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Current knowledge and breeding avenues to improve upon Frafra potato (Solenostemon rotundifolius (Poir.) J. K. Morton)

  • Notes on Neglected and Underutilized Crops
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Abstract

Solenostemon rotundifolius is a very important tuber staple for both rural and urban communities in West Africa. The crop is rich in nutrients as compared with other root and tuber crops and is germane to ensuring food and nutritional security. It is also of great medicinal importance and is known to lower blood cholesterol levels as well as fend off fungal and viral infections in humans. However, very little is known about the breeding avenues necessary to improve upon the crop. Also, not much interest has been generated with regards to production of the crop owing to its low yield and small tuber size. This review elucidates the current knowledge and breeding avenues for increasing the genetic base as well as improving upon the existing cultivars of the crop. Breeding objectives may be geared towards the development of high yielding cultivars with bigger tuber sizes in order to increase the marketable value of the crop. Tissue culture avenues should be exploited to induce somaclonal variants, so as to increase the genetic diversity necessary for the improvement of the crop. Chemical mutagens could be employed to alter the size and number of tubers that the crop produces. Present ex situ and in situ conservation strategies need to be reinforced. Further studies should be carried out into the cryopreservation of Frafra potato genetic resources.

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References

  • Abbiw DK (1990) Useful plants of Ghana. Intermed Technol 27:337

  • Abraham M, Radhakrishnan VV (2005) Assessment and induction of variability in coleus (Solenostemon rotundifolius). Ind J Agric Sci 75(12):834–836

    Google Scholar 

  • Abraham M, Radhakrishnan VV (2009) Induced mutations in coleus (Solenostemon rotundifolius) (Poir. J K Morton)—An under-utilized medicinal tuber. Induced plant mutations in the genomics era. Food and Agriculture Organization of the United Nations, Rome, pp 283–285

  • Acheampong E, Asante B (1998) In vitro propagation of Frafra potato (Coleus dysentericus). In: Root crops in the 21st century. Proceedings of the 7th triennial symposium of the international society for tropical root crops–Africa branch

  • Achigan-Dako EG, Tchokponhoué DA, N’Danikou S, Gebauer J, Vodouhè RS (2015) Current knowledge and breeding perspectives for the miracle plant Synsepalum dulcificum (Schum. et Thonn.) Daniell. Genet Resour Crop Evol 62(3):465–476

    Article  CAS  Google Scholar 

  • Aculey K, Quainoo AK, Mahanu G (2011) Feasibility studies on the potential of grafting and budding of Frafra potato (Solenostemon rotundifolius). J Hortic For 3(10):327–332

    Google Scholar 

  • Agnew ADQ, Agnew S (1994) Upland Kenya wild flowers, 2nd edn. East African Natural History Society, Nairobi, pp 283–297

    Google Scholar 

  • Agyeno OE, Jayeola AA, Ajala BA, Mamman BJ (2014) Exo-morphology of vegetative parts support the combination of Solenostemon rotundifolius (Poir.) JK Morton with Plectranthus esculentus NE Br. Natal (Lamiaceae) with Insight into Intra-Specific Variability. Int J Bioflux Soc 6(1):16–25

    Google Scholar 

  • Alleman J (2002) Evaluation of Plectranthus esculentus N. B. Br. as a potential vegetable crop. Ph.D thesis, University of Pretoria, South Africa. pp 40

  • Alleman J, Coertze AF (1997) Indigenous root crops. A3 solenostemon. Vegetable and Ornamental Plant Institute, Pretoria

    Google Scholar 

  • Anbuselvi S, Balamurugan TA (2013) Comparative study on physicochemical and nutritive constituents of Manihot esculenta Crantz and Ipomoea batatas. Int J Pharm Biosci 4(3):510–515

    CAS  Google Scholar 

  • Archana D, Singh BK, Dutta J, Dutta PK (2015) Chitosan-PVP-nano silver oxide wound dressing: in vitro and in vivo evaluation. Int J Biol Macromol 73:49–57

