Pests of mustard_Identification_Management_Dr.UPR.pdf
Marsilea details
1.
2. • Marsilea is a heterosporous fern. It produces two types of spores i.e., the microspores and the
megaspores. The microspores and megaspores are produced in microsporangia and megasporangia,
respectively, and the sporangia are enclosed in special bean-shaped structures called sporocarps.
• Habit and Habitat of Marsilea:
• Marsilea is commonly known as “pepper wort” or “water fern” (although it is a fern but hardly
resembles a true fern). It is represented by about 53 species which are cosmopolitan in distribution
but abundantly found in tropical countries like Africa and Australia. About 9 species have been
reported from India.
• Either the species are hydrophytic or amphibious i.e., they grow rooted in mud or marshes and
shallow pools or are completely submerged or partially or entirely out of water in wet habitats. M.
hirsuta is an Australian xerophytic species. M. hirsuta and M. quadrifolia are two most common
Indian species usually found growing in marshy places, wet soil or near muddy margins of ponds
3.
4. • External Features of Marsilea:
• The mature sporophyte is an herbaceous plant. Its underground rhizome spreads in a
diameter of 25 meter or more. The plant body is distinctly differentiated into rhizome,
leaves and roots .
1. Rhizome:
• All the species possess a rhizome which creeps on or just beneath the soil surface. It
is slender, dichotomously branched with distinct nodes and internodes and is capable
of indefinite growth in all directions as a result of which it occupies an area of 25
metre or more in diameter.
• In aquatic species the internodes are long while in sub-terrestrial species they are
short. Usually from the upper side at nodes, the leaves are given out while from their
lower side, the roots.
2. Leaves:
• They are borne alternately on upper side of rhizome at nodes, in two rows. Young
leaves show circinate vernation (like ferns) (Fig. 1 A). In some species young leaves
are covered with multicellular hairs. The leaves are compound, with basal petiole and
terminal lamina.
5. • In submerged plants the petiole is a long and flexible structure and the lamina floats over the surface of
water but in muddy or marshy plants the petiole of the leaf is short and rigid with short lamina spreading in
the air.
• The lamina consists of 4 leaflets (pinnae) which are present at the apex of petiole. The 4 leaflets arise as a
result of 3 dichotomies of the lamina in close succession to each other i.e., 2 leaflets arise slightly higher
than other two .
6. • The roots are adventitious, arising from the underside of the node of rhizome, either singly or in groups. In certain cases the
roots are given out even from the internodes .
(i) Epidermis:
• It is the outermost limiting layer of single celled thick parenchymatous cells. The stomata are absent.
(ii) Cortex:
• It is differentiated into three regions – the outer cortex, the middle cortex and the inner cortex.
• (a) Outer cortex:
• It is present just below the epidermis (also called hypodermis). It is parenchymatous and may be one to several cells thick. Some
of its cells contain tannin.
• (b) Middle cortex:
• It is also called aerenchyma. It lies below the hypodermis. It consists of large air spaces (chambers) separated by one cell thick
parenchymatous septa. In the xerophytic species e.g., aegyptiaca the air chambers are obliterated.
• (c) Inner cortex:
• It is a solid tissue of several cells thickness. The outer layers are thick walled (sclerenchymatous) while the inner layer of cells is
thin walled (parenchymatous) and compactly arranged. Some of these cells are filled with starch or tannin.
(iii) Stele:
Stele is amphiphloicsiphonostele i.e., in the centre there is a pith which may be either parenchymatous (aquatic species) or
sclerenchymatous (terrestrial muddy species). Xylem is present in the form of a complete ring which is surrounded on both sides by
a complete ring of inner and outer phloem, pericycle and endodermis.
7. 2. T. S. of Petiole:
T. S. of the petiole is somewhat circular in outline and is differentiated into epidermis, cortex and stele.
(i) Epidermis:
(ii) It is the outermost layer of single cell thickness. The cells are parenchymatous and slightly elongated.
(ii) Cortex:
(i) It is differentiated into three regions: The outer cortex, the middle cortex and the inner cortex.
(a)Outer cortex:
(i) It is present just below the epidermis, (also called hypodermis). It is made of thin walled cells (parenchymatous).
(b) Middle cortex:
(i) It lies below the hypodermis and called aerenchyma. It consists a ring of air chambers. The air chambers are separated by single layered
partitions of thin-walled parenchymatous cells.
(c) Inner cortex:
(i) It is a solid tissue of several cells thickness. The cell layers are parenchymatous and contain starch and tannin filled cells. In M.minuta few
sclerenchymatous layers are also present just inner to middle cotex.
(iii) Stele:
(i) It is somewhat triangular in outline and is of protostelic type i.e. pith is absent. Xylem is “V” shaped with 2 distinct arms. Each arm is
provided with metaxylem elements in the centre and protoxylem is situated at both the margins i. e., protoxylem is exarch.
(ii) The xylem is surrounded on all sides by phloem. Phloem is externally surrounded by a single layer of parenchymatouspericycle which, in turn,
is bounded by a single layered endodermis.
8.
9. 3. Transverse Section of Leaflet:
A. T. S. of the leaflet shows epidermis, mesophyll and vascular bundles.
(i) Epidermis:
• It is the outermost surrounding layer and is only one cell in thickness. It is differentiated into upper and lower epidermis.
