India.
Analysis in the paper demonstrates that the CETPs besides being potentially Jow cost alternative for pollution control for firms
85
Abstract
arc cost effective mechanisms for regulatory agencies as well in enforcing environmental regulation on Small Scale Industries.
Using a game theoretic framework. This paper demonstrates that Common Treatment of Pollution is Potentially a cost effective
option in addressing the water pollution problem in small scale units, and drawing on the experience of operation of common
effluent treatment plants in lndia. For implementation for CETPs allow the regulator to adopt a more focused strategy of
monitoring, resulting in the less pressure on regulator’s Budget and better compliances. The paper drawing other experience of
implementation of various. CETPs in India identifies the factors that have contributed to poor performance of CETPs and
suggests various changes that should be effective to make the CETPs more effective. This paper has policy implication also for
other developing countries faced with challenges of Pollution Control in Small numerous and dispersed industrial sources. The
Small Industrial units may be encouraged to set up common effluent treatment plants which would be cost-effective for both the
polluters and the Regulator and thus would lead to better.
GWC 14
FOOD SECURITY: CLIMATE AND AGRICULTURE
Rohini Pandey1, Suhel Mehandi2, Atul Jaiswal1 and Shweta Pandey1
1
Microtech College of Management and Technology (Affiliated by Panjab Technical University) Maldahiya Varanasi-221001,
Uttar Pradesh...2Crop Improvement Division, Indian Institute of Pulses Research (IIPR), Kalyanpur, Kanpur-208024, Uttar
Pradesh.
Food security is the state achieved when food systems operate such that “all people, at all times, have physical and economic
access to sufficient, safe, and nutritious food to meet their dietary needs and food preferences for an active and healthy life”
(FAO). Average global temperatures are rising and will continue to rise over the coming decades, whatever mitigation measures
are taken, because of stocks of greenhouse gases already in the atmosphere. These rising temperatures are already having
measureable impacts, on glaciers and ice caps, sea levels, and rainfall patterns, and these impacts will also increase over the next
decades. The ultimate temperature rise will depend on mitigation measures put in place to limit emissions over the coming
years. Climate change promises serious negative impacts on agricultural systems. These same systems and the natural resources
that support them are already under severe strain from overexploitation, the current climate, and multiple other stresses. Many
of the world’s most vulnerable people depend directly on these systems for their food and livelihoods; and many countries’
economies are also highly dependent on them. Agriculture is also adding to the climate change problem. We are at a crossroads
in the development of our planet. The decisions we make now, for agriculture and natural resources as well as for other sectors,
may prove to be the most important decisions humankind ever collectively makes. Food security is one of the basic human
rights that are in jeopardy. Today, an estimated one billion people – more than one person in six – do not enjoy that right;
without significant changes to agriculture and other natural resource-based systems, hunger and poverty will be perpetuated
long into the future, and affect many more. We know what to do to raise our chances of a better future. Even without climate
change, we have a moral imperative to turn this knowledge into action. Climate change adds urgency to the situation, but it also
provides an opportunity. The products of agricultural research are ready to be implemented in adaptation and mitigation
strategies that will help people build successful livelihoods despite changing conditions. As the future climate unfolds, more
will be needed.
GWC 15
CLIMATE CHANGE AND AGRICULTURE: ITS ADAPTATION & MITIGATION
A. K. Singh, Atar Singh, C. Y. Manikanhaiya and A.S. Yadav
Zonal Project Directorate Zone-IV, Kanpur
The global increase in carbon dioxide concentration is primarily due to fossil fuel use and land use change, while those of
methane and nitrous oxide are primarily associated to agriculture. As a result we are witnessing global warming. The increasing
green-house gases (GHGs) resulted global warming by 0.74°C over past100 years and 11 of the 12 warmest years were recorded
during 1995 – 2006. The Intergovernmental Panel for Climate Change (IPCC) projections on temperature predicts an increase of
1.8 to 4.0°C, by the end of this century. Some changes will affect agriculture through their direct and indirect effects on crops,
soils, livestock, fisheries and pests. Indian Council of Agricultural Research (ICAR) launched a network project on National
Initiative on Climate Resilient Agriculture (NICRA). The project aims to enhance resilience of Indian agriculture to climate
change and climate vulnerability through strategic research and technology demonstration. The research on adaptation and
mitigation covers crops, livestock, fisheries and natural resource management. Under Technology Demonstrations component,
of NICRA an integrated package of proven technologies has been demonstrated in one village in each selected district for
adaptation and mitigation of the crop and livestock production systems to climate variability based on the available technology.
86
Global Warming and Climatic Issues
The 11 KVKs of UP (Bahraich, Gorakhpur, Maharajganj, Gonda, Kushinagar, Jhansi, Chitrakoot, Sonbhadra, Hamirpur, Baghpat
& Muzaffarnagar) and 2 KVKs of Uttarakhand (Tehri Garhwal, Uttarkashi) has selected for technology demonstrations
component.Swarna sub-1 variety of Paddy demonstrated in Kushinagar, Gonda, and Mahrajganj (61 ha area & 129 farmer’s
fields) under flooding situation given 35.0-40.0 q/ha yield as comprise to local variety 20-25 q/ha. The yield gain was 60-75 %
higher over the local check.
GWC 16
AGROPEDIA : AN ICT – DRIVEN TECHNOLOGY APPLICATION STRATEGY
A.K. Singh, C. Y. Manikanhaiya, Ajit Kr. Srivastava, Yemul Sanjeev N. and Vikram D. Singh
Zonal Project Directorate, Zone-IV (ICAR), Kanpur
Indian agricultural development has gone through different stages of Green Revolution. Now it is entering another stage of
agricultural transformation i.e. Commercialization and secondary agriculture. Green revolution phase followed from mid-1960
to the mid-1980 covering north western & southern states. It spread rapidly in the central & to a lesser extent to the eastern states.
Demand of projected food production upto 2020 would be - rice (119 mt), wheat (92 mt), coarse cereals (15.6 mt), pulses (19.5 mt)
and milk (166 mt). Keeping in the view of rising domestic demand, we may take advantage of the liberalization & international
trade. To achieve greater production efficiency, it also requires farmer education, investment & organizational expertise for
commercialization; and modification in land regulations. Implementation of suitable land use pattern is needed with the
consideration that each region would focus on crops best suited to their agro-climatic characteristics, soil types & water resources.
In addition to increase food production, it also needs to apply scientific capabilities and information technology based modules
for sustainable growth. Agropedia (http://agropedialabs.iitk.ac.in) is an online knowledge repository for information related to
agriculture in India with an aim to provide agricultural information on a variety of crops and empower farmers with crop
information. KVK-Net (http://agropedialabs.iitk.ac.in/extension) is an Agricultural Knowledge sharing platform meant for the
experts at KVK and has interaction tools Blogs, Discussion Board, Event, Community, Chat and Private message. KVK-Net is a
platform designed for the experts at KVKs for sharing information and experiences and where the experts of one region can
interact with the experts of other region. On the other hand, vKVK (http://agropedialabs.iitk.ac.in/kvk) is a platform that connects
KVKs with farmers through internet and mobile technology. It has SMS and Voice messages facility which facilitates effective
and efficient functioning of KVKs as an agro-advisory service provider.
GWC 17
CROP DEVELOPMENT MODULE FOR CLIMATE CHANGE IN AGRICULTURE
A. S. Yadav, S. N. Yemul, Ekhlaq Haider*, Shailendra Singh and Jitendra Kumar
Zonal Project Directorate Zone-IV, Directorate of Extension, CSAUAT, Kanpur
Climate change and agriculture are interrelated processes, both of which take place on a global scale. Global warming is
projected to have significant impacts on conditions affecting agriculture, including temperature, carbon dioxide, glacial run-off,
precipitation and the interaction of these elements. These conditions determine the carrying capacity of the biosphere to produce
enough food for the human population and domesticated animals. The overall effect of climate change on agriculture will
depend on the balance of these effects. Assessment of the effects of global climate changes on agriculture might help to properly
anticipate and adapt farming to maximize agricultural production. Models for climate behavior are frequently inconclusive. In
order to further study effects of global warming on agriculture, other types of models, such as crop development models, yield
prediction, quantities of water or fertilizer consumed, can be used. Such models condense the knowledge accumulated of the
climate, soil, and effects observed of the results of various agricultural practices. They thus could make it possible to test
strategies of adaptation to modifications of the environment. Because these models are necessarily simplifying natural conditions
(often based on the assumption that weeds, disease and insect pests are controlled), it is not clear whether the results they give
will have an in-field reality. However, some results are partly validated with an increasing number of experimental results.
Other models, such as insect and disease development models based on climate projections are also used (for example simulation
of aphid reproduction or septoria (cereal fungal disease) development).Scenarios are used in order to estimate climate changes
effects on crop development and yield. Each scenario is defined as a set of meteorological variables, based on generally accepted
projections. For example, many models are running simulations based on doubled carbon dioxide projections, temperatures
raise ranging from 1°C up to 5°C, and with rainfall levels an increase or decrease of 20%. Other parameters may include
humidity, wind, and solar activity. Scenarios of crop models are testing farm-level adaptation, such as sowing date shift, climate
adapted species (vernalisation) need, heat and cold resistance), irrigation and fertilizer adaptation, resistance to disease. Most
developed models are about wheat, maize, rice and soybean.
87
Abstract
GWC 18
PSEUDOMONAS AERUGINOSA – APPLICATION TO BIOTECHNOLOGY
Anamika Srivastava
SAAII College of Medical Science and Technology, Kanpur
Email: Anamika1922@gmail.com
Pseudomonas aeruginosa is a gram negative , rod shaped, asporogenous and monoflagellated bacterium that has an incredible
nutritional versatality. It has ability to synthesize Arganine. P.aeruginosa is a soil bacterium that is capable of breaking down
polycyclic aromatic hydrocarbons and making rhamnolipids, quinolones,hydrogen cyanide,phenazines and lectins. It can produce
water soluble pigments, which on exposer to ultra-voilet light fluroscenced blue-green light. P.aeruginosa synthesizes two
siderospores,pyochelin and pyoverdin. It can also use iron from enterobactin. P.aeruginosa degrade polycyclic hydrocarbon, it is
useful for environmental detoxification of synthetic chemicals and pesticides and for industrial purposes. It is usually in water
reservoirs polluted by animals and humans, such as sewage and sink inside and outside of hospitals, it is also found in swimming
pools. It can produces Exotoxin A which catalyzes ADP-ribosylation. It can also break down humanimmunoglobulin and serum
alpha proteins. It can degrade methylbenzenes, which are the by products of petroleum industries and are commonly used as
solvent for enamels and paints as well as in the production of drugs and chemicals. Methylbenzenes are considered as
environmental contaminants. It can degrade toluene through the oxidation of the methyl group to aldehyde, alcohol and an acid,
which is then converted to catechol. It can be used in pollution control.
GWC 19
MICROBE BASED PIGMENTS WITH HEALTH AND ENVIRONMENTAL BENEFITS
Neeraj Nagpal1, Neera Munjal1, Sayan Chatterjee1*
1
University School of Biotechnology, Guru Gobind Singh Indraprastha University, New Delhi.
Email: neerajnagpal49@gmail.com; neera17390@gmail.com; sayanze@gmail.com.
Nature blessed us with so many microbe based natural colors which can be an answer to the pollution emitted into the
environment while production of synthetic colors. These synthetic colors not only damages the biodiversity, but also have toxic
effects in case of humans. Consumers are avoiding synthetic food colorants and ready to buy food products with natural
colorants at premium price. The demand for natural source of such compounds is increasing day by day because of awareness of
its positive health benefits. It is therefore, essential to explore various natural sources of food grade colorants and their use
potentials. Most often, the colorants are extracted from plant material, but other sources such as insects, algae, bacteria, and fungi
are used as well. Additionally, organisms other than plants can span the entire colour spectrum and thereby reducing dependence
on synthetic colours. Microorganisms could be made to produce colorants in high yield by inserting genes coding for the
colorant even colorants not naturally produced by microorganisms could be made in this way. Furthermore, natural colorants
will not only be beneficial to the health of human beings, but it will be a boon for the preservation of biodiversity as harmful
chemicals released into the environment while producing synthetic colorants could be stopped.
GWC 20
WATER CONSERVATION AND INDIA
Brototi Chakraborty, Kirtika Singh, Meenakshi Verma, Saumya Mahajan, Sanskriti Singhania
Email: singhaniasanskriti@gmail.com
It is any beneficial reduction in water as well as the preservation of water quality.
A reduction in water use accomplished by implementation of water conservation or water efficiency measures.Improve water
management practice that reduce or enhance the beneficial use of water.A water conservation is an action behavioral change
device technology or improved design. Generation of electricity, helping transportation development of fishery, source of
irrigations and control over flood are some the merits of water conservation, water less urinals, car washes.Infrared or foot
operated taps, which can save water by using short bursts for water rinsing. The technique ensure that the designer desired
payback period is satisfied using “systematic hierarchies approach for resilient process screening techniques” (SHARPS).
Application for water conservation are group irrigation. Flood irrigation, over head irrigation, dry irrigation. etc.The process of
water conservation in our country is done because of less water resources, it includes rainy, ground, sea, pond and river water
in it, thus to improve and to make batter water facilities.
88
Global Warming and Climatic Issues
GWC 19
MICROBE BASED PIGMENTS WITH HEALTH AND ENVIRONMENTAL BENEFITS
Neeraj Nagpal1, Neera Munjal1, Sayan Chatterjee1*
1
University School of Biotechnology, Guru Gobind Singh Indraprastha University, New Delhi.
Email: neerajnagpal49@gmail.com; neera17390@gmail.com; sayanze@gmail.com.
Nature blessed us with so many microbe based natural colors which can be an answer to the pollution emitted into the
environment while production of synthetic colors. These synthetic colors not only damages the biodiversity, but also have toxic
effects in case of humans. Consumers are avoiding synthetic food colorants and ready to buy food products with natural
colorants at premium price. The demand for natural source of such compounds is increasing day by day because of awareness of
its positive health benefits. It is therefore, essential to explore various natural sources of food grade colorants and their use
potentials. Most often, the colorants are extracted from plant material, but other sources such as insects, algae, bacteria, and fungi
are used as well. Additionally, organisms other than plants can span the entire colour spectrum and thereby reducing dependence
on synthetic colours. Microorganisms could be made to produce colorants in high yield by inserting genes coding for the
colorant even colorants not naturally produced by microorganisms could be made in this way. Furthermore, natural colorants
will not only be beneficial to the health of human beings, but it will be a boon for the preservation of biodiversity as harmful
chemicals released into the environment while producing synthetic colorants could be stopped.
GWC 20
WATER CONSERVATION AND INDIA
Brototi Chakraborty, Kirtika Singh, Meenakshi Verma, Saumya Mahajan, Sanskriti Singhania.
Email: singhaniasanskriti@gmail.com
It is any beneficial reduction in water as well as the preservation of water quality.
A reduction in water use accomplished by implementation of water conservation or water efficiency measures.Improve water
management practice that reduce or enhance the beneficial use of water.A water conservation is an action behavioral change
device technology or improved design. Generation of electricity, helping transportation development of fishery, source of
irrigations and control over flood are some the merits of water conservation, water less urinals, car washes.Infrared or foot
operated taps, which can save water by using short bursts for water rinsing. The technique ensure that the designer desired
payback period is satisfied using “systematic hierarchies approach for resilient process screening techniques” (SHARPS).
Application for water conservation are group irrigation. Flood irrigation, over head irrigation, dry irrigation. etc.The process of
water conservation in our country is done because of less water resources, it includes rainy, ground, sea, pond and river water
in it, thus to improve and to make batter water facilities.
89
Abstract
ASM
ASM 01
SCREENING FOR SALINITY TOLERANCE AND IT’S MANAGEMENT IN CHICKPEA
(CICER ARIETINUM L.)
M. Das , M. Sarkar, D. Roy Choudhury and S. Kundagrami
Department of Genetics & Plant Breeding, Institute of Agricultural science, Calcutta University
Progressive salinization of agricultural land is a devastating global problem and a substantial constraint to crop production.