    Article  CAS  PubMed  Google Scholar 

  • Bayorbor TB, Gumah AY (2007) Effects of ‘seed’ tuber weight and spacing on the yield of Frafra potato (Solenostemon rotundifolius). Ghana J Hortic 6:41–48

    Google Scholar 

  • Bennett-Lartey SO, Oteng-Yeboah AA, Bunso G (2008) Ghana country report on the state of plant genetic resources for food and agriculture. CSIR Plant Genet Resour Res 1:14–32

  • Blench R, Dendo M (2004) Lesser-known African tuber crops and their role in prehistory. Unpublished manuscript

  • Bouman H, De Klerk GJ (1997) Somaclonal variation. In: Geneve RL, Preece JE, Merkle SA (eds) Biotechnology of ornamental plants. CABI, Wallingford, pp 165–183

    Google Scholar 

  • Burkill HM (1985) The useful plants of West Tropical Africa, vol 5. Botanic Gardens, Kew

    Google Scholar 

  • Sandhya C, Vijayalakshmi NR (2000) Antioxidant activity of flavonoids from Solenostemon rotundifolius in rats fed normal and high fat diets. J Nutraceut Funct Med foods 3(2):55–66

    Article  Google Scholar 

  • Chevalier A, Perrot E (1905) Les Coleus à tubercules alimentaires. Les vegetaux utiles de l’Afrique tropicale francaise 1

  • Dittoh JS, Bayorbor TB, Yidana JA, Abapol RR, Otoo JA (1998) The potential and constraints of persa (Frafra potato) as a food security crop in Northern Ghana. In: A paper for the 1st biennial National Research Systems (NARS) workshop on the theme ‘sustainable agriculture production and food security’ accra international conference centre, pp 2–15

  • Dupriez H (1989) African Gardens and orchards. Macmillan Press Ltd, London and Basingstoke. Translated from French to English by C. T. A, pp 316–317

  • Dupriez H, Leener PD (1989) African gardens and orchards: growing vegetables and fruits. Macmillan, Basingstoke

    Google Scholar 

  • Enyiukwu DN, Awurum AN, Ononuju CC, Nwaneri JA (2014) Significance of characterization of secondary metabolites from extracts of higher plants in plant disease management. Int J Adv Agric Res 2:8-28

  • Enyiukwu DN, Awurum AN, Nwaneri JA (2014a) Efficacy of plant-derived pesticides in the control of myco-induced postharvest rots of tubers and agricultural products: a review. Net J Agric Sci 2(1):30–46

    Google Scholar 

  • Enyiukwu ON, Awurum AN, Nwaneri JA (2014b) Potentials of Hausa potato (Solenostemon rotundifolius (Poir.) J.K. Morton) and management of its tuber rot in Nigeria. Greener J Agron For Hortic 2(2):27–37

    Article  Google Scholar 

  • Giridharan MP (1984) Effect of gamma irradiation in ginger (Zingiber officinale Rose). M.Sc (Ag.) Thesis, Kerala Agricultural University, Trichur, p 126

  • Gouado I, Fotso M, Djampou EJ (2003) Potentiel nutritionnel de deux tubercules (Coleus rotundifolius et Solenostemon ssp.) consommés au Cameroun. In: 2ème Atelier International, Voies alimentaires d’amélioration des situations nutritionnelles, Ouagadougou, 13-28/11/2003, pp 85–90

  • Gupta V (2015) Effect of application of K and Na on growth and yield of Coleus (Solenostemon rotundifolius). Int J Res Stud Biosci 35:74–78

    Google Scholar 

  • Harlan JR, Dewet JMJ, Stemler ABL (1976) Origins of African plants domestication. Monton, The Hague

    Book  Google Scholar 

  • Horvath T, Linden A, Yoshizaki F, Eugster CH, Rüedi P (2004) Abietanes and a Novel 20-Norabietanoid from Plectranthus cyaneus (Lamiaceae). Helv Chim Acta 87(9):2346–2353