In floating leaflets the stomata are present on the upper epidermis but in case of plants growing in mud or moist soil where
the leaves are aerial, the stomata are present both on upper as well as lower epidermis.
(ii) Mesophyll:
• It occupies a wide space between upper and lower epidermis. It is usually differentiated into an upper palisade tissue and
lower spongy parenchyma. The palisade tissue is made up of elongated cells provided with chloroplast. The spongy tissue is
made up of loosely arranged parenchymatous cells with large air spaces separated by single layered septa. In submerged
species, however, the mesophyll is not differentiated into palisade and spongy parenchyma.
(iii) Vascular bundles:
• In between the mesophyll tissue are present several vascular bundles. Each vascular bundle is concentric and
amphicribal type i. e., made up of a centrally situated xylem, surrounded on all sides by phloem. The phloem is enclosed
by a single layered thick endodermis.
10.
11. 4. T. S. Root:
• A T. S. of root is somewhat circular in outline and can be differentiated into epidermis or piliferous
layer, cortex and stele
(i) Epidermis:
• It is the outermost, parenchymatous, single layered covering.
(ii) Cortex:
• It can be differentiated into two parts: outer cortex and inner cortex. The outer cortex consists of large
air chambers arranged in the form of a ring (parenchymatous). These chambers are separated from
each other by longitudinal septa. The inner cortex is differentiated into outer parenchymatous and inner
sclerenchymatous regions. The inner cortex is delimited by single layered thick endodermis.
(iii) Stele:
• It is of protostelic type and occupies the central position. It is devoid of pith. Xylem is situated in the
centre which is diarch and exarch. It is surrounded by phloem. The phloem is bounded externally by a
single layer of pericycle.
12.
13. Reproduction in Marsilea:
• Marsilea reproduces by two methods:
• (i) Vegetative reproduction
• (ii) Sexual reproduction.
Vegetative reproduction:
• It takes place by means of tubers which are produced in dry conditions from the rhizome. First a branch is given out from the
rhizome, which later on swells up due to the accumulation of food material. The structure is termed as tuber and is capable of tiding
over the unfavourable conditions. On the return of favourable conditions it germinates to produce a new sporophytic plant, e.g. ,M.
hirsuta, M. quadrifolia.
(ii) Sexual Reproduction:
1. Sporophytic Phase:
Spore producing organs:
• Marsilea is heterosporous i. e., it produce two types of spores—microspores and megaspores. These spores are produced in
microsporangia and megasporangia, respectively. These sporangia are borne in special type of spore producing organ called
sporocarp. The sporocarp are born laterally on the short and lateral branches of the (called the peduncles or pedials) petiole of leaf
either near the base or a little higher up.
14. External Morphology of Sporocarp:
• Each sporocarp is an oval or bean shaped biconvex, flattened structure. It is green and soft when it is young but at maturity it becomes very hard and brown in colour. It is made up of a short stalk like structure known as peduncle
and the body.
• The point of attachment of peduncle with the body is called raphe (Fig. 7A). Slightly above the raphe in a median plane are present 1 or 2 protuberances called tubercles. They are unequal in size and lower one is stouter than the
upper one. In some cases the tubercles are absent e.g.,M. polycarpa.
• Internal Structure of Mature Sporocarp:
• The sporocarp is a bivalved structure. It can be split open in the dorsiventral plane into two halves (valves).
• If we split open the sporocarp, we can see the following structures:
• Wall of sporocarp:
• It is very hard, thick and highly resistant to mechanical injury. It can be differentiated into three zones—outer epidermis, middle hypodermis and inner
parenchymatous zone. Epidermis is single layered made up of broad and columnar cells. Its continuity is broken by the presence of sunken stomata (Fig. 7C).
• Some of the epidermal cells develop into multicellular hairs (Fig. 7D). Hypodermis consists of two layers of radially elongated palisade like cells. Both the
layers are without intercellular spaces and have chloroplast in their cells. Next to hypodermal layers is the parenchymatous zone (Fig. 7B). In mature
sporocarp the cells of this zone gelatinise and form a gelatinous ring which helps in the dehiscence of the sporocarp.
15.
16. Cavity of sporocarp:
• The alternating rows of sori (sing, sorus, a group of sporangia is called sorus), one along each side lies transversely-
dorsiventrally to the long axis of the sporocarp. The sori on either side alternate with each other. The number of sori inside the
sporocarp varies from species to species. It may be from two (e.g., M. aegyptiaca) to twenty (e.g.,M. vestita). Each sorus bears
both microsporangia and megasporangia.
• Their number also varies from species to species. In M. minuta a sorus has 4-8 megasporangia and 8-13 microsporangia. In M.
aegyptiaca each sorus has 5-16 megasporangia and 9-19 microsporangia.
• In M. minuta, M. vestita, M. rajasthanensis, sometimes megasporangia are absent in sorus. Each sorus arises on a ridge like
placenta or receptacle formed on the sporocarp wall. Each sorus is surrounded by a thin, membranous two layered true
indusium. The indusia of adjacent sori are partially fused.
Vascular supply of the sporocarp:
• It is supplied by a main dorsal vein which runs along the narrow side facing the peduncle. From the dorsal vein, lateral branches
are given alternatively right and left, at right angle to the dorsal vein which supplies laterally (Fig. 8). These lateral veins at their
middle divide dichotomously. In the region here lateral vein forks, arises a placental bundle which too branches dichotomously.
The first and the last lateral veins do not possess placental bundles.