Chickpea is an important pulse crop and susceptible to salinity.So,identification of salt tolerant genotypes and enhancement of
salinity tolerance is a primary need to sustain the production of chickpea .In view of the above germination and seedling growth
responses of seventy one indigenous germplasms were evaluated at 0 ds m -1 and 5 ds m -1 levels of salinity in laboratory
condition. Percent reduction over control in root and shoot length under 5 ds m -1 salinity were used for grouping the
germplasms.The germplasms like Digbijoy,DCP 92-3,Murshidabad Local & G24 showed lower percent reduction for both root
and shoot length. Seed treatments with crude plant materials were found to be effective to overcome some biotic and abiotic
stresses.So,efforts have been made to ameliorate the adverse effect of salinity by treating the seeds of chickpea variety Mahamaya
2 with nineteen different crude plant preparations. Effect of seed treatment on rate of imbibition, germination, radical length and
seedling vigour under 6 ds m-1 of salt stress condition were examined. Imbibition rate,radical length and germination percent
were higher in treated seeds than untreated seeds under saline condition. Better seedling growth was exerted by the treatments
like Dhane,Nishinda,Tobacco,Kalmegh and Bel leaf powder. Salinity tolerance of the treated seeds were further tested in 0 ds m1
and 6 ds m -1of Hoagland solution. Results depicted that the deleterious effect of salinity can further be countered in a better way
by applying nutrient solution along with herbal treatments. These laboratory tests need to be confirmed under field condition
ASM 02
LIPID PER OXIDATION AS BIOMARKER FOR EVALUATING THE LEVELS OF
TOXICITY OF NOSTOC MUSCORUM UNDER MULTIPLE STRESSES
Khan Uzma Aftab, Rajesh Chaturvedi and Iffat Zareen Ahmad
Department of Biotechnology, Integral University, Dasauli, Kursi Road, Lucknow-226026
9 Nabi Ullah Road, Surajkund Park, Daliganj, Lucknow
Many metal ions are essential as trace elements but at higher concentrations they become toxic. Heavy metals cannot be
chemically or biologically degraded and are ultimately indestructible results in formation of free oxide radicals. Lipid oxidation
is problematic, as enzymes do not control many oxidative reaction and some of the products of the attack are highly reactive
species that modify protein and DNA. Malondialdehyde ( (MDA) is a cytotoxic product of lipid per oxidation and an indicator
of free radical production and consequent cellular damage .MDA content was estimated using the procedure described by Heath
& Packer (1968).Acceleration of MDA suggest the onset of oxidative damage resulting ROS production boosts over scavenging
activity. We have use lipid per oxidation as biomarker to check the level of toxicity of heterocystous cyanobacteria Nostoc
muscorum under single (NaCl,100mM) and multiple stress (NaCl & chloride of heavy metal,10µM). Alkaline earth metal used in
this study are Pb, Zn,Cd,Co ,Mg and Mn .each metal with salt stress has been used as a multiple stress individually. Culture in
multiple stress show reduction in growth could be due to inhibition of normal cell division by metal is primarily attributed to
their binding to sulphahydryl group which is necessary for cell division. However some of the test culture show great adaptation
in the stress and show increased cell division than control (culture serving with no stress). Among all the metals in single and
multiple stress, lead has shown greater production of MDA which is considered as a measure of LPO status, Zinc and magnesium
show similar level of toxicity similarly cadmium and manganese show same ROS production. Test culture in cobalt stress shows
excellent adaptation less production of ROS. Result could be summarized as Pb > Mg, Zn > Cd,Mn >Cont > Co. Multiple stressed
culture however depicts different results than single stress. No two metal showed similar level of toxicity. Order of toxicity
shown as Pb > Mg > Mn > Cd > Zn > Cont > Co. Heterocystous cyanobacterial used as potent biofertilizer an excellent
replacement of chemical fertilizer. Its quality of well adaptation in stressed environment could be explored as biofertilizer.
90
ASM
ASM 03
INFLUENCE OF SOIL TEMPERATURE AND SOIL HEAT UNIT AT DIFFERENT DEPTH
UNDER POLYTHENE MULCH AND NON POLYTHENE MULCH GROUNDNUT DURING
DIFFERENT GROWTH STAGES IN LATERITIC SOIL OF KONKAN
N.V. Mhaskar, B.P. Patil and U.V. Mahadkar
AICRP on Tuber Crops, CES, Wakawali, Tal: Dapoli (MS)
Soil temperature and air temperature are the most important climatic factor that influences on growth, development and yield
of crop. Growing Degree Days (GDD) concept assumes a direct or linear relationship between growth and temperature. Amongst
the improved production technologies, use of transparent polythene mulch in groundnut is reported an miraculous technology
in augmenting the groundnut yield by 20 to 50 per cent. Polythene mulch to groundnut raised the soil temperature by 4 to 5 per
cent resulting in quicker germination, increase the functional leaves, nodules per plant, photosynthetic efficiency and ultimately
leading to higher yield. Under the integrated nutrient management field experiment in Rabi 2004-05 and 2005-06, the study of
soil temperature at 5, 10, 15 and 20 cm depth under polythene mulched groundnut and non polythene mulch groundnut during
crop growth period was carried out. Results revealed that polythene mulch groundnut increased the daily soil temperature by
2 to 3 oC in morning hours and 4 to 5 oC in the afternoon hours during early crop growth stages up to canopy development stage.
Thereafter, the increase in soil temperature in non polythene mulch plot was greater than polythene mulch groundnut up to
maturity period. The temperature load in upper layer was more the lower layer of soil. The heat load in soil represented by soil
heat unit or soil GDD at different depth and during different phases of crop studied. Out of the different phenophases of the crop,
formation of pegs to maturity stage accumulation of larger heat units in the soil. There was no large variation in total soil heat
units of the two years under poly mulching at different depths. Even though the minimum and maximum air temperature was
more in 2005-06, the total air GDD was slightly more in 2004-05 due to extended duration of 8 days. So it was reflected in to HTU
and HyTU.
ASM 04
THE EFFECT OF THERMAL STRESS AND CHEMICAL POLLUTANTS ON FISH LIFE
Rakesh Kumar Tiwari
Department of Zoology, V.G.P.G. College, Dibiyapur, Auraiya – 206 244
Email: rakeshtiwari78@yahoo.in
Hazards to life of fish are too many. Yet fish survive and form a significant proportion of aquatic life. This is because they are
adapted to their surroundings to the extent that a certain balance is maintained between them and their environment. Local fish
populations, however, often are subject to sudden and large scale mortalities. This happens due to unusual natural causes. Flash
and catastrophic mortalities have arisen from the red tide (1947 outburst off Florida; discoloration of water due to change in
species of plankton population), seasonal anaerobiosis (spread decomposition), lightening stroke etc. Such mortalities are
beyond remedy. Then there are equally significant mortalities of fish population which stem from causes for which mankind is
responsible. The causes for the pollution are mostly man-made, and therefore a remedy, a control, a prevention is very much
possible. If unchecked, this pollution will only increase day and day out with the rapid industrialization and ever increasing
human population.The present fish was selected as models for its continues availability and hardy nature which render to the
fish easily handled the necrosis in hepatic tissue, exudation of nuclei from cells disappearance of connection tissue and large
damaged are in hepatic tissue at 330C. The tissue of heart was done to observe the effect of thermal stress for prolonged periods.
In testis the cold stress caused shrinkage is inter cellular space and size of seminiferous tubules and in ovary at heat stress at 18
hrs. and 24 hrs. caused swelling of ovarian follicle and appearance of large black dot like structure cold stress caused shrinkage
in size of ovarian follicle.However, the thermal stress applied for prolonged period in the form of heat or cold stress is always
unfavorable to the breeding rate of H. Fossilis (sinha 1988).
91
Abstract
ASM 05
IMPACT OF LEAD CONCENTRATIONS ON GROWTH OF SCENEDESMUS OBLIQUUS
Shweta Awasthi, Vinod Rishi and A. K. Awasthi
Department of Botany, Brahmanand College, Kanpur, U.P., India.
Email:Shweta.awasthi30@gmail.com
Heavy metals are known as toxic contaminants of environment and becomes a hazards for various life forms of different habitats
including aquatic environment specially rivers because they receive the different types of effluents from various sources. In the
present investigation we have studied the effect of Lead concentrations on the growth and development of Scenedesmus oblquus
which shows remarkable response against lead concentrations. Gradual increase in the concentrations of Lead Acetate (10, 20, 50
and 100 ppm) reduced the rate of multiplication of cells as well as lowers the number of cells per liter.
92
Biotechnology
BIOTECHNOLOGY
BTS 01
DNA BASED MOLECULAR MARKERS – A REMEDY FOR YELLOW RUST
Anamika Pandey1, Mohd Kamran Khan1, Saumya Choudhary1, Sheeba Khan1, Rais Ahmad2, Erdogan E. Hakki3, Mahinur S.
Akkaya4 and George Thomas1
1
Sam Higginbottom Institute of Agriculture, Technology & Sciences, Department of Molecular & Cellular Engineering,
Allahabad-211007
2
Biotechnology Research Foundation, Kanpur-208024
3
University of Selcuk, Department of Soil Science & Plant Nutrition, Konya-42079, Turkey
4
Middle East Technical University, Department of Chemistry, Cankaya, Ankara TR-06800, Turkey
Email:anamika.biotech@gmail.com
Wheat is the most widely grown crop in the world, representing a major renewable resource for food, feed, and industrial raw
materials. The world demand for food by an ever-growing population is expected to increase, by about 40% in 2030. Biotic
stresses present a major constraint to crop production, with the fungal rusts of wheat being a significant, global problem. Recent
studies suggested that, among the several yield-limiting rust diseases, stripe rust, caused by Puccinia striiformis, is probably the
most devastating, widely distributed wheat diseases worldwide. In recent years, new races of stripe rust due to mutation have
been introduced into wheat production areas in different continents. The migration patterns of wheat rusts are characterized by
identifying their virulence against important rust resistance genes in wheat and by the use of DNA based molecular markers.
DNA based marker systems are important in facilitating selection procedure, aiming more durable and broad spectrum biotic
resistance. Characterization of disease resistance genes has great importance for the transfer of agronomically important genes
to commercial varieties. Gene based molecular markers present an opportunity not only for selection of desired varieties but
also provide the information about sequence polymorphisms in genes. The study to examine the extent of genetic variation
among the diverse rust resistance and susceptible genotypes of wheat and to evaluate DNA based markers for genetic classification
of cultivars of wheat will contribute to determine the divergence between resistant and susceptible varieties and will be helpful
to breeding applications. It will also help the wheat breeders to evolve varieties with diverse genetic background and rust
resistance to achieve sustainability in wheat production.
BTS 02
ROLE OF ARABIDOPSIS THALIANA THYLAKOID LUMEN 18.3 PROTEIN (TLP 18.3)
GENE IN DEVELOPMENTAL PROCESS
Mohammad Israil Ansari1* and Tsan-Piao Lin2
1
Amity Institute of Biotechnology, Amity University Uttar Pradesh, Lucknow-226 010
Institute of Plant Biology, National Taiwan University, Taipei, Taiwan
2
Thylakoid lumen 18.3 kDa protein (TLP18.3) gene (At1g54780) of Arabidopsis thaliana has a domain of unknown function, which
is a family of uncharacterized protein. To examine the developmental regulation of this gene, Arabidopsis thaliana TLP18.3 T-DNA
insertion mutant (SALK_109618) and wild type plant were observed for the effect of ABA, NaCl and mannitol on the germination
of seeds. 50 mM NaCl inhibit germination rate in mutant plants than in wild type plants followed by 0.1 µM ABA and 20 mM
mannitol. But in control condition also mutant plants have less (54%) germination rate than the wild type plant which have
germination 77%. Arabidopsis thaliana TLP18.3 T-DNA insertion mutant plants (SALK_109618) have shown 6-9 days of flowering
delay but after Agrobacterium mediated transformation of Arabidopsis thaliana TLP18.3 T-DNA insertion mutant with pPZP200GBTLP18.3 construct rescued the flowering delay and germination. The translational analysis showed TLP18.3 protein accumulation
in wild type plant of Arabidopsis thaliana and it was not detected in western blot analysis of Arabidopsis thaliana TLP18.3 T-DNA
insertion mutant demonstrating that this protein was absent in mutant plants. For the subcellular localization of Arabidopsis
thaliana TLP18.3, the protoplast of transformed Arabidopsis thaliana TLP18.3 T-DNA insertion mutant after Agrobacterium mediated
transformation with pPZP200GB-TLP18.3 construct which has GFP green fluorescence image and was completely overlapped
with red auto florescence of chloroplast image clearly showed the chloroplast localization of TLP18.3.
93
Abstract
BTS 03
ASSESSMENT OF MOLECULAR DIVERSITY AMONG DIFFERENT ISOLATES OF
COLLETORICHUM FALCATUM CAUSING A RED ROT DISEASE OF SUGARCANE
Adil Iqbal1, Mark Rector Charles1, Neha Agrawal1, Parul Tripathi1, Sulabh Kulshrestha1, Supriya Agrawal1, Anjani Srivastava2,
Ramji Lal2 and Mohammad Israil Ansari1
1
Amity Institute of Biotechnology, Amity University Uttar Pradesh, Lucknow-226 010,
Indian Institute of Sugarcane Research, Lucknow-226002
2
Red rot disease of sugarcane caused by Colletotrichum falcatum is the most dangerous disease of sugarcane. For the rapid identification
of different isolates of C. falcatum, we have standardized the techniques for the quick isolation of DNA from the fungus C. falcatum
and followed by the Random Amplification of Polymorphic DNA (RAPD). In this study we have used five different isolates
collected from the different locations of northern India. Total DNA isolated from five isolates of Colletotrichum falcatum, when
subjected to PCR using five different RAPD primers revealed 73 DNA fragments. RAPD data analyzed by the unweighted pair
group method with arithmetic means analysis (UPGMA) for the genetic similarity indicated separate on these isolates into two
distinct clusters. Pathotypes-specific band generated by the RAPD will be used for developing the pathotype identification in red
red infected sugarcane.
BTS 04
FOOD SAFETY ISSUES IN INDIAN ECONOMY – CHALLENGES AND STRATEGIES
Lav Srivastava
SDSN Degree College, Lucknow, Uttar Pradesh
Email: lav22srivastava@yahoo.co.in
Though India has achieved self-sufficiency in food production and its fluctuations but could not solve the problem of chronic
household food insecurity. This necessitated a change in approach and as a result, food energy intake at household level is now
given prominence in assessing food security. It has become common practice to estimate the number of food insecure households
by comparing their calorie intake with required norms. However, the widely accepted norms of the level of calorie intake
required for overcoming under-nutrition have been questioned. Climate change has laid major impact on agriculture. The
implications of climate change on agriculture and vice versa need to be studied and a dedicated research programme should be
initiated to combat global warming. A strong need for policy for India’s food security with an objective to ensure availability of
food grains to the common people at an affordable price would enable the poor to have access to food. It would focus essentially
on growth in agriculture production and on support price for procurement and maintenance of rice and wheat stocks. Minimum
Support Price (MSP) stood as procurement price rather than being a support price to ensure minimum production. The rich
farmers and traders have cornered most of the benefits under the support price policy. To reduce the fiscal deficit, the government
has sought to curtail the food subsidy bill by raising the issue price of food grains and linking it to the economic cost at which
the FCI supplies food grains. The low quality of PDS grains and the poor service at PDS shops have forced many people to
switchover to market, which offers better quality grains, allows purchase on credit and ensures flexibility to purchase in small
quantities. There is a great need to shift from existing expensive, inefficient and corruption ridden institutional arrangements to
those which can ensure cheap delivery of requisite quality grains in a transparent manner. Avoid wide fluctuations in prices and
prevent distress selling by small farmers, futures market can be encouraged thus phasing out high MSP concept. Crop insurance
schemes can be promoted with government meeting a major part of the insurance premium to protect the farmers against
natural calamities. Restrictions on food grains regarding inter – state movement, stocking, exports and institutional credit and
trade financing should be renounced. Free trade would help reducing supplies, increased resource-use. To achieve cent per cent
literacy, the food security need can be productively linked to increased enrolment in schools. Food coupons may be issued to
poor people depending on their entitlement. Decentralization of procurement through the creation of food grain banks in each
block/ village of the district, from which people may get subsidized food grains against food coupons. The food coupons can be
numbered serially to avoid frauds. However, instead of concentrating only on rice or wheat, the food crop with a potential in the
area must be encouraged. Creation of necessary infrastructure like irrigation facilities will also simulate private investments in
agriculture. The focus on accelerated food grains production on a sustainable basis and free trade in grains would help create
massive employment and reduce the incidence of poverty in rural areas. This will lead to faster economic growth and give
purchasing power to the people.