    Article  CAS  Google Scholar 

  • Houdegbe CA, Sogbohossou OE, Achigan-Dako EG (2016) Utilization and breeding perspective in the egusi gourd Melothria sphaerocarpa (Cogn.) H. Schaef. et SS Renner (syn: Cucumeropsis mannii Naudin). Genet Resour Crop Evol 63(3):545–559

    Article  Google Scholar 

  • Jansen PCM (1996) Plectranthus rotundifolius (Poiret) Sprengel. Plant Resour South-East Asia 9:141–143

    Google Scholar 

  • Kana HA, Aliyu IA, Chammang HB (2012) Review on neglected and underutilized root and tuber crops as food security in achieving the millennium development goals in Nigeria. J Agric Vet Sci 4:27–33

    Google Scholar 

  • Kyesmu PM, Akueshi CO (1989) Effects of relative humidity variation on crude protein, crude fibre, fats and ash contents of Coleus Potato (Plectranthus esculentus NE Br.) under storage. Niger J Bot 2:1–7

    Google Scholar 

  • Larkin PJ, Scowcroft WR (1981) Somaclonal variation—a novel source of variability from cell cultures for plant improvement. Theor Appl Genet 60:197–214

    Article  CAS  PubMed  Google Scholar 

  • Lukhoba CW, Simmonds MS, Paton AJ (2006) Plectranthus: a review of ethnobotanical uses. J Ethnopharm 103(1):1–24

    Article  Google Scholar 

  • Mohankumar CR, Nair PG (1990) Production potential and economics of tuber crop based cropping system for low lands. Ind J Agron 35(1–2):44–49

    Google Scholar 

  • Moshi MJ, Kagashe GA, Mbwambo ZH (2005) Plants used to treat epilepsy by Tanzanian traditional healers. J Ethnopharm 97(2):327–336

    Article  Google Scholar 

  • Mukherjee I, Khoshoo TN (1971) Genetic-evolutionary studies on cultivated cannas. V. Intraspecific polyploidy in starch yielding Canna edulis. Genetica Iberica 23:35–42

  • Mukherjee A, Vimala B, Nambisan B, Chakrabarti SK, George J, Gowda H (2015) Underutilized tropical tuber crops with hidden treasure of food, nutrition and medicine. Int J Trop Agric 33(4):3803–3815

    Google Scholar 

  • National Research Council (2006) Lost crops of Africa, vol II: vegetables. National Academies Press, Washington, pp 269–285. ISBN 0-309-66582-5

    Google Scholar 

  • Naz F, Ali A, Iqbal Z, Akhtar N, Asghar S, Ahmed B (2011) Effect of different levels of NPK fertilizers on the proximate composition of potato crop at Abbattabad. Sarhad J Agric 27(3):353–356

    Google Scholar 

  • Niino T, Hettiarachchi A, Takahashi J, Samarajeewa PK (1999) Cryopreservation of lateral buds of in vitro-grown innala plants (Solemostemon rotundifolius) by vitrification. Cryo Lett 21(6):349–356

    Google Scholar 

  • Nkansah GO (2004) Solenostemon rotundifolius (Poir.) JK Morton. PROTA (Plant Resources of Tropical Africa/Ressources végétales de l’Afrique tropicale), Wageningen, Netherlands. [Published online: 2 September 2014]

  • NRI (1987) Root crops, 2nd edn. Tropical Development and Research Institute

  • Ogedegbe SA, Safwan II, Ajala BA (2015) Effects of seed tuber size and NPK fertilizer on some yield components of coleus potato (Solenostemon rotundifolius (Poir.) JK Morton). Int J Agri Rural Development 18(2):2240–2245

  • Okwu DE, Njoku EE (2009) Chemical composition and in vitro antifungal activity screening of seed and leaf extracts from Aframomum meleguata and Monodora myristica against Sclerotium rolfsii of cowpea plant (Vigna unguiculata (L.) Walp). Pest Technol 3(1):58–62

    Google Scholar 

  • Olojede AO, Iluebbey P, Dixon AGO (2005) Average chemical composition of some minor root crops germplasm collected from various locations in Nigeria. In: IITA/NRCRI collaborative germplasm and data collection on root and tuber crops in Nigeria. Annual Report National Root Crops Research Institute, Umudike, pp 77

  • Opoku-Agyeman MO, Bennett-Lartey SO, Vodouhe RS, Osei C, Quarcoo E, Boateng SK, Osekere EA (2004) Morphological characterization of frafra potato (Solenostemon rotundifolius) germplasm from the savannah regions of Ghana. In: Plant genetic resources and food security in West and Central Africa. Regional conference, Ibadan, Nigeria, Bioversity International, pp 116–123

  • Opoku-Agyeman MO, Bennett-Lartey SO, Vodouhe RS, Osei C, Quarcoo E, Boateng SK, Osekere EA (2007) Morphological characterization of frafra potato (Solenostemon rotundifolius) germplasm from the savannah regions of Ghana. In: Vodouhe R, Atta-Krah K, Achigan-Dako GE, Eyog-Matig O, Avohou H (eds) Plant genetic resources and food security in West and Central Africa. Regional conference, Ibadan, Nigeria, pp 26–30

  • Ouédraogo A, Sédego A, Zongo JD (2007) Perceptions paysannes de la culture et des utilisations du « fabirama » (Solenostemon rotundifolius (Poir.) JK Morton) dans le plateau central du Burkina Faso. Ann Bot Afr Ouest 4:13–21

    Google Scholar 

  • Padulosi S, Heywood V, Hunter D, Jarvis A (2011) Underutilized species and climate change: current status and outlook. In: Yadav SS, Robert JR, Hatfield JL, Hermann L-C, Anthony E (eds) Hall crop adaptation to climate change, first edition. Wiley Published 2011 by Blackwell Publishing Ltd

  • Padulosi S, Thompson J, Rudebjer P (2013) Fighting poverty, hunger and malnutrition with neglected and underutilized species (NUS): needs, challenges and the way forward. Bioversity International, Rome

    Google Scholar 

  • Peter KV (2007) Underutilized and underexploited horticultural crops, vol 1. New India Publishing, Delhi, pp 29–36

    Google Scholar 

  • Phungpanya C, Jumpatong K, Pripdeevech P, Thongpoon C, Machan T (2013) Chemical compositions and antibacterial activity of Plectranthus rotundifolius extracts. In: Pure and applied chemistry international conference

  • Pistrick K (2001) Labiatae (Lamiaceae). In: Hanelt P, Institute of Plant Genetics and Crop Plant Research (eds) Mansfeld´s Encyclopedia of agricultural and horticultural crops, vol 4. Springer, Berlin, pp 1940–2028

    Google Scholar 

  • Prathiba S, Nambisan B, Leelamma S (1995) Enzyme inhibitors in tuber crops and their thermal stability. Plant Foods Hum Nutr 48(3):247–257

    Article  Google Scholar 

  • Prematilake DP (2005) Inducing genetic variation of Innala (Solenostemon rotundifolius Poir.) via in vitro callus culture. J Natl Sci Found Sri Lanka 33(2):123–131

    Article  Google Scholar 

  • PROTA (Plant Resources of Tropical Africa) (2013) Solenostemon rotundifolius Poir. (Synonyms: Germania rotundifolius Poir., Plectranthus roundifolius Sims) database. http://uses.plantnet-project.org/en/Solenostemon_rotundifolius_(PROTA). Retrieved October 2017

  • Quain MD, Acheampong E, Egnin M, Berjak P (2012) Cryopreserving vegetatively propagated tropical crops-the case of Dioscorea Species and Solenostemon Rotundifolius. INTECH Open Access Publisher

  • Raymond MH, Sandy A, Andrey LB, Philip DC, Barry JC, Renee JG, Madeline MH, Rogier PJ, Tatyana VK, Ramon M, Alan JP, Olof R (2004) Labiatea. In: Klaus K (ed) The families and genera of vascular plants, vol VII. Springer-Verlag, Berlin