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Biotechnology
BTS 05
PCR BASED DETECTION OF YELLOW MOSAIC VIRUS CAUSING YELLOW MOSAIC
DISEASE IN DOLICHOS PLANT
Deepika Gautam1 and Rais Ahmad2
1
Babasaheb Bhimrao Ambedkar Central University, Lucknow,
Email: deepgautam87@gmail.com
2
Biotechnology Research Foundation, Kanpur- 208024
Dolichos (Lablab perpureus L.(sweet) known as Dolichos bean, Hyacinth bean, field bean or Sem is one of the most ancient crops
among cultivated plants and is a native to India or South-East Asia. Since 1950s cultivation of dolichos in India has been affected
by dolichos yellow mosaic disease and the causal agent of the disease was first identified as a geminivirus based on electron
microscopy .The virus was named as Dolichos yellow mosaic virus (DYMV) and shown to be transmitted by the whitefly (Bemisia
tabaci). The infected leaves showed characteristics yellow mosaic symptoms that included faint chlorotic specks on leaf lamina,
which later develop into bright yellow mosaic patches with small islands of green tissue and mottling. Leaf distortion was also
observed. In the present study six primer pairs (viz. DAC1 F/R, DAC2 F/R, DAC3 F/R, DAC4 F/R, DAV1 F/R, DAV2 F/R) were
designed and tested in PCR for the detection of DYMV infected leaf of dolichos. Four primer pairs (viz. DAC1 F/R, DAC2 F/R,
DAC3 F/R and DAC4 F/R) gave positive results whereas two primer pairs (DAV1 F/R and DAV2 F/R) failed to give desired
results indicating that former primer pairs can be used for the detection of DYMV.
BTS 06
SOMACLONAL VARIATION AS TOOL OF CROP IMPROVEMENT
Saumya Choudhary, Anamika Pandey, Mohd Kamran Khan, Sheeba Khan and Pragati Mishra
Sam Higginbottom Institute of Agriculture, Technology & Sciences, Department of Molecular & Cellular Engineering,
Allahabad-211007,
Email: saumyachoudhary.biotech@gmail.com
Genetic variability is an essential component of any breeding program designed to improve the characteristics of crop plants.
Plant breeders have been quick to recognize potentially useful source of genetic variability. The variability generated by the use
of a tissue culture cycle has been termed somaclonal variation. Plant tissue culture cycle has provided a new and exciting option
for obtaining increased genetic variability relatively rapidly and without sophisticated technology. A tissue culture cycle
involves the establishment of a more or a less differentiated cell or tissue culture under defined culture condition, proliferation
for a number of cell generations and the subsequent regeneration of plants. Two schemes, with and without in vitro selection
have been generally followed for getting somaclonal variation in a crop plant .The factors influencing somaclonal variation in
both selections are genotype, explant source, duration of cell culture & condition. Karyotype changes, changes in chromosome
structure, single-gene mutations, cytoplasmic genetic changes, mitotic crossing over, gene amplification, nuclear changes and
transposable elements forms the basis of somaclonal variation. Somaclonal variation has successfully played its role in production
of novel variants. In India, two varieties namely Pusa Jai Kisan in mustard Brassica & CIMAP/Bio13 in Citronella have been
released so far. It has also played pivotal role in growth of disease resistance, biotic stress resistance, salt tolerance, drought
tolerance & alien gene introgression. It is free from the regulatory hurdles that guards recombinant DNA technology. It can be
directly transferred to field and can be evaluated as a part of ongoing breeding program. One exciting opportunity is to link
mutagenesis and somaclonal variation. In the next 5 years, somaclonal variation should widely be used as a tool of crop
improvement.
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Abstract
BTS 07
GENETIC DIVERSITY BASED ON MICROSATELLITE MARKERS IN MUNGBEAN
MUTANT LINES
S. K. Singh2, G. Roopa Lavanya1*, K. V. Bhat3, G. Suresh Babu, P. Ashok Reddy1, Pronob Jyoti Paul and Yuv Raj Yadav
1
Department of Genetics and Plant Breeding, Allahabad School of Agriculture
Sam Higginbottom Institute of Agriculture Technology and Sciences, Allahabad-211 007, Uttar Pradesh
2
National Bureau of Plant Genetic Resources Regional Station, Umiam-793103, Meghalaya, India
3
NRC on DNA Fingerprinting, NBPGR, Pusa Campus, New Delhi-110012, India
Email: lavanya.roopa@gmail.com
Estimation of genetic diversity in a crop species is prerequisite for its improvement. DNA markers provide an opportunity to
characterize genotypes and to measure genetic relationships precisely than other markers. Microsatellite markers are one of the
most popular genetic markers due to their characteristic features like high polymorphism, co-dominance, abundant
uniformativeness, convenience of assay by PCR and distribution throughout the genome. The use of germplasm with distinct
DNA profiles helps to generate breeding populations with broad genetic base. In the present study, SSR markers were used to
analyze the genetic diversity of 30 mutant lines along with its parent PUSA-9072. A total of 8 primers were used for STMS
analyses and 9 alleles were generated and the number of alleles per SSR primer ranged from 1 to 2 with an average of 1.15 per
primer. The size of the amplification products varied in case of each primer and the range was 50bp to 250 bp. The dendrogram
constructed based on SSR data using average linkage, grouped the mutant lines into two different clusters having all the mutants
in one cluster and the parent in other. Clustering pattern based on SSR marker data indicated that there is a narrow genetic base
of mungbean mutant lines. The absence of polymorphism indicates that the mutation were not on the tandem repeat region. The
results indicate the usefulness of SSR in the assessment of genetic diversity in plants.
BTS08
PRODUCTION AND CHARACTERIZATION OF RECOMBINANT LIPASE FROM ORYZA
SATIVA FOR ITS EFFECTIVE USE IN FOOD INDUSTRY
P. K. Singh and R. P. Pandey
Department of Molecular and Cellular Engineering, Jacob School of Biotechnology and Bioengineering, Sam Higginbottom
Institute of Agriculture, Technology & Sciences, Allahabad
Email: pankaj.singh325@gmail.com
Lipase is a unique lypolytic enzyme that directly catalyses lipids and fats. It is third most important enzyme after proteases and
carbohydrate degrading enzymes. Though seed lipases are specific in activity they were not much explored. The present work
aims to develop a cost effective method to produce large amount of lipase using techniques of genetic engineering. The gene
responsible for lipase in rice is cloned in a bacterial host (Escherichia coli) for mass production. Total RNA was isolated and
amplified cDNA of lipase gene was obtained using PCR. The entire encoding region for Oryza sativa lipase gene was cloned in
host cell E.coli using expression vectors. The purified fusion protein showed a band approximately 40-45 kDa on SDS respectively.
The optimum pH and temperature of the enzyme activity were pH 9.3-11 and 37°C respectively. The enzyme exhibited the
highest affinity and catalytic efficiency to lipid substrate. Moreover, the protein displayed higher lipase activity towards olive
oil and butyric acid. Lipases produced in extracellular production media show more efficiency in terms of both activity and
amount. Some activators proved to be efficient in enhancing the activity whereas many others suppressed their activity. These
results show that lipase is an enzyme with broad specificity for lipid substrates and they yielded significant insight into the
physicochemical properties and the dynamics of lipase which helps cost effective production of specific seed lipases to be used
in food, dairy and cosmetic industry
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Biotechnology
BTS 09
IN VITRO REGENERATION OF VIRUS FREE PLANTLETS FROM POTATO (SOLANUM
TUBEROSUM) THROUGH MERISTEM CULTURE
A. K. Vishvakarma
Department of Molecular and Cellular Engineering, Jacob School of Biotechnology and Bioengineering, Sam Higginbottom
Institute of Agriculture, Technology & Sciences, Allahabad
Email: kmrarbind@gmail.com
Potato is chief vegetable, good source of carbohydrate and staple food crop in many countries. Potato viruses impose threat of
crop loss which can be checked by development of virus free potato seeds by meristem culture. Present study aims to develop the
same. In order to produce virus free potato seeds, in vitro culture was established using apical meristem of a widely cultivated
potato (Solanum tuberosum) variety. Meristem of this variety of potato was cultured for shoot proliferation and evaluation of
virus elimination in MS medium supplemented with different types and concentration of phytohormones. Among the different
growth regulator formulations, 1.0 mg /l GA3+0.01 mg /1 NAA was found to be the best medium for the primary establishment
of meristem. The primary established meristems were subcultured to MS medium containing NAA and IBA singly or in
combinations. Considering all the treatments, the use of IBA (5.0 mg/ 1) is recommended for proper shoot development from
primary meristem. After DAS-ELISA test the virus free in vitro grown potato plantlets were used for massive micropropagation.
GA3 and NAA individually or in combinations are used for shoot multiplication; among all these combinations 1.0 mg / 1 GA3
was found to be the best media for shoot induction for the studied variety. Visual evaluation of the morphological trials of the
tissue culture derived plants showed all plants were found normal and free from virus diseases.
BTS 10
TRANSGENICS IN CROP IMPROVEMENT
Sheeba Khan1, Anamika Pandey1, Mohd. Kamran Khan1, Saumya Choudhary1 and Preetam Verma2
1
Sam Higginbottom Institute of Agriculture, Technology & Sciences, Department of Molecular & Cellular Engineering,
Allahabad-211007
2
Motilal Nehru National Institute of Technology, Allahabad
Email: khan.sheeba778@gmail.com
Transfer of genes, between plant species has played an important role in crop improvement for many decades. Plant improvement,
whether as a result of natural selection or the efforts of plant breeder, has always relied upon evolving, evaluating and selecting
the right combination of alleles. The overall process of genetic transformation involves introduction, integration and expression
of foreign genes in the recipient host plant. The development of transgenic plants is the result of integrated application of rDNA
technology, gene transfer methods and tissue culture techniques. These techniques have enabled the production of transgenic
plants in food, fiber, fruit and vegetable crops. It has become a source of agriculture innovation. The first generation application
of genetic engineering to crop agriculture has been targeted towards generation of transgenic plants conferring resistance to
viruses, insects, herbicides or post harvest deterioration and accumulation of useful modified products.
BTS 11
CLONING OF HEAVY METAL GENE FROM COTTON FIBER IN TO ARABIDOPSIS
(WEED) PLANT
Shweta Tiwari
Department of Biotechnology, SCMAT, Kanpur
Email: shwetatiwarimbt@gmail.com
The Cotton Fiber is a Shrub Native to Tropical and Sub Tropical region around the worlds, including the Africa, America and
India. The Fiber most often is Spun into Yarn or Thread and used to make a soft, breathable textile, which is the most widely used
natural fiber Cloth in Clothing today. A drastic and incredible increase in the production of cotton is attributed to the invention
of textile machinery and development of different cotton varieties, along with various chemical to bring down the impact of
pests and insects. Also availability of synthetic fertilizer accrued production by improving the fertility of soil. For the functional
characterization of gene it needs to be cloned in a vector and transformed in plant, either by particle bombardment techniques,
vectors based and Agrobacterium tumifaciens mediated. The heavy metal gene was amplified from cotton fiber by use of gene
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Abstract
specific primer. For the directional cloning need to over hangs of nucleotide at 3’-5’ end of the PCR amplified product. For blunt
end ligation in SK+ plasmid Eco RV enzyme is used.
BTS 12
PHYTOCHEMICAL STUDIES OF DIFFERENT PHASES OF GERMINATION OF NIGELLA
SATIVA BY THIN LAYER CHROMATOGRAPHY
Aisha kamal, Nazia Farooqui, Hayatul Islam and Iffat Zareen Ahmad
Department of Biotechnology, Integral University, Dasauli, Kursi Road, Lucknow, India.
The present paper deals with the phytochemical screening of therapeutic importance from Nigella sativa L., an important medicinal
plant, in different phases of seed germination. This study involves qualitative thin layer chromatographic separation of secondary
metabolites from the seeds and different germination phases of N. sativa. The data of qualitative separation of N. sativa seeds
during germination by thin layer chromatography has revealed the presence of four bands of sterols, seven bands of alkaloids
and phenols, five bands of flavonoids and seven bands of glycosides in the tested samples. The data generated from this analysis
have provided the chemical basis for the wide use of this plant in germinating stages as therapeutic agent for treating various
ailments both in the traditional and folk medicines.
BTS 13
PCR-RFLP ANALYSIS OF THE INTERNAL TRANSCRIBED SPACER (ITS) REGION
FOR IDENTIFICATION OF ENDOPHYTIC FUNGI OF SUGARCANE
Sangeeta Srivastava1, Prashant Shekhar Gupta1, Ankita Chaturvedi1, Sunita Lal2, and O.K.Sinha3
1
Division of Crop Improvement, 2Division of Crop Protection, 3Project Co-ordinator, AICRP(S), Indian Institute of Sugarcane
Research, Lucknow- 226002.
Email: sangeeta_iisr@yahoo.co.in
Molecular genetic studies are increasingly having a major impact on the current systematics of the endophytic fungi. Among
these, molecular methods based on the analysis of RFLP of the DNA that encodes the ribosomal RNA genes and the non-coding
ITS and IGS regions have proved useful for the identification as well as differentiation of closely related species and measuring
close phylogenetic relationships of many fungal species. In the current study, we report the use of the polymerase chain reaction
and restriction fragment length polymorphism analysis of the internal transcribed spacer region of the ribosomal DNA for the
identification of endophytic fungi in sugarcane. These endophytic fungi belonging to Colletotrichum falcatum, Fusarium moniliforme,
and Trichoderma viride were collected from meristematic tissues of sugarcane and grown on potato dextrose agar medium. The
mycelium was harvested for DNA extraction and PCR amplification of rRNA gene fragment containing ITS1, ITS2 and the 5.8S
rRNA gene. The amplification product profile showed molecular size range of 584 - 698 bp. Purified PCR products of each isolate
were digested with the restriction enzymes Alu I, EcoRI, Bam H I, MSe I and Sma I. Three types of RFLP patterns were resolved.
The restriction patterns of amplified rRNA obtained with Alu I and Mse I enzyme presented the best profile to identify these
endophytic fungi. The size of the PCR amplification products, combined with the restriction analysis using endonucleases Alu
I and MSe I, could be used as a rapid method to identify the species.
BTS 14
ROLEOF FOOD SAFETY MANAGEMENT IN MAXIMIZING THE PROFIT FOR FOOD
INDUSTRY
Asif Anasri1, Vikas Kumar2, Enespa3, Chhtarapal Singh4, Preeti Gautam5 and Harivans Kumar Bhargava6
1
Amity Institute of Agri-business, Amity Business School, Amity University, Mango Orchard Campus, Lucknow, Uttar
Pradesh-226010
2
Indian Veterinary Research Institute, Izatnagar, Bareilly, Uttar Pradesh- 243122
3
Department of Environmental Science, Babasaheb Bhimrao Ambedkar (A Central University), Lucknow, Uttar Pradesh-226025
4, 5&6
Department of Environmental Microbiology, Babasaheb Bhimrao Ambedkar (A Central University), Lucknow, Uttar
Pradesh-226025 Email: asif.abm@gmail.com and vs1744@gmail.com
Food safety means assurance that food is acceptable for human consumption according to its intended use and Food Safety
Management System means the adoption of Good Manufacturing Practices, Good Hygienic Practices, Hazard Analysis and
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Critical Control Point and such other practices as may be specified by regulation, for the food business (Food Safety and
Standards Act 2006). Food safety is a global issue affecting billions of people who suffer from diseases caused by contaminated
food. This is one of the most widespread health problems and an important cause of reduced economic productivity. Both
developed and developing countries share concerns over food safety as international food trade and cross-border movements of
people and live animals increase. Governments worldwide are intensifying their efforts to improve food safety by updating
national food regulatory systems. The food industry is putting in place modern food safety management systems (FSMS) to
satisfy customers and consumers. The situation of food safety in developing countries in the Asia-Pacific region
BTS 15
STUDY ON FOOD MICROBIOLOGY AND FOOD PRODUCT AT TAJ MILK FOOD
LIMITED, SAMBHAL DISTRICT, MORADABAD (UTTAR PRADESH)
Chhatarpal Singh1 Vikas Kumar2, Preeti Gautam3 and Enespa4
1
Department of Environmental Microbiology, Babasaheb Bhimrao Ambedkar University, Vidya-Vihar Rae-bareli Road,
Lucknow-226025.
2
Division of Pathology, Indian Veterinary Research Institute, Izatnagar, Bareilly-243122. 3Department of Environmental
Microbiology, Babasaheb Bhimrao Ambedkar (A Central University), Vidya-Vihar Rae-bareli Road, Lucknow-226025.
4
Department of Environmental Science, Babasaheb Bhimrao Ambedkar (A Central University), Vidya-Vihar Rae-bareli Road,
Lucknow-226025
Email: cpsingh2012@gmail.com and vs1744@gmail.com
This study was carried out at the Department of Industrial Microbiology, S.M.P.G College, Chandausi; Moradabad (U.P) in
collaboration with Taj Milk Foods Limited industry is located at Sambhal, Moradabad (Uttar Pradesh), India during the academic
session 2009-10. Good bacteria, such as probiotics are becoming increasingly important in food scien ce. In addition;
microorganisms are essential for the production of foods such as cheese, yogurt, other fermented foods, bread, beer and wine.In
other word we can say that microbiology is the study of how we can identify the micro-organism and culture them, how they
live, how some infect and cause disease and how we can make use of their activities. Powdered milk is a manufactured dairy
product made by evaporated milk to dryness. The purpose of drying milk is to preserve it; milk powder has a far longer shelflife than the liquid milk and does not need to be refrigerated, due to its bulk for content. Another purpose is to reduce its bulk
for economy of transportation. Powdered milk and dairy products include such items as dry whole milk, non-fat dry milk, dry
buttermilk, dry whey products and dry dairy blends.Milk powdered contain all twenty standard amino acids (the building
blocks of proteins) and are high in soluble vitamins and minerals. Powdered milk is frequently used in the manufacture of infant
formula, confectionery such as chocolate and caramel candy and in recipes for baked goods where adding liquid milk would
render the product too thin, it is also used in various sweets such as the famous Indian milk balls know as Rasa- Gullah.
Milk is concentrated up to 45-48% solid concentration in Multiple Effects Falling Film Evaporator with TVR system, the initial
solid in the milk varies from 7.5 to 12.00% depending upon type of milk and the final moisture in the powder ranges between
2.5% and 4.00%. Since drying is an energy intensive process, there are the following operational plants are used to make it energy
efficient like, Multistage evaporator, Spray Dryer and Vibro Fluid Bed Dryer as second stage dryer. Food product is any
substance that can be used or prepared for use as food for human consumption is termed as food product; there is different food
product which has been made at Taj Milk Food Limited industry plant.The experimental material consists of the following
operational plants are used to make it energy efficient, there are following apparatus were used under present investigation are,
Multistage Evaporator, Spray Dryer and Vibro Fluid Bed Dryer. The observations are recorded on the basis of various parameters,
Moisture (in %) Solubility Index (ml), Scorched Particles, Wettability (Sec. Max.), Bulk Density (g/cc), Dispersibility (in %). On
the basis of present investigation the area of the spherical polygon which is a projection of the rectangular sheet of milk, it is
found that the milk subtends 49 % of the solid angle about the area in the near hemisphere. Similarly, by calculating the spherical
area of the projection of the reflector we find that it subtends 70% of the solid angle about the area in the far hemisphere.
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Abstract
BTS 16
IN VITRO PLANT REGENERATION STUDIES IN CLUSTER BEAN (CYAMOPSIS
TETRAGONOLOBA (L.) TAUB.)
Swati Verma1, Nagesh K. A.1, Vikas Pruthi1, Kanwarpal Singh Dhugga2, Kulvinder Singh Gill3 and G. S. Randhawa1
1
Department of Biotechnology, Indian Institute of Technology Roorkee, Roorkee-247667, India
Crop Research & Development, 7300 NW 62nd Avenue, Johnston, IA 50131, U. S. A.
3
Department of Crop & Soil Science, Washington State University, P O Box: 646420, Johnson hall, 277, Pullman,
WA 99164-6420,US.
Email: 160287swati@gmail.com, sharnfbs@iitr.ernet.in,
2
Cluster bean popularly known as guar is a drought tolerant annual subtropical legume. Its emergence as a multipurpose cash
crop is due to the presence of gum (galactomannan) in its seed endosperm. Amongst all other guar producing countries, India is
a major contributor amounting to about 80% of world’s total production. Though guar is an important commercial crop,
biotechnological approaches have not been significantly utilized for its improvement. Plant tissue culture studies offer great
potential for in vitro manipulations like genetic transformation and embryo rescue in plants. Guar is recalcitrant with respect to
regeneration and transformation. Also, easily transformable varieties do not undergo rooting in vitro. In the present study, a
protocol for in vitro plant regeneration was standardized in guar. There is no report of transformation in cultivated Indian
varieties, for which an efficient regeneration system is needed to be standardized first. In the present study hypocotyl, cotyledon
and cotyledonary node explants were used for regeneration experiment. During the culture, shoot regeneration was observed
from cotyledonary node explants but cotyledon and hypocotyl explants showed extensive callus proliferation only. Cotyledon
explants showed direct root regeneration except shoot regeneration in the presence of kinetin as plant growth regulator.
Expansion was observed in the size of cotyledonary node explants for initial 3-4 days, callus proliferation (green in colour) for
next 10-15 days and shoot induction was observed after about 25 days in the presence of N6-benzylaminopurine and 2,4dichlorophenoxyacetic acid in the medium. Induction of chlorophyll deficient shoots was also observed in cotyledonary node
explants. The dwarf regenerated shoots elongated about 2.5-3.0 cm in the presence of gibberellic acid in medium. Root initiation
was observed after about 10 days of transfer of shoots to MS medium supplemented with 4 per cent sucrose and indole-3-butyric
acid. After root initiation, it took another 25 days for the formation of complete plantlet with well established root and shoot
system. After one month the plantlets were transferred to cocopeat mixture for hardening under the conditions of adequate
humidity.
BTS 17
PCR BASED DETECTION OF PHYTOPATHOGENIC FUNGI IN STORED FOOD
Malik M. Ahmad1, Mahboob Ahmad2, Rifat Hamid2, Saleem Javed2 and M. Z. Abdin1*
1
Centre for Transgenic Plant Development, Dept. of Biotechnology, Faculty of Science, Jamia Hamdard, New Delhi-110 062
Molecular Biology and Biotechnology Lab, Dept of Biochemistry, Faculty of Science, Jamia Hamdard, New Delhi-110 062
Email: mzabdin@rediffmail.com
2
Aspergilli are weak opportunistic pathogens of 40-50% agricultural crops. In particular, Aspergillus flavus and A. parasiticus infect
many crops such as maize, cotton, groundnuts, as well as tree nuts such as Brazil nuts, pecans, pistachio nuts, and walnuts. These
have evolved a battery of mechanisms to breach the resistance of host plant which can be shown by their ability to attack seeds
of both monocots and dicots, and to infect pre and post-harvest seeds produced both above and below the ground. They often
contaminate foodstuffs and feedstuffs by producing mycotoxins that threaten humans and animals, and cause heavy losses of
crops. Out of 300 different mycotoxins, aflatoxins has been clustered under Group I type (most carcinogenic) by the WHO.
Although aflatoxin contamination of agricultural products still occurs in the developed world, their detection is a major problem
in developing countries where contaminated food commodities may readily reach food stores and homes. In the developing
world, where climatic and crop storage conditions are frequently conducive to fungal growth and mycotoxin production, much
of the population relies on subsistence farming or on unregulated local markets. The extent to which mycotoxins affect human
health is difficult to investigate in countries whose health systems lack capacity and in which resources are limited. Thus, food
safety remains an important opportunity for addressing current health problems in developing countries. The development of
sophisticated kits for the detection of minute amounts of aflatoxins is the most important step towards safer foods and feeds in
these countries. Aflatoxin-producing fungi (A. flavus, A. parasiticus) were grown in potato dextrose agar (PDA) at 28±2 °C for 3
days. Their ability of producing aflatoxin B1 was confirmed for production by HPTLC. After optimization of in vitro amplification
conditions of aflP gene, their sensitivity was evaluated by serially diluting the DNA. As little as 100 fg of A. flavus and that of 1
pg ìl-1 of A. parasiticus diluted DNA was amplified by PCR, the amplification showed that the sensitivity was higher for the latter
fungal DNA than the A. flavus. The primers designed showed high specificity by amplifying only aflatoxigenic fungal cultures
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(A. flavus and A. parasiticus) while the A. versicolor, Fusarium oxysporum and Tricoderma spp. (non-aflatoxin producers) showed no
amplification. Amplification of serially diluted (102-108) fungal spores revealed the detection of A. flavus and A. parasiticus with
as low as 104 fungal spores whereas spore contaminated peanuts showed the threshold limit with 10 8 spores at 0 h. Conclusively,
the developed method is fast, reliable, specific and much more sensitive than other conventional methods used for the detection
of aflatoxin producing species prior to the toxin production.
BTS 18
INSIGHTS TO DIVERSITY OF DNA BINDING WITH ONE FINGER (DOF)
TRANSCRIPTION FACTOR GENES IN CEREALS AND MILLETS
Dinesh Yadav1*, Shubhra Gupta1, Hariom Kushwaha2, Vinay Kumar Singh3, Naveen C Bisht4 and B. K Sarangi5
1
Department of Biotechnology, Deen Dayal Upadhyaya Gorakhpur University,
Gorakhpur (Uttar Pradesh), INDIA ,2Department of Biotechnology, Integral University, Lucknow (Uttar Pradesh), INDIA,
3
School of Biotechnology, BHU, Varanasi (Uttar Pradesh), INDIA ,4National Institute of Plant Genome Research, New Delhi,
INDIA ,5Environmental Biotechnology Division, NEERI, Nagpur, Maharashtra 440 020, India
* E-mail- dinesh_yad@rediffmail.com
Regulation of gene expression is manifested at several levels namely chromatin conformation, transcriptional, post-transcriptional,
translational, post-translational modification, protein localization and protein turnover though the transcriptional control is
considered to be the most significant of all involving interaction of diverse group of transcription factors(TFs) with variable cisregulatory elements of different genes. Identification, characterization and classification of transcription factors at the genome
scale provide an important resource for study of mechanism of gene expression and regulation. The plant transcription factor
database comprises of more than 53,319 putative TFs predicted from 49 species.The Dof (DNA-binding with one finger) genes are
members of a family of plant-specific transcription factors that have a highly conserved DNA-binding Dof domain. The proteins
of Dof family comprises of 200–400 amino acids having a highly conserved domain (Dof domain) of 50-52 amino acids including
a C2C2-type zinc-finger motif at N-terminal end. Dof transcription factors have been shown to be widely distributed in the plant
kingdom, including unicellular algae, moss, and vascular plants and involved with diverse functions. In our lab genome wide
identification, in silico prediction and characterization of whole set of Dof gene family of recently sequenced sorghum genome
has been attempted. The cloning and functional validation of the predicted Dof genes is in progress. The importance of analyzing
the whole sets of transcription factors is quite relevant based on shift from gene centric to genome centric approach for crop
improvement with the increasing availability of whole genome sequences of various crops in the days to come.
BTS 19
THE ROLE OF BIOTECHNOLOGY IN CROP DEVELOPMENT
Zaid Imam
Saaii College of Medical Science And Technology, Kanpur
EMail: Zaidbiotech48@gmail.com
Biotechnology is one of the best hopes for solving the food needs of the poor today, when we have 6 billion people in the world,
and certainly in the next 30 to 50 years, when there will be 9 billion on the globe. Molecular biology techniques, such as the use
of DNA markers and genomics, are providing valuable insights into the dynamics of biodiversity in crop plants, and thus
helping our efforts to understand crop evolution and relatedness between different varieties, thus enabling the intelligent use of
the available biodiversity. Genetic engineering is the insertion of a segment of DNA containing one or more genes from one
organism into a chromosome of another organism. So far, there have been about 50 different food crop approvals for genetically
engineered varieties (U.S.FDA, 2000). Some examples are the S-adenosylmethionine hydrolase gene from a bacterium which
was added to cantaloupe to control ripening, the Phosphinothricin acetyltransferase gene from another bacterium which confers
Glufosinate (Roundup©- an herbicide) tolerance, and the potato that is insect resistant with the cryIIIA gene from Bacillus
thuringiensis (Bt) sp. tenebrionis (another bacterium). Now a day’s many transgenic plants developed to cope of from many stress
condition. Osmotin is the key player in both abiotic and biotic stress responses, and also many transgenic plants are produced
with the overexpression of osmotin for biotic and abiotic resistance. Recombinant DNA techniques have already been used to
develop “environmentally-friendly” crop plants with traits that preserve yields and allow farmers to reduce their use of
synthetic pesticides and herbicides. The next generation of products promises to provide even greater benefits to consumers,
such as enhanced nutrition, healthier oils, enhanced vitamin content, longer shelf life and improved medicines. Through
judicious deployment, biotechnology can also address environmental degradation, hunger, and poverty in the developing
world by providing improved agricultural productivity and greater nutritional security.
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Abstract
BTS 20
APPLICATION OF MICROSATELLITE TO DISTINGUISH INTER-VARIETALS OF
BERBERIS LYCIUM ROYLE COMPLEX
Vivek Tripathi1*, Sandhya Goswami2 and Himanshu Awasthi3
*1Delhi Technological University Bawana Road-Delhi, India 2National Botanical Research Institute ,Rana Pratap MargLucknow, India
3
Amity University Uttar Pradesh, Virajkhand-5 Lucknow, India
The simple sequence repeat (SSR) or microsatellite marker is currently the preferred molecular marker due to its highly
desirable properties. The aim of this study was to develop and characterize more SSR markers because the number of SSR
markers currently available in medicinal plants is very limited. Hundred DNA sequences of medicinal plants were searched for
SSRs and analyzed for the design of PCR primers. Of the 58 pairs of SSR primers screened against a set of 20 accessions of four
varieties of Berberis lycium Royle Complex , 30 pairs produced the expected DNA fragments in their PCR products, and 28 of them
were polymorphic with the polymorphism information content (PIC) ranging from 0.09 to 0.67. Among the polymorphic loci,
2-6 SSR alleles per locus; 49.2% of these loci had two alleles and 33.8% had three alleles. The vast majority (93.8%) of the
microsatellite loci contained di-or tri-nucleotide repeats and only 6.2 % had tetra and penta-nucleotide repeats. It was also found
that GC/CG was the most frequent type of repeat, and the polymorphism information content (PIC) was positively correlated
with the number of repeats. The 20 accessions of four varieties of Berberis lycium Royle Complex were clustered based on the
banding patterns generated by the 28 polymorphic SSR loci. Since the markers developed in this study was primarily from
expressed sequences, they can be use not only for molecular mapping, cultivar identification and marker assisted selection, but
for identifying gene-trait relations in genus Berberis.
BTS 21
STUDIES ON PERFORMANCE OF EARLY ELITE RICE CULTURES UNDER DIRECT
SEEDED CONDITIONS FOR YIELD AND QUALITY TRAITS
Tej Pratap Singh, A.K. Chaurasia, Gideon J. Synrem and Suhel Mehandi
Department of Genetics and Plant Breeding,Allahabad School of Agriculture, SHIATS, Allahabad-211007, Uttar Pradesh, India.