    Google Scholar 

  • Risa J, Risa A, Adsersen A, Gauguin B, Stafford GI, van Staden J, Jäger AK (2004) Screening of plants used in southern Africa for epilepsy and convulsions in the GABA A-benzodiazepine receptor assay. J Ethnopharm 93(2):177–182

    Article  Google Scholar 

  • Ryding O (1994) The importance of pericarp structure in the classification of Labiates. Lamiales Newsl 3:1–3

    Google Scholar 

  • Schippers RR (2000) African indigenous vegetables: an overview of the cultural species. National Resources Institute/ACP-EU. Technical Centre for Agricultural and Rural Cooperation, 12

  • Struik PC, Geertsema J, Custers CH (1989) Effects of shoot, root and stolon temperature on the development of the potato (Solanum tuberosum L.) plant. III. Development of tubers. Pot Res 32(2):151–158

    Article  Google Scholar 

  • Sugri I, Kusi F, Kanton RAL, Nutsugah SK, Zakaria M (2013) Sustaining Frafra potato (Solenostemon rotundifolius Poir.) in the food chain; current opportunities in Ghana. J Plant Sci 1(4):68–75

    Google Scholar 

  • Tadele Z (2009) Role of orphan crops in enhancing and diversifying food production in Africa. Afr Technol Dev Forum J 6(3):9–15

    Google Scholar 

  • Tarpaga WV (2001) Etude de la variabilité agromorphologique d’une collection de Solenostemon rotundifolius du Burkina Faso Mém d’Ing de Dev Rural, Univ Bobo-Dsso, Bobo Dsso, p. 56

  • Tindall HD (1983) Vegetables in the tropics. The Macmillan Press Limited, Basingstoke, pp 242–245

    Book  Google Scholar 

  • Turner SR, Touchell DH, Senarata T, Bunn E, Tan B, Dixon KW (2001) Effect of plant growth regulators on survival and recovery growth following cryopreservation. Cryo Lett 22:163–174

    CAS  Google Scholar 

  • Vasudevan K, Jos JS (1992) Variation of yield and quality in Coleus mutants. Madras Agric J 79:3–135

    Google Scholar 

  • Vimala B, Nambisan B (2005) Tropical minor tuber crops. Tech Bull 44:48

    Google Scholar 

  • Wang Q, Li P, Batuman Ö, Gafny R, Mawassi M (2003) Effect of benzyladenine on recovery of cryopreserved shoot tips of grapevine and citrus in vitro. Cryo Lett 24:293–302

    Google Scholar 

  • Wulueng W, Busson F, Jardin C (2000) Food composition table for use in Africa, United States Department of Health, Education and Welfare Nutrition division, pp 36, 306

  • Yayock JY, Lombion G, Owonubi JJ, Onazi OC (1988) Crop science and production in warm climates. Macmillian Publisher Ltd, London, p 307

  • Zada M, Zakir N, Rabbani MA, Shinwari ZK (2013) Assessment of genetic variation in Ethiopian mustard (Brassica carinata A. Braun) germplasm using multivariate techniques. Pak J Bot 45(S1):583–593

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Authors and Affiliations

  1. School of Biodiversity, Agriculture and Food, Society and the Environment (BASE), Université Paris-Saclay, Paris, France

    A. O. Kwarteng

  2. AgroParisTech, 16 rue Claude Bernard, Paris, France

    A. O. Kwarteng

  3. Department of Crop and Soil Sciences, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana

    A. O. Kwarteng, T. Ghunney, R. Adu Amoah, J. Abogoom, K. C. Nyam, J. Z. Ziyaaba, E. O. Danso, T. Whyte & D. D. Asiedu

  4. Cocoa Research Institute of Ghana, P. O. Box 8, Akim Tafo, Ghana

    D. Nyadanu

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  1. A. O. Kwarteng
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  2. T. Ghunney
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Kwarteng, A.O., Ghunney, T., Adu Amoah, R. et al. Current knowledge and breeding avenues to improve upon Frafra potato (Solenostemon rotundifolius (Poir.) J. K. Morton). Genet Resour Crop Evol 65, 659–669 (2018). https://doi.org/10.1007/s10722-017-0581-6

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