Email: synrem.gideon@gmail.com
An experiment entitled “Studies on performance of early elite rice cultures under direct seeded conditions for yield and quality
traits.” was conducted in kharif 2009 at the Field Experimentation Centre, Department of Genetics and Plant Breeding, Allahabad
School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology & Sciences, Allahabad. The material used during
the experiment was 23 rice genotypes procured from Directorate of Rice Research, Hyderabad. The experiment was laid in
Randomized Block Design and the genotypes were replicated thrice. The observations were recorded for 22 characters, of which
15 were quantitative characters viz., days to 50% flowering, number of tillers per hill, number of panicle per hill, number of
spikelets per panicle, panicle length (cm), flag leaf length (cm), flag leaf breadth (cm), plant height (cm), days to maturity,
biological yield /hill (g), grain yield/hill (g), grain yield per plot (kg.), grain yield (q/ha.), harvest index (%), test weight (1000
grains weight), and 7 qualitative characters viz., hulling percentage, milling percentage, head rice recovery (HRR) %, kernel
length of rice (mm), kernel breadth of rice (mm), length/breadth ratio and grain type.The experimental finding on the basis of
analysis of variance revealed the presence of considerable variation among the germplasm for all the 22 characters except for
harvest index. Maximum GCV and PCV for 15 quantitative characters studied was observed in grain yield per plot (26.91/27.63)
followed by grain yield (q/ha) (26.89/27.59) and test weight (22.42/22.48). Coefficient of variation studied indicated that phenotypic
coefficient of variation (PCV) was slightly higher than genotypic coefficient of variation GCV for all the 15 quantitative
characters studied. High estimates of heritability (broad sense) were observed in test weight (99.00) followed by grain yield (q/
ha) (95.00) and grain yield per plot (94.00). Highest and lowest genetic advance as per cent of mean was observed in plant height
(84.58) and flag leaf breadth (0.34) respectively. The characters that show high heritability and high genetic advance are controlled
by additive gene action and can be improved through simple or progeny selection method. Maximum GCV and PCV for 7
qualitative characters studied was observed in head rice recovery (20.81/20.88) followed by L/B ratio (13.00/14.29) and kernel
breadth of rice (10.34/12.49). Coefficient of variation studied indicated that phenotypic coefficient of variation (PCV) was
slightly higher than genotypic coefficient of variation GCV for all the 7 qualitative characters studied. High estimates of
heritability (broad sense) were observed in head rice recovery (99) followed by hulling percentage (98) and milling percentage
(96). Highest value of genetic advance as per cent of mean was observed in head rice recovery (21.47) while lowest was observed
for kernel breadth of rice (0.37).
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Biotechnology
BTS 22
SYNTHESIS OF SILVER PHYTO NANOPARTICLES AND THEIR ANTIBACTERIAL
EFFICACY
Poonam Singh, Amit Rastogi and Rohit Lall
Department of Molecular and Cellular Engineering JSBB, SHIATS, Allahabad)
Email: drpoonam.singh1@gmail.com
The synthesis of silver phyto nanoparticles and their antibiogram were included in this study. This is the first attempt of
introducing silver herbal nanoparticle isolation and antimicrobial assessment. It also comprises about the Nanotechnology and
their achievements in silver nanoparticles descriptions and production. The herbal leaves and their medicinal properties were
already discussed in varieties of ayurvedic studies. The herbal leaves like Ocimum sanctum and Vitex negundo were included to
analyze the productivity of nanoparticles. The synthesis of silver phyto nanoparticles were prepared by adding silver nitrate
solution (10-3 M) and the silver phyto nanoparticles were isolated from these herbal leaves. The silver phyto nanoparticles were
collected from each herbal plant and tested their antibacterial activity. The test cultures included in this study were Staphylococcus
aureus, Vibrio cholerae, Proteus vulgaris and Pseudomonas aeruginosa. The pellets obtained were diluted at the concentration of 1:10
and were taken as 25ìl, 50ìl, 100ìl and 150ìl respectively are included in this study. The antibacterial activities of all the herbal
nanoparticles obtained from Ocimum sanctum showed maximum inhibitory rate using 150ìg of these plants extract compared
with Vitex negundo. The silver nanoparticles from herbal leaves showed a good antibacterial activity than the plants used.
Further studies needed to find out the efficacy, longevity and toxicity to improve the current investigation.
BTS 23
MULTIPLE SHOOT INDUCTION FROM THE SHOOT TIP EXPLANTS OF CUCURBITA
MAXIMA
Swapanil Yadav, Shivangi Sharma, Sneha Saxena and Aquil Ahmad
Bioarc-Society of Biotechnology and Microbiology, Gandhi-Faiz-e-Aam College, Shahjahanpur-242001, Uttar Pradesh
Email: bioarcsociety@gmail.com
The present study was carried out to study the effect of different phytohormones on rate of multiplication of Cucurbita maxima
during in vitro micropropagation. Shoot tip explants were cultured on Murashige and Skoog (MS) medium supplemented with
different BAP, Kinetin and NAA at various levels of concentration and their combination for shoot proliferation. The proliferation
rate, shoot quality and other parameters studied indicate that the optimal treatment was 2 mg/l BAP. Shoots were rooted most
effectively in half strength MS medium supplemented with 5mg/l NAA. Rooted plants were hardened and successfully established
in soil with 90% survival rate.
BTS 24
BIOTECHNOLOGY- THE CURRENT SCENARIO
Kartikey Sharan and Madhuri Singh Priti Kumari
Department of Molecular & Cellular Engineering, Jacob school of Biotechnology and Bioengineering, Sam Higginbottom
Institute of Agriculture, Technology & Sciences, Allahabad-211007
Biotechnology sector is growing. Altogether, around 27,000 people have jobs in the field of biotechnology. Biotechnology has
become the basis and driving factor behind many applications in medicine, the food and feed industry and chemical industry. It
is used in the production of medical drugs, for new diagnosis and therapy concepts, the production of fine chemicals, wastewater
treatment processes or energy production from biomass. Different fields of application have different colors. White or industrial
biotechnology deals with the production of chemical base materials and end products. Biotechnology processes in medical
applications, such as the development of new medical drugs, are called red biotechnology. Green or plant biotechnology is used
to produce plants that are better nutrient producers or renewable resources. Black biotechnology uses microorganisms as energy
suppliers. Black symbolizes the still predominant energy sources of oil and coal. The Federal Ministry for Education and
Research (BMBF) established a specific funding framework for biotechnological research in Germany. At present, there are 25
different ongoing initiatives to financially support universities, research institutes, companies or individual researchers by
specific measures. They target all players in the innovation value chain - from basic and applied research and clinics to startups
103
Abstract
and companies. Furthermore, the BMBF guarantees institutional funding for the four research societies Max-PlanckSociety, Leibniz Association, Helmholtz Association and the Fraunhofer - Gesellschaft, in which a wide range of researchers are
working in biotechnology research.
BTS 25
CLONING OF “GLYCERALDEHYDES 3-PHOSPHATA DEHYDROGENASE(GAPDH)”
GENE
Navneet Srivastava and Akhilesh Kushwaha*
Institute of Transgene Lifesciences, Lucknow
Email: navneetsrivastava2010@gmail.com
This gene(GAPDH) is considered a housekeeping gene(i.e. it always expressed & are involve in basic cell function) because it
codes for an enzyme (GAPDH ) that catalyzes the six step of glycolysis i.e. oxidation of glycereldehyde into high energy
phosphate compound 1,3-bisphosphoglycerate using NAD+ as a cofactor(glycolytic reaction) & thus serves to break down
glucose for energy. The human GAPDH has been found to be highly expressed in 21 different types of cancer & the control of
gylcolysis may play very important role in future cancer therapies. A protein ‘‘Mr 37,000’ whose expressionis strongly enhanced
in human lung cancer tissue is the subunit of glyceraldehydes-3-phosphate dehydrogenase. We can isolate a GAPDH
complementary DNA from human lung cancer cell & deduced the complete amino acid sequence of the encoded protein. In
addition, we have found that GAPDH mRNA expression is markedly increased in human lung cancer tissue. These result disclose
a molecular basis of increased glycolysis in cancer cell & reveal an important role of energy creating reaction in cancer cell
growth.( K. Tokunaga, et al 1987). It has recently been implicated in several non-glycolytic reaction such as transcription
activation & initiation of programmed cell death (apoptosis).Cloning of GAPDH was done to increase the no of GAPDH gene &
we may also perform the sequencing of GAPDH for obtaining the sequence of the gene. The gene sequence will used in studying
their role in metabolic, non-metabolic, drug design and the disease caused by malfunctioning of GAPDH.(S.A. Ismail, 2005) .
BTS 26
CALLUS INDUCTION IN SUGARCANE GENOTYPE
Mohammad Shahid, Anuradha Singh and P.K. Shukla
Department of Biotechnology, B.N.D. PG College, CSJM University, Kanpur
Email: mo.shahid@sify.com
The process of callus culture is very useful in somaclonal variations as numerous cells are obtained from callus that develops on
an injured site of an explant as variation is very less and it occur in any cell hence it becomes necessary to take a number of cells
together and find a variation in the plants. With this an effective somaclone is obtained without much of labour. In this study
there are mainly 3 types of callus formed ; (1) Brownish (2) Creamish and (3) Purple callus Creamish callus are of very good
quality. The callus developed was increased as the concentration of 2, 4-D in the MS medium.
BTS 27
STABILIZING AND TARGETING NATURAL COMPOUNDS BY NANOEMULSION
APPROACH
Syed Mohd. Danish Rizvi1 and Deboshree Biswas2
1-2
Research Scholar, Integral University, Lucknow
Email: danishik786@gmail.com
Natural compounds are becoming more popular in the modern world for their application to cure variety of diseases with less
toxic effects and better therapeutic effects. However, their physicochemical properties generally result in poor chemical stability
and lack of in vivo bioavailability. To obtain the best therapeutic response, the suitable amount of these compounds must be
absorbed and transported to the site of action at the right time and the rate of input can then be adjusted to produce the
concentrations required to maintain the level of the effect for as long as necessary. Incorporation of nanoemulsion approach for
the delivery of natural compounds not only helps to increase kinetic stability and enhance pharmacological activity but also
provide protection from physical and chemical degradation. Nanoemulsions will also help these compounds to be released in
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Biotechnology
controlled and sustained modes, thereby reducing toxicity and dumping. Additionally, depending on the physiochemical
properties of these compounds, nanoemulsions can be structurally engineered to maximize their solubilisation as per the
required route of delivery, which is heavily dependent on their chemical structure. Beside this nanoemulsions have the ability
to solubilize hydrophobic as well as hydrophilic compounds in their nanostructure depending on the type of nanoemulsion. The
Oil/Water nanoemulsions are used for improving delivery of hydrophobic compounds, whereas Water/Oil nanoemulsions are
preferred for incorporating hydrophilic compounds. Furthermore, effective targeting can be achieved by incorporating suitable
homing molecules on their surface, which in turn recognize and bind to specific receptors on the target molecules. Despite all
these advantages, there is still however a considerable amount of fundamental work characterizing the physico-chemical
behaviour of nanoemulsions that needs to be performed before they can live up to their potential as multipurpose natural
compounds delivery vehicles.
BTS 28
PHYTOREMEDIATION OF HEAVY METALS THROUGH TRANSGENIC PLANTS
Amit Kumar Singh1, Neelesh Nandan1 and Shashi Bhushan1
Amity Institute of Biotechnology, Amity University Uttar Pradesh.
Email:shashiascientist@gmail.com
Phytoremediation of heavy metal is a natural, eco friendly, inexpensive, sustainable cleanup process. It involves rhizofiltration,
stabilization, extraction from contaminated soil, water, sediments etc. It promotes remineralization (recycling of minerals),
improves the soil fertility, productivity and utility. It is potentially low cost and alternative to traditional clean-up methods. But
it is slow and less efficient process and property of hyperaccumulation of heavy metals is limited to only few species of plants.
It is well established that we are polluting the environment faster than the natural remediation processes could degrade the
pollutants (especially heavy metals) which enhance passage of contaminants into the terrestrial and aquatic food chains which
may lead to many diseases, complications especially reproductive and deformities in organisms especially in humans. By
genetic manipulation we can transform high-biomass producing, non-edible disease-resistant or disease-tolerant weeds like
Parthenium hysterophorus, Lantana camara, Eicchornia etc into heavy metal hyperaccumulators. This would restrict the passage of
contaminants into the food chain and also provide renewable energy. It could be more efficient and viable alternative to
conventional remediation by promoting phytoextraction of heavy metal at high and efficient rate.
BTS 29
USE OF BIOTECHNOLOGY AND GENETIC ENGINEERING IN FOOD SECURITY AND
BIODIVERSITY CONSERVATION.
Vibhanshu Kumar, Suyash Pandey and Ranjan Kumar
Institute of Biosciences And Biotechnology, C.S.J.M.U. Kanpur
Email: vibhu.doctor@gmail.com
Biotechnology deals with manipulation of genetic constitution (through genetic engineering) of an organism to produce desired
results for human benefit. Food security involves the availabilty of safe nutritious and quantitatively and qualitatively adequate
food for all the people of society. The objective behind the application of biotechnology for food security in developing
countries involves protection of crops against pests and microorganisms’ development of high yielding varieties by incorporation
of such genes in the cultivated varieties which enables them to require low nutrients and provide resistance against stress factors
such as drought and increase their nutritional value (for example: vitamin or mineral deficiency in rice). The approaches involve
extensive study and research of desired characters in the biodiversity and their genetic exposure in the conventionally cultivated
crops. Through Recombinant DNA Technology various characteristics such as production of proteins with antifungal properties
, defense against viruses (from transgene derived from Tungro virus), drought tolerance (so that less cultivated or barren lands
can be used) can be manifested. In many cases application of biotechnology has proved beneficial. In rice, transgenes providing
pro-vitamin A overcomes vitamin A deficiency. Transgenes providing insecticidal properties give eco-friendly pest control in
cotton ( via selected traits of Bacillus thuringeinsis). Gene At-DBF2 from Arabidopsis thaliana provides capability to withstand
environmental stress in tomato and tobacco. Genes from Rhizobium bacteria makes crops naturally nitrogen fixing. Biotechnology
is thus cheaper, less time consuming and more effective in context of food security. It does not invent freakish hybrids but rather
increases yield of cultivated crops. It thus proves indispensable to overcome loss of biodiversity and at same time beneficial to
poor farmers in developing countries.
105
Abstract
BTS 30
CHALLENGING ROADMAP TO NURTURING INDIAN BIOTECHNOLOGY INDUSTRY
Abhishek Kumar
Amity Institute of Biotechnology, Amity University, Uttar Pradesh, Lucknow 226 010, (UP)
Email: kumarabhishek1302@gmail.com
Indian Biotechnology Industry contributes about 2% after global biotech industry and employs more than 20,000 resource
persons with more than 1000 large and small scale industries and institutes. In spite of infrastructure, funds, manpower the
country needs more as India has proved its potential to contribute more by up-gradation, funding options, venture capitalists,
bio-networking, IP development. Various initiatives viz. Small Industry Business Research Initiatives (SIBRI), Biotechnology
Industry Partnership Programme (BIPP), Biotechnology Industry Research Assistance Programme (BIRAP), Biotechnology
Industrial Training Programme (BITP) initiated by Department of Biotechnology, Govt. of India are harnessing its valuable
potential to derive values from technology-led exports and export of technologies. This has enhanced intensively the networking
of capabilities and facilities within the country. Today, Biotechnology is in hands of developed countries with superior technology,
intellectual scientists and good financials etc. that support the industry. In current scenario India is becoming an attraction
ranking 3rd after Japan and Korea in the Asia wrt. FDIs for biotechnology. But to nurture this industry some key factor should
be taken into consideration and stringent actions for their implementation must be taken, such as:
Tough mechanisms and strategic plans for implementation of BT policies like National Biotechnology Development
Strategy.
Provide financial support and to the prioritize biotechnology projects which are commercially exploitable also.
Encourage bionetworking – amongst the biotechnology institutions and industries with corresponding expertise and
skills.
Need to address biosafety and bioethics issues on industry and institutional basis.
Emphasis laid an industry – oriented R&D institution system in the biotechnology area.
Enhance manpower development and create a productive work environment for Scientists, and support to the young
intellects.
Provide special assistance to the least developed countries for global development of biotechnology.
BTS 31
USE OF BIOTECHNOLOGY AND GENETIC ENGINEERING IN FOOD SECURITY AND
BIODIVERSITY CONSERVATION.
Vibhanshu Kumar, Suyash Pandey, Ranjan Kumar.
Institute of Biosciences and Biotechnology; C.S.J.M.U. Kanpur.
Email: vibhu.doctor@gmail.com
Biotechnology deals with manipulation of genetic constitution (through genetic engineering) of an organism to produce desired
results for human benefit.Food security involves the aviability of safe nutritious and quantitatively and qualitatively adequate
food for all the people of society.The objective behind the application of biotechnology for food security in developing countries
involves protection of crops against pests and microorganisms’ development of high yielding varieties by incorporation of such
genes in the cultivated varieties which enables them to require low nutrients and provide resistance against stress factors such
as drought and increase their nutritional value (for example: vitamin or mineral deficiency in rice). The approaches involve
extensive study and research of desired characters in the biodiversity and their genetic exposure in the conventionally cultivated
crops. Through Recombinant DNA Technology various characteristics such as production of proteins with antifungal properties
, defense against viruses (from transgene derived from Tungro virus), drought tolerance (so that less cultivated or barren lands
can be used) can be manifested.In many cases application of biotechnology has proved beneficial. In rice, transgenes providing
pro-vitamin A overcomes vitamin A deficiency. Transgenes providing insecticidal properties give eco-friendly pest control in
cotton ( via selected traits of Bacillus thuringeinsis). Gene At-DBF2 from Arabidopsis thaliana provides capability to withstand
environmental stress in tomato and tobacco. Genes from Rhizobium bacteria makes crops naturally nitrogen fixing.Biotechnology
is thus cheaper, less time consuming and more effective in context of food security. It does not invent freakish hybrids but rather
increases yield of cultivated crops. It thus proves indispensable to overcome loss of biodiversity and at same time beneficial to
poor farmers in developing countries.
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Miscellaneous
MISCELLANEOUS
MIS 01
BIOARTIFICIALS PANCREAS
Priyanka Pandey and Priti Singh
S.N.Sen.B.V.P.G. College, Mall Road, Kanpur
Diabetes mellitus often simply referred to as diabetes—is a condition in which a person has a high blood sugar (glucose) level
as a result of the body either not producing enough insulin, or because body cells do not properly respond to the insulin that is
produced. Insulin is a hormone produced in the pancreas which enables body cells to absorb glucose, to turn into energy. If the
body cells do not absorb the glucose, the glucose accumulates in the blood (hyperglycemia), leading to vascular, nerve, and other
complications. There are over 400 million diabetics in the world today. In recent years, many scientists have sought to solve the
problem of varying blood sugar levels by developing an implantable pump that would deliver insulin more consistently than
manual injections. In some designs, the insulin is slowly, continuously infused; the disadvantage of these is that they cannot
respond to fluctuation caused by variations in diet and activity. In others, the amount of insulin to be infused is controlled by an
electrode that senses the level of sugar in the blood. The difficulty of these designs has been in making an electrode that would
function reliably for many months. Deterioration of the electrode could be disastrous; too large or too small a dosage of insulin
could be fatal. The bio-artificial pancreas is fabricated from living and nonliving components. The living component is islets of
Langerhans, which sense glucose levels and secrete insulin according to normal physiology. The nonliving component protects
the islets from the diabetic’s body and it’s destructive immune mechanisms yet permits the islets inside to thrive. A bio-artificial
endocrine pancreas replaces nonfunctioning islets of Langerhans. It responds to changing blood composition with release of
hormones including insulin. A bio-artificial pancreas is implanted into the peritoneal cavity or subcutaneously into the diabetic
and contains two to three million islets.
MIS 02
IMMOBILIZATION OF LACCASE ENZYME AND ITS APPLICATION TO THE
ELIMINATION OF ENDOCRINE DISRUPTING CHEMICALS
Rohit Lall, Pooam Singh and Amit Rastogi
Department of Molecular and Cellular Engineering JSBB, SHIATS, Allahabad)
Email: rohitaaidu022@gmail.com
Laccase (polyphenoloxidase) from the white rot fungus Coriolopsis polyzona was immobilized for first time through the formation
of cross-linked enzyme aggregates (CLEAs). Laccase CLEAs were produced by using 1000g of polyethylene glycol per liter of
enzyme solution as precipitant and 200uM of glutaraldehyde as a cross linking agent. These CLEAs had a laccase activity of 148
U/g and an activity recovery of 60.2% when using 2-2’-azino-bis-(3-ethylbenzthiazoline-6-sulphonic acid) (ABTS) as substrate.
CLEAs formed by co-aggregated with bovine serum albumin (BSA) as a stabilizer showed lower activity and affinity for ABTS
than those without BSA. The CLEAs co-aggregated with BSA showed higher residual activity against a protease, NaN3, EDTA,
methanol and acetone. The thermo resistance was higher for CLEAs than for free laccase and also higher for CLEAs co-aggregated
with BSA than for simple CLEAs when tested at a pH of 3 and a temperature of 40°C. Finally, laccase CLEAs were tested for their
capacity to eliminate the known or suspected endochrine disrupting chemicals (EDCs) nonylphenol, bisphenol A and triclosan
in a fluidized bed reactor. A 100-ml reactor with 0.5mg of laccase CLEAs operated continuously at a hydraulic retention time of
150 min at room temperature and pH 5 could remove all three EDCs from a 5 mg/l solution.
MIS 03
BIOREMEDIATION OF HAZARDOUS CHEMICAL FROM SOIL BY LACCASE ENZYME
Amit Rastogi, Rohit Lall and Poonam Singh
Department of Molecular and Cellular Engineering JSBB, SHIATS, Allahabad
Email :amitrastogi1986@gmail.com
One of the major problems faced by the world today is the contamination of soil by toxic chemical. With industrialization and
the extencive use of pesticides in agriculture,the pollution of the soil with organic compound has become a serious problem.
Laccase from T. versicolor candidate is a strong candidate for atrazine bioremediation in soil with low moisture and organic
matter contents. Laccase from T. versicolor and Pleurotus osteratus to degerade hydroxyl Polychlorinated biphenyls
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Abstract
(PCBs).Degradation rate constants decreased with increase of chlorination and no degradation was observed with tetra- , pentaand hexa- chloro hydroxyl PCBs in non mediated reactions. The results showed that 3-hydroxy biphenyl was more resistant to
laccase degradation than 2- or 4- hydroxy analogues. A white rot fungi isolated by from paper mill, identified as T. versicolor, was
capable of degrading phenol.C14 synthetic lignin mineralization assay showed that it assimilated 24.3% of total label. During 5
days of incubation period, 71% of p- hydroxy bionic acid was utilized when glucose was used as a co- substrate and 56%
degradation of protocatechonic acid using fructose. Laccase from T. villosa used to remediate soil polluted with 2,4-DCP (2,4dichlorophenol).In soil 1, both free and immobilized laccase removed 100% of 2,4- DCP without regard for moisture conditions.
In soil 2, immobilized laccase removed more 2,4-DCP( about 95%, regardless of moisture conditions) than free enzyme (55, 75
and 90% at 30, 55 and 100% of maximum water- holding capacity, respectively). Laccase from white rot fungi have been also used
to oxidize alkanes, carbazole, N-ethylcarbazole, flurene, and dibenzothiophene in the presence of HBT and ABTS.as mediators.
Isoxaflutole is an herbicide activated in soils to its diketonitrile derivative, the active form of the herbicides. Laccases are able to
convert the diketonitrile into the acid. The study of laccase mediator system in the bioremediation of polycyclic aromatic
hydrocarbons (PAHs) has been extensively reported.
MIS 04
PHYSICO-CHEMICAL CHANGES IN POND WATER AND BOTTOM SEDIMENTS
DURING INTENSIVE POLYCULTURE OF INDIAN MAJOR CARPS IN COOCH BEHAR
DISTRICT OF WEST BENGAL, INDIA
Chandan Chakraborty 1, Tarun Misra 2 and Sudip Barat 1*
1
Department of Zoology, 2 Institute of Plantation Science and Management, University of North Bengal, Siliguri 734 013, West
Bengal, India
E-mail: sudipbarat@rediffmail.com
The paper details the physico-chemical parameters of water and bottom sediments during intensive culture of Indian Major
Carps in outdoor farmer’s ponds using diets incorporated with locally available ingredients in Cooch Behar district of West
Bengal, India. The average water and soil pH ranged between 6.09 to 6.89 and between 4.42 to 4.71, respectively. The average
dissolved oxygen in pond water was quite high (between 11.42 to 13.50 mg/l). Average electrical conductivity of the pond water
and soil ranged between 0.35 to 0.58 mmhos/cm and between 0.22 to 0.42 mmhos/cm, respectively. The average free carbon
dioxide ranged between 4.68 and 6.13 mg/l, while the average total alkalinity ranged between 116.03 and 119.67 mg/l in the
pond water. Average Ammonium-N in the pond water ranged between 0.22 to 0.77 mg/l. The average organic carbon in the
bottom soil ranged from 0.98 to 1.38 %, while the average total nitrogen ranged from 0.15 to 0.26 %. All the ponds appeared quite
suitable for aquaculture; however, the average values of water and soil pH appeared extremely acidic. Future research on
temporal and spatial variations in water and bottom soil quality and its effect in augmenting production should be carried out.
MIS 05
A GLOBAL SCENARIO OF EXPORT AND IMPORT POTENTIAL OF AROMATIC AND
MEDICINAL PLANT MATERIAL: THEIR CONSTRAINTS AND PROSPECTS
Anil Kumar1 , B.S. Sachan2 , Jitendra Kumar 3 and M. M. Rajput4
5
Assistant Director Seed & Farm, C.S. Azad University of Agriculture And Technology, Kanpur
Associate Professor, Deptt. of Agril. Economics, C.S. Azad University of Agriculture and Technology, Kanpur
7
Ph.D. Scholar, Deptt. of Agril. Extension, C.S. Azad University of Agriculture and Technology, Kanpur
8
Reader Deptt. of Agril. Economic B.N.V. College Rath Hamirpur (U.P.)
6
In this paper, based on the secondary data obtained from various sources an attempt has been made to identify the horticultural
products having vast potential for boosting exports to explore the export opportunity in this global market: to review the
present status of horticultural export in the country; and their contribution to total export to identify the major constraints and
to suggest the strategies for promoting the exports horticultural products. Medicinal plants or herbal medicines as the main
components of Traditional system of medicine have been used for thousands of years and have made great contribution to
maintaining human health. The world Trade in the areas of Plant based raw materials for the Pharmaceuticals, drugs, Perfumery
items, Cosmetic and food additives is fast and increasing . As per one estimate the world Trade in plant based drugs and Phyto
Pharmaceutical is around 12,000 million on U.S. Dollars which is rise to 33000 million U.S. Dollars by the end of this Century.
Similarly the total world production of essential oils, aroma chemicals flavors and fragrances were of the value of 36000 million
U.S. Dollars in 2002 and reached 7 million U.S. Dollars in the year 2004. Although India exported and imported a large number
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of Medicinal and Aromatic herbs essential oils, Armoa chemicals spices, gums and other related Commodities, yet India’s shave
in the world Trade has remained rather in significant especially in view of the Country’s riches of the bio- diversity, large
Geographical area and human resources even though the relative importance of medicine plants may be decreasing in the world
trade, it is increasing in absolute terms due to renewed world wide interest in Natural medicines and newer uses in food and
cosmetic Industries, hence in the medium term, prospects appear to be good. The increase in world demand has occurred without
any significant efforts on the part of India government to promote it globally.A national heritage program in traditional
medicine was established to ensure that the medical knowledge of experienced practitioners was gathered, recorded and passed
on to future generations through formal training programs.After several decades of pharmacognostic and toxicological research,
the National Institute of Material Medical in Hanoi has developed a list of 1,869 plants with known safety and efficacy in the
treatment of common medical disorders. Traditional medicine now accounts for one-third of all medical treatments provided.In
Africa governments facing huge bills due to growing AIDS crisis are looking towards indigenous medical practitioners and
medicinal plants in order to identify inexpensive and effective treatment for at least alleviating the suffering of AIDS
victims.Multilateral support for the use of traditional medicine in addressing epidemics is a new development. Funding for the
traditional medicine components of the Uganda AIDS” program has come from the Rockfeller Foundation, World Health
Organisation and the World Bank, indicating the emergence of a new group of actors in research in to traditional medicine.An
integrated approach to promote the export of medicinal plants from India right from the stage of cultivation, collection, storage,
processing and marketing in an organized manner with the help of leading Indian pharmaceutical companies is suggested for a
few select items beginning with the examples of Isabgol. This would include assuring a minimum support price to cultivators for
production of lsabgol and regulating its supply to world markets to avoid wild fluctuations in its price. Simultaneously, efforts
should be made with the of leading Indian pharmaceutical companies to develop formulations that can be exported the added
value, Application in the food industry must be developed. lsabgol has the potential to rival trade of ginseng in the world
market because of its use in mitigating the very common affliction of constipation and diarrhoea without any known side effects.
Therefore, the government should extend all help in export promotion and market development’s promotional measures for
ginseng.
MIS 06
A STUDY ON DISEASE SUSCEPTIBILITY OF DIFFERENT ECO-RACES OF ERI
SILKWORM (PHILOSAMIA RICINI DONOVAN)
Rajesh Kumar, Amit Srivastava and V. Elangovan
Department of Applied Animal Sciences Babasaheb Bhimrao Ambedkar University, (A Central University), Vidya Vihar,
Raebareli Road, Lucknow-226025 (U.P.)
Email: rajesh.seri@yahoo.in
Like mulberry silkworm, eri silkworm (Philosamia ricini) also prone to several virulent and infectious diseases and pests. The
germs and symptoms of diseases are more or less similar to those of mulberry silkworm diseases. Flacherie and pebrin occur
more commonly in eri silkworm. However, Samia Cynthia ricini are more resistant to diseases than Bombyx mori and Antheraea sps.
Experiment was conducted to assess the incidence of disease during monsoon, autumn, spring and summer seasons in different
eco-races (Borduar, Titabar, Mendipathar and Dhanubhanga) of eri silkworm at Uttar Pradesh. After IIIrd moult three replications
of 100 larvae were maintained. Observations on grasserie and flacherie disease were recorded till the spinning. The results show
that Borduar and Titabar eco-races of eri silkworm were found to be more susceptible to grasserie and flacherie diseases during
monsoon and summer season. The Dhanubhanga and Mendipathar eco-races were found to susceptible to grasserie and flacherie
diseases during autumn and spring seasons.
MIS 07
ESTABLISHING SILKWORM AS AN ANIMAL MODEL IN CURRENT STUDY SYSTEMS
Amit Srivastava and Venkatesh Kumar R.
Department of Applied Animal Sciences, Babasaheb Bhimrao Ambedkar University (A Central University), Vidya Vihar,
Raebareli Road, Lucknow-226025 (U.P.), India
Email: dramit.sri7@gmail.com
Sacrificing a large number of mammals causes ethical problems. Research and development over the years have flourished for
the use of animals for testing and other purpose have put this very vibrating area to search for new alternatives. Silkworms have
several advantages as model animals for studying bacterial pathogenicity and the therapeutic effects of antibiotics. The 50%
effective dose (ED50) values obtained by injection of antibiotics into the silkworm haemolymph were found to be consistent with
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Abstract
those reports on mouse. Silkworm model is technically convenient, ethically acceptable can be used on a wider scale in the study
of pathogens and drugs. The current article focuses on benefits of establishing silkworm as excellent model in present study
systems.
MIS 08
CONTROL OF SILKWORM DISEASES THROUGH ADMINISTRATION OF
ANTIBIOTICS
Amit Srivastava, Venkatesh Kumar R. and Rajesh Kumar
Department of Applied Animal Sciences, Babasaheb Bhimrao Ambedkar University (A Central University), Vidya Vihar,
Raebareli Road, Lucknow-226025 (U.P.), India
E mail: dramit.sri7@gmail.com
Silkworm Bombyx mori it is much sensitive to environmental fluctuations due to its poikilothermic nature and hence, easily
affected by various types of infectious diseases causing immense loss under tropical climatic conditions. Antibiotics offer
promising results for the control of pathogens spreading bacterial and viral diseases on silkworm and thereby enhancing the
production of silk. The present investigation aimed to evaluate the efficacy of newer generation antibiotics with traditional ones
in controlling the dreaded diseases of silkworm to increase the production of silk at farmer’s level in Uttar Pradesh climatic
conditions
MIS09
BIOCHEMICAL COMPOSITION OF FRUITS IN DIFFERENT MULBERRY VARIETIES
Seema Chauhan Amit Srivastava and Krishna Singh
Department of Applied Animal Sciences, Babasaheb Bhimrao Ambedkar University (A Central University), Vidya Vihar,
Raebareli Road, Lucknow-226025 (U.P.), India
Email: seemachauhan2010@rediffmail.com
Mulberry is a versatile plant mainly raised for rearing of silkworm, Bombyx mori which utilizes its leaves as their sole food for
produce cocoons. During rearing of silkworms, the mulberry fruits goes worn out, which are potent source of carbohydrates,
proteins, fats, anthocyanins, carotenoids and water etc. These fruits are rich in anthocyanins contents, which are playing a key
role in anti-oxidant activity and are considered as prospective source of natural red food colorant. Since no studies have been
conducted on different varieties of mulberry and their quantification, the present investigations were undertaken to determine
protein, carbohydrates, total carotenoids and total anthocyanins contents in mulberry fruits of different varieties namely BR-2,
S-146, S-1, AR-12, AR-14, S-54 and S-36.
MIS 10
EFFECT OF CHLOROPHYLL CONTENT OF DIFFERENT MULBERRY VARIETIES ON
REARING PERFORMANCE OF BOMBYX MORI
H. Kumar, N.Kumari, M. Kumar, Y. S. Priya and V. Elangovan
Dept. of Applied Animal Sciences, Babasaheb Bhimrao Ambedkar University (A Central University), Vidya Vihar, Raebareily
Road, Lucknow-226025 (U.P.), India
Email: k.harendra82@gmail.com
Chlorophyll is an antioxidant which usually found in nature especially in green leafy plants. The chlorophyll content of eight
mulberry varieties such as ar 12, br 2, s1, s13, s 146 s 1635, tr 10 and v 1 and their effects on silkworm growth were studied. Total
chlorophyll of all the varieties was extracted individually using acetone as solvent and detected using spectrophotometer at two
wavelengths (645 nm and 663 nm). The maximum total chlorophyll content was observed in s 146. The bottom leaves of s146
showed highest chlorophyll content (21.115 mg/g) compared to apical (13.338 mg/g) and middle (20.567 mg/g) leaves. The
diseased leaves of s146 showed least quantity of chlorophyll content (12. 342 mg/g). The silkworm fed with s146 mulberry leaves
showed better rearing performance than the worms fed by leaves of other varieties. s 146 fed larvae showed better cocoon
performance effective rate of rearing (err %), cocoon weight, pupa weight, shell weight and filament length compared to other
mulberry varieties. it shows the effect of chlorophyll content on rearing performance of B.mori.
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MIS 11
CELLULASE PRODUCTION FROM BACTERIA ISOLATED FROM AGRICULTURAL
FIELDS IN DISTRICT HARDOI, UTTAR PRADESH, INDIA
Vipul Verma, Alpika Verma and Akhilesh Kushwaha*
Institute of Transgene Life Sciences, Lucknow-227105, U.P, India.
E-mail: directoritls@gmail.com, vipulverma11@gmail.com.
Cellulose is one of the most abundant polymer found in nature (EC 3.2.1.4). It occurs in almost pure form in cotton fiber and in
combination with other materials, such as lignin and hemicelluloses, in wood, plant leaves and stalks, etc. It has already been
used in processing of coffee, in textile industry and in laundry detergents. Cellulose is a long chain polymer, made up of
repeating units of glucose, a simple sugar, joined together with â-1,4 glycosidic linkages. Cellulases cause hydrolysis of the
individual cellulose fibers to break it into smaller sugars units & finally producing glucose molecules. The soil samples were
obtained (10gm) from Hardoi district, Uttar Pradesh, India. Bacterial colonies were grown over CMC-Agar medium. Maximal
cellulase production was obtained after 48 h of incubation at 45 °C in medium containing 1.5% carboxymethyl cellulose (CMC)
as substrate. The optimum pH for the enzyme was found to be ranging between 6.5 and 7.5 at which it was found to be most
stable. Bacteriological studies indicated Bacillus subtilis to be the most frequent cellulolytic bacteria to be found in the agricultural
fields. . The purpose of the current investigation was to screen thermophilic Bacillus species isolated from soil in order to study
its suitability with regard to waste treatment in agricultural fields (bioremediation).
MIS 12
PHYTOREMEDIATION POTENTIAL OF AROMATIC SPICE CROPS
Preeti Verma1 and R.K.Solanki2
1
2
Agricultural Research Station, Kota
National Research Centre on Seed Spices, Tabiji, Ajmer
Heavy metals are naturally present in the environment. Their occurrence, however, has gradually been increasing with the
industrialization. Cadmium (Cd), copper (Cu), lead (Pb) and zinc (Zn) are among the most abundant heavy metals in the
agricultural soils. Accumulation of heavy metals in food crops grown in metal-polluted soil may easily cause adverse effect on
human health through food chain. Attention has to be paid to long-term sustainability of food production in such contaminated
areas. Green plants could be very useful in cleaning up the hazardous waste sites. The process of recovery of hazardous
substances from soil and groundwater contaminated with municipal or industrial wastes by using plant s is called
phytoremediation. It is an emerging eco friendly and low-cost in situ technology to degrade, stabilize, and remove contaminants
from soils; water using plants. Aromatic spice crops appear to be a good choice for phytoremediation since these species are
mainly grown for secondary products (essential oil) and it has been demonstrated that high concentrations of heavy metals in
soil did not result in metal transfer into the essential oil – the economic end product of aromatic plants thus the contamination
of the food chain with heavy metals is eliminated. Anise, an aromatic plant grown for essential oil has shown ability to
accumulate heavy metals. Cumin could be used for phytoremediation of soil contaminated with Cd or Pb. Dill can be grown in
soils enriched with Cd, Pb, and Cu medium without risk for metal transfer into the oils, and without significant alteration of
essential oil composition that may impair marketability. It can be said that aromatic crops may not have significant
phytoremediation potential but growth of these crops is a feasible alternative to earn economic returns from metal contaminated
soils.
MIS 13
CARBON AND WEIGHT LOSS DURING COMPOSTING OF WHEAT STRAW BY
DIFFERENT METHODS
Rajhans Verma1, W.P.Badole2, B. R. Maurya1, Parvati Deewan3and Vijay singh Meena1
1
Department of Soil Science and Agricultural Chemistry, Instt. of Agril. Sci., B. H. U., Varanasi, U.P., India
Soil Science and Agricultural Chemistry Section, College of Agriculture, Nagpur, M.S.
3
Department of Agronomy, C.O.A., M.P.U.A.T., Udaipur, Rajasthan, India
Email: raj80v@gmail.com
2
Total organic matter decreased with the composting and so that reduced the total carbon content in the decomposition process
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Abstract
day by day and ultimately formation of humus by the microbial activity. The total carbon balance was estimated in fully and
partially decomposed compost at 175 days. The significantly maximum reduction in total organic carbon (TOC) was observed in
Nagpur compost method 85.72 % (50.99 to 14.28 %) and lowest TOC reduction observed in Local compost method 73.62 % (50.99
to 28.99 %). The minimum percent total carbon balance in Nagpur compost method showed the higher mineralization of wheat
straw compost. On the basis of fully decomposed wheat straw compost the carbon content was worked out at 175 days in that
observed maximum reduction in total organic carbon content (50.99 to 13.13 % ) and the lowest percent carbon balance (13.13 %)
was observed in Local compost method. The biological activity is higher due to maximum reduction in carbon was observed in
aerobic method than the anaerobic composting method. The rate of decomposition is directly proportional to sudden increase
of release in CO2 due to increasing biological activity. At maturity of compost by different methods of composting, total percent
loss in weight was recorded in fully decomposed and partially decomposed wheat straw compost and maximum loss in weight
was observed in Nagpur method (50.01 %) and lowest in Nadep method (40.20 %). Maximum weight loss is associated with the
higher mineralization of organic matter. However, the maximum percentage (25.17%) of partially decomposed materials was
observed in Local compost method than other methods.
MIS 14
ANTI-MICROBIAL, ANTI-OXIDANT AND ANTI-CANCEROUS ACTIVITY IN ALOE
BARBADENSIS AND EMBLICA OFFICINALIS
Shazia Mansoor and Huma Mustafa
Department of Biotechnology, Integral University, Dasauli, Kursi Road, Lucknow-226026
India has a very long, safe and continuous use of many medicinal plants in alternative system of medicine such as Ayurveda,
Yoga, Siddha, Unani, Homeopathy and Naturopathy. Phenolic phytochemical in plants are the major bioactive substances
which are involve in the prevention of oxidative stress by eliminating free radicals, stimulation of the immune system,
regulation of gene expression and antibacterial effects (Liu, 2004). There is little attention has been directed to the potential anticancer plants. The antibacterial action of the plant phenolic compounds is mediated through their reaction with the cell membrane,
inactivation of essential enzymes and destruction or functional inactivation of genetic material (Puupponen-Pimia et al., 2001;
Vattem et al., 2004). The methanollic extracts of Aloe barbadensis (Liliaceae) and Emblica officinalis (Euphorbiaceae) commonly used
in Unani medicines showed significant anti-bacterial and anti-fungal activities against Staphylococcus aureus, Escherichia coli,
Proteaus vulgaris and Sacchromyces. cereviseae. It is a well established fact that compounds having anti-oxidant activity also show
considerable anti-cancer activity. The above given plants showed potent antioxidant activity by DPPH, alkaline DMSO and total
antioxidant assay. Different studies showed antioxidant activity of the plant extracts was stronger than the synthetic ones
(Meyers et al., 2003; Parejo et al., 2002).The methanolic, ethanolic, chloroformic, acetonic and aqueous extracts showed significant
antioxidant activity, as compared to other organic extracts. In DPPH scavenging assay the percentage inhibition value of
methanolic extracts were found to be in the range of 23.5 ± 2.0 to 98.2 ± 0.73 in 1000 µg/ml of the above plant extracts. L-ascorbic
acid was used as standard and percentage inhibition value was found be 68.6 ± 3.23. Cytotoxicity by MTT cell proliferation assay
and morphological changes by microscopically showed significant activity in vitro growth assays on HepG2 cell line . Therefore,
both the plants showed significant antioxidant activities, as well as biological properties, including cytotoxicity, anticancer and
antibacterial activities as a new potential source of therapeutic agents.
MIS 15
ONE SIZE DOES NOT FIT ALL: PHARMACOGENOMICS
Anjani Kumar Singh1 and Nawaj Khan
Amity University, Lucknow, U.P
Combinatorial pharmacogenetics seeks to characterize genetic variations that affect reactions to potentially toxic agents within
the complex metabolic networks of the human body. Polymorphic drug-metabolizing enzymes are likely to represent some of
the most common inheritable risk factors associated with common ‘disease’ phenotypes, such as adverse drug reactions. The
relatively high concordance between polymorphisms in drug-metabolizing enzymes and clinical phenotypes indicates that
research into this class of polymorphisms could benefit patients in the near future. Characterization of other genes affecting drug
disposition (absorption, distribution, metabolism and elimination) will further enhance this process. As with most questions
concerning biological systems, the complexity arises out of the combinatorial magnitude of all the possible interactions and
pathways. The high-dimensionality of the resulting analysis problem will often overwhelm traditional analysis methods.
Novel analysis techniques, such as multifactor dimensionality reduction, offer viable options for evaluating such data.
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MIS16
HERBAL FORMULATIONS: A NATURAL KEY TO UNLOCK DIABETIC COMPLICATIONS
Mehvash Ayeshah Hashmi and V. L. Saxena*
Department of Biotechnology and Department of Zoology*, Dayanand Girls’ P. G. College, Kanpur
Diabetes mellitus is a chronic condition characterized by major derangements in glucose metabolism and abnormalities in fat
and protein metabolism. The plant based herbal drugs or botanicals are emerging as the primary components of holistic
approaches to diabetes management. A wide array of plant derived principles belonging to compounds mainly alkaloids,
glycosides, polysaccharides, hypoglycans, peptidoglycans, steroids and terpenoids have been demonstrated bioactive against
hyperglycemia. In the present study it was reported that the herbal drug given to the animal models significantly decreased
fasting and postprandial plasma glucose levels in non insulin dependent diabetes mellitus. An increased oxidative stress was
also reported in diabetic models. The lipid profile such as total cholesterol (TC), triglycerides (TG), low density lipoprotein
(LDL) and very low density lipoprotein (VLDL) levels were significantly increased in diabetic control animals whereas high
density lipoprotein levels were decreased when compared to the control animals. After the administration of the drug a
significant decrease in the levels of TC, TG, LDL and VLDL was observed and HDL level was significantly increased. Therefore,
traditional medicines or herbal formulations might offer a natural key to unlock diabetic complications.
MIS 17
PHANEROCHAETE CHRYSOSPORIUM
Prashant Kumar Yadav
Saaii College of Medical Science and Technology, Kanpur
Email: prashant.jannat@gmail.com
Phanerochaete chrysosporium, a basidiomycete fungus which form a crust instead of mushroom. This crust fungi releases extracellular
enzymes such as lignin peroxidase, which degrade the brown lignin of wood and leave the white cellulose part untouched
causing white rot of wood. This enzyme can degrade only the non-phenol units and act with hydrogen peroxide.The residual
activity of this enzyme could increase if the enzyme is incubated in veratryl alcohol,a secondary metabolite of this fungi.Thus
pulp and paper mill industries can use this fungi for Biopulping and could save both energy and time. P.chrsosporium also releaes
manganese peroxidase, which is known to catalyze decarboxylation and demeth(ox)ylation of aromatic substrates.This enables the
fungi to degrade various Xenobiotic compounds,DDT,PCBs etc.
During degradation of xenobiotic compound the white rot fungi often polymerizes substantial amount of compound to humic
bound product.It also causes decolorization of azo-dyes. In liquid culture medium P.chrysosporium totally decolorizes
amaranth,new coccine and orangeG.Thus it could be used for Bioremediation of textile mill effluents. These unmatched properties of
P.chrysosporium makes it very important in Biotechnology.
MIS 18
BIO ELECTRO CHEMICAL TREATMENT OF OLIVE OIL
Shetanshu Dikshit, Shashanki Khanna, Iftikar Aslam Tayubi
VIT University, Vellore-632014
Email: tanu_fundoo@yahoo.co.in
In this work we have undergone degradation of Olive Oil by following Electro-Fenton Reaction and aerobic Bio-Treatment. Oil
contains aromatic compounds that are toxic for most life forms. Among treatment technologies, bio-electro chemical method
will gain considerable interest. Biodegradation can be measured by aerobic microbes. Treatments of Olive Oil with microorganisms
reduce considerably the Chemical Oxygen Demand (COD) and the total phenolic compound concentration, which is responsible
for its biotoxicity. Degradation was done by using these organisms and degraded particles are collected and given for analytical
analysis (FTIR). They results better in mixed culture of fungi and bacteria. Biological Oxygen Demand and Chemical Oxygen
Demand was analyzed in various concentrations (5%, 10%), various pH (pH4, pH6, pH8) and various temperature (300C, 400C) to
determine the efficiency of the organism acted upon the Olive Oil. The Electro Fenton Process removed 96.42% of total polyphenolic
compounds in the Olive Oil and subsequently decreased the COD value from 100% to 3.68%.We are working on our phase 2 i.e.
Production of biodiesel from this processed Olive oil.
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Abstract
MIS 19
SDS PROTEIN PROFILING, MORPHOLOGICAL AND BIOCHEMICAL STUDIES
DURING GERMINATION IN DIFFERENT CROP PLANTS
Priti Mathur, Eshan khan, Amit singh, Piyush Pandey, Ankit Gaur
Amity institute of biotechnology, Amity University, Lucknow-260010,U.P.
A comparative study was conducted to analyse activity of different biomolecules during germination & seedling stage of four
important crop –Cicer arietinum, Triticum aestivum, Zea mays, Oryza sativa . Seeds were allowed to germinate upto seedling stage,
sprinkled regularly with Hoagland solution. Every stage of germination & seedling was analysed morphologically &
biochemically and data were taken on 3rd, 5th, 7th,9th,11th day of germination. SDS PAGE, Protein estimation, amylase activity,
total sugar content & chlorophyll content studied in all species. Every species showed different result during germination. In
general it was found that protein, Amylase activity, chlorophyll content increases but sugar content decreases during germination
in plumule part of seedlings. SDS PAGE analysis shows protein band ranging from 14.4 kD to 94 kD during seedling stage.
MIS 20
THE EFFECT OF THERMAL STRESS AND CHEMICAL POLLUTANTS ON FISH LIFE
Rakesh Kumar Tiwari
Department of Zoology, V.G.P.G. College, Dibiyapur, Auraiya – 206 244 India
Email; rakeshtiwari78@yahoo.in
Hazards to life of fish are too many. Yet fish survive and form a significant proportion of aquatic life. This is because they are
adapted to their surroundings to the extent that a certain balance is maintained between them and their environment. Local fish
populations, however, often are subject to sudden and large scale mortalities. This happens due to unusual natural causes. Flash
and catastrophic mortalities have arisen from the red tide (1947 outburst off Florida; discoloration of water due to change in
species of plankton population), seasonal anaerobiosis (spread decomposition), lightening stroke etc. Such mortalities are
beyond remedy. Then there are equally significant mortalities of fish population which stem from causes for which mankind is
responsible. The causes for the pollution are mostly man-made, and therefore a remedy, a control, a prevention is very much
possible. If unchecked, this pollution will only increase day and day out with the rapid industrialization and ever increasing
human population.
The present fish was selected as models for its continues availability and hardy nature which render to the fish easily handled the
necrosis in hepatic tissue, exudation of nuclei from cells disappearance of connection tissue and large damaged are in hepatic
tissue at 330C. The tissue of heart was done to observe the effect of thermal stress for prolonged periods. In testis the cold stress
caused shrinkage is inter cellular space and size of seminiferous tubules and in ovary at heat stress at 18 hrs. and 24 hrs. caused
swelling of ovarian follicle and appearance of large black dot like structure cold stress caused shrinkage in size of ovarian
follicle.
However, the thermal stress applied for prolonged period in the form of heat or cold stress is always unfavorable to the breeding
rate of H. Fossilis (sinha 1988).
MIS 21
STIMULATION OF NUTRITION AND ANTIOXIDANT PROFILE OF FLAX PLANTS
USING CYANOBACTERIA
Naresh, L.1, Alex, B.K.2 and Koshy, E.P.3
1&2 .Department of Molecular & Cellular Engineering, 3Department of Tissue Engineering
mailto:blessy.alex@yahoo.co.in Jacob School of Biotechnology & Bioengineering, Sam Higginbottom Institute of Agriculture,
Technology & Sciences, Allahabad
Email: naresh.lucky679@gmail.com
Flax or linseed, (Linumusitatissimum L.) nature’s richest source of omega-3 fatty acid is a plant that is grown both for its seeds and
for its fibers. They contain 30-40 % fatty acids (linseed oil), esters of linoleic acid (60 %), linolenic acid (20 %), stearic acid (8 %) and
oleic acid along with mucilage, proteins and cyanogenic glycosides. The oil also is important in the manufacture of paints, soap
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and printer’s ink. The flaxseed lignan and its mammalian metabolites have been reported to exert protective effects against dietrelated chronic diseases through a variety of mechanisms including phytoestrogenic and antioxidant effects.
Cyanobacteria, known for its stimulating effect on growth of different plants, produce bioactive compounds including plant
growth regulators that effect the growth of inoculated plants. The objective of the present investigation was to stimulatenutritional
and antioxidant system of flax plantby different cyanobacterial species. Seeds presoaked in the culture extract of Nostoc commune,
Anabaena flos-acquaeand Westiellopsis sp. enhancedthe germination percentage, vegetative growth, chlorophyll content, antioxidant
system (carotenoid content, peroxidase enzyme and catalase enzyme activity) of Flax. Westiellopsis showed significant enhancement
in biochemical constituents of Flax plants. The germination of flax seeds treated with cyanobacteria was faster than control. 10%
extracts of selected species showed effect in enhancing growth of plants. Evidences state that procedure of pretreating the seeds
with different cyanobacteria can be used to improve the quality of many plants.
MIS 22
EXTRACELLULAR ACTIVITIES IN HEAVY METAL TOLERANT SOIL FUNGI OF
NORTHERN INDIA
Mohd. Imran1 and Iqbal Ahmad1
1. Department of Agricultural Microbiology, Aligarh Muslim University Aligarh, India
2. Department of Microbiology, Integral University, Lucknow, India
Agricultural soil receiving long- term application of sewage and industrial wastewater may influence soil health in general and
microbial population and their activities in particular. Heavy metal analysis of the agricultural soil in the vicinity of Aligarh
situated in a state of Uttar Pradesh in northern India, receiving long term application of municipal and industrial wastewater
showed increased level of metal accumulation as compared to soil irrigated with ground water. Heavy metal content of
wastewater showed presence of heavy metals in order of Cr >Ni >Co> Cu >Cd. The impact of heavy metal contamination on
emergence of soil fungal population was studied by determining the abundance of culturable fungi on metal incorporated
nutrient plates. The data obtained indicated that fungal population develop tolerance to heavy metals at varying level being
maximum against Cr followed by Cu, Co, Ni and least to cadmium. Control site which received less or no wastewater showed
relatively less metal tolerant fungal population as compared to wastewater irrigated sites. Tolerance level of fungi against
heavy metal was assessed in term of minimum inhibitory concentration (MIC). MIC value of metal varied from 200-2000 ìg/ml
against of the 73 fungal isolates tested. Tolerance to heavy metals was found to be dependent upon the nature of the metal and
the test fungi. Within the single most predominant genus, Aspergillus, much variation in the MIC value of the metals was also
observed. It may be concluded that long term application of wastewater have resulted a selection pressure on soil fungal
population resulting in the development of metal tolerant population. Such metal tolerant fungal strains may have different
mechanism of tolerance which needs further investigation to exploit them in agriculture, pharmaceutical industries and metal
pollution management. A total of 73 heavy metal tolerant fungal isolates belonging to common soil fungal genera and some
unidentified isolates were screened for their various plant growth promoting (PGP) activities and production of extracellular
enzymes relevant to plant growth promotion and industrial use. Of these, 89.04% isolates produced ammonia followed by
production of indole acetic acid (65.75%), siderophore ((52.05%), phosphate solubilization (42.46%), organic acids (28.76%) and
antibiotic production (10.95%). Extra cellular enzymatic activities, like lipase was detected among 95.89% isolates followed by
amylase (61.64%), cellulase ((41.09%) and chitinase (36.98%). Distribution of above activities among test isolates varied in
different fungal genera. Variation among these activities was also evident in the isolates of Aspergillus. Most of the Aspergillus
isolates and some other fungi demonstrated multifarious plant growth promoting activities. Fungal isolates with such multiple
activities may be exploited as bioinoculant for plant growth promotion, soil health maintenance and in pharmaceutical industries.
MIS 23
CURRENT SCENARIO TOWARDS DEVELOPMENT AND PROMOTION OF HERBAL
DRUGS
Md. Sarfaraj Hussain1, Mohd. Saeed2, Huma Mustafa2
1
Faculty of Pharmacy ,2Department of Biotechnology, Integral University, Lucknow. 226026. India.
Medicinal plants have been widely used to treat a variety of infectious and non-infectious ailments. According to one estimate,
25% of the commonly used medicines contain compounds isolated from plants. Several plants could offer a rich reserve for drug
discovery of infectious diseases, particularly in an era when the latest separation techniques are available on one hand, and the
human population is challenged by a number of emerging infectious diseases on the other hand. The traditional medicine is
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Abstract
increasingly solicited through the tradipractitioners and herbalists in the treatment of infectious diseases. Among the remedies
used, plant drugs constitute an important part. Herbal drugs have great growth potential in the global market. Natural product
research continues to explore Indian Traditional Medicines to develop new novel drugs. A number of medicinal plants have
been subjected to detailed chemical investigations and this has led to the isolation of pure bioactive molecules which have been
pharmacologically evaluated. As a result, new drugs have been discovered, along with new applications. These bioactive
molecules are used as therapeutic agents, novel starting materials and new reagents for molecular biology research. This paper
presents a study of the importance of natural products, especially those derived from higher plants, in terms of drug development.
MIS 24
IN SILICO CHARACTERIZATION OF CIGARETTE SMOKE CARCINOGENS
M. Haneef and M. Lohani
Department of Biotechnology, Bioinformatics and Microbiology, Integral University, Lucknow
Email”: anishik786@gmail.com
The first evidence of a direct correlation between inhaled tobacco smoke and lung cancer was demonstrated in human studies in
Germany between 1930-1940; further studies were later confirmed in Great Britain and the US in the 1950s. Although many
factors in tobacco smoke contribute to lung cancer, the key ingredient, nitrosamine 4- (methylnitro-samino)-1-(3-pyridyl)-1butanone (NNK, nicotine-derived nitrosamine ketone) plays a major role in carcinogenesis.
The most carcinogenic molecules in tobacco smoke belong to two groups:
(i) polycyclic aromatic hydrocarbons and (ii) nitrosamines
While both have shown a significant relationship with lung tumorigenesis, nitrosamines have a remarkably larger effect.
Specifically, studies on tobacco smoke have confirmed NNK as the most potent ingredient responsible for lung carcinogenesis.
It is also the only carcinogen that systemically induces tumors of the lung. NNK is an aromatic compound with a molecular
formula of C10H13N3O2 (MW = 207.2316). This yellow crystalline solid is the most potent carcinogenic compound in the family of
nitrosamines. The crystalline structure of NNK has been characterized and the Chemical structure of NNK is the following:
The study indicates the remarkable activity of NNK and their metabolites, through exposure of NNK via cigarette smoke, as
carcinogen which is thought to lead some possible interaction with few proteins involved in cell cycle regulation and a tumor
suppressor gene such as p53.
In the structural bioinformatics experiment, the selected cigarette smoke carcinogen NNK can be applied in random fashion
(blind docking) individually in a part of cell cycle regulation steps and subsequent interactions can therefore be analyzed more
precisely. It was seen in some cases, that possibly NNK as a carcinogen can initiate and promote carcinogenicity by interrupting
the cell cycle regulation biomarkers.
The studies will help us to understand the underlying mechanism of the selected cigarette smoke carcinogen NNK and their
metabolites as a potent carcinogen in various parameters such as chemical binding sites, mode of action and flexible alteration
in the selected biomolecules/polymers which are directly and indirectly involved in a part of cell cycle regulation by the
structural bioinformatics experimental tools.
The future work will emphasize on the insilico interaction studies of selected cigarette smoke carcinogen with selected biomolecules
targets.
MIS 25
PHYSICO-CHEMICAL AND CHROMATOGRAPHIC (HPTLC) STANDARDIZATION OF
HOLOPTELEA INTEGREFOLIA (STEM BARK)- AN AYURVEDIC DRUG
Danish Iqbal, Raju K. Pawar, Rajeev Kr. Sharma
Pharmacopoeial Laboratory for Indian Medicine, Department of AYUSH,Kamla Nehru Nagar, Ghaziabad-201001, (U.P.).
Email:Danishik786@gmail.com
Background: Holoptelea integrifolia has several medicinal properties but adulteration, inappropriate formulation, or lack of
understanding of plant and drug interactions have led to adverse reactions that are sometimes life threatening or lethal. The
significant popularity of HPTLC in the analytical testing and standardization of pharmaceutical, bulk drugs and herbal drugs
lends its fame to the attributes. Objective: The present communication attempts to investigate physico-chemical analysis and
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Miscellaneous
chromatographic (HPTLC) profiles of Holoptelea integrefolia (stem bark) (Family: Ulmaceae). Material and Method: The physicochemical properties of aqueous extract values have been analyzed. HPTLC of Hexane extract of Holoptelea integrefolia stem bark
were carried out in two lanes: - T1 – Hexane extract of Local Market Sample Ghaziabad, T2 – Hexane extract of Museum Sample
of PLIM Ghaziabad, to lay down the fingerprint profile of drug by using Linomat V applicator of Camag HPTLC instrument.
TLC of the drug on Silica Gel60 GF 254 pre coated plate using Toluene: Ethyl acetate (9:1) V/V as mobile phase. Results: Under UV
Light 254 nm four spots appeared of T1 sample and seven spots appeared of T2 sample and under UV Light 366 nm three spots
appeared of T1 sample and six spots appeared of T2 sample. After derivatization of TLC plate with Anisaldehyde-Sulphuric acid
reagent followed by heating at 110 0C for 10 minutes; seven spots appeared. Conclusion: The study revealed specific identities for
Holoptelea integrefolia (stem bark), Rf values and colour of bands under UV light 254nm and 366nm which may play a key role in
identification of plant (stem bark).
MIS 26
BIOCHEMICAL AND MOLECULAR ANALYSIS OF RHIZOSPHERE MICROBES
Faria Fatima , Ira chaudhary, Neelam Pathak
Department of Biotechnology, Integral university, Lucknow
The study presents a combination of morphological, biochemical and molecular approaches for the identification of bacteria and
fungi which are abundantly found within the Kukrail forest. A mannitol based protocol for extraction of DNA directly from soil
was developed providing good yield/quality. To understand the occurrence of particular microbes in situ, using nucleic acid
technology, the direct isolation of DNA from soil comes as an emerging technology in comparison to cell cultivation. The
development of techniques in molecular biology has led to their application to microbial ecology. The extraction of DNA from
soil, followed by the application of Polymerase Chain Reaction (PCR) to amplify a gene common to all organisms can provide
information about microbial community structure, microbial diversity, evolution and taxonomy. Thus different methods were
developed and compared for DNA extraction from the soil and evaluated on the basis of PCR-based 16S ribosomal DNA
analysis. However, the molecular approach does not seem sufficient for a better understanding of soil functioning. In this regard
it is also important to understand the link between community structure and functions in microhabitats, that is, the spatial
distribution of microbial species and their spatial and temporal links with the various microbe mediated reactions in situ. These
bacterial and fungal strains are further characterized by performing PCR with 16S and 18S primer specific PCR. For identification
of unidentified fungal isolates PCR product was sent for sequencing. For biodiversity analysis RAPD was also performed.
MIS 27
BIODEGRADATION OF CELLULOSE CONTAINING MATERIALS BY RHIZOPUS
SPECIES
Akhilesh Kumar Singh1 and Nirupama Mallick2
Amity University Uttar Pradesh Lucknow, India. Department of Agricultural and Food Engineering, IIT, Kharagpur, West
Bengal, India.
E-mail: nm@agfe.iitkgp.ernet.in,akhiliit@yahoo.co.in,
A vital objective for second millennium biotechnology will be the enzymatic conversion of renewable cellulosic materials to
fermentable sugars. A potent soil isolated fungal strain identified to be of Rhizopus species was effective in breaking down
cellulose. Three different substrate were used which included two natural substrate (wheat bran and rice husk) and one derivatized
substrate (carboxymethyl cellulose). Of the natural substrates, greater biodegradation was achieved with rice husk. The natural
substrates are made up of 50% of cellulose, 25% hemicellulose and 25% lignin. Therefore, alkali treatment was given to rupture
the ternary complex and render the lignin and hemicellulose soluble and extractable. The outcomes indicate that pretreatment
is needed for obtaining better results. Thus, this study showed that Rhizopus could be used for the degradation of cellulose
materials.
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