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Macrotyloma geocarpum (Harms) Maréchal & Baudet

Protologue  
 Bull. Jard. Bot. Etat 47(1–2): 50 (1977).
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Family  
 Papilionaceae (Leguminosae - Papilionoideae, Fabaceae)
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Chromosome number  
 2n = 20, 22
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Synonyms  
 Kerstingiella geocarpa Harms (1908).
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Vernacular names  
 Kersting’s groundnut, geocarpa groundnut, ground bean (En). Lentille de terre, fève de Kandale, doï, dohi (Fr).
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Origin and geographic distribution  
 The origin of Kersting’s groundnut is not known, but it may originate from northern Togo or central Benin. Supposedly wild types of Kersting’s groundnut are found in Cameroon and the Central African Republic, but these may be considered as representing a separate though related species. Kersting’s groundnut is cultivated in the West African savanna zone, from Senegal to Nigeria and Cameroon. It is also grown in Mauritius and Fiji and has been grown in Tanzania. Kersting’s groundnut is often said to be grown by elderly people only, e.g. in Ghana, and thus gradually going out of production.
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Uses  
 Kersting’s groundnut is cultivated primarily for its edible seeds. Mature seeds are boiled with salt and eaten with palm oil or groundnut oil, and accompanied with fermented cassava flour, called ‘gari’, yams or rice. They may also be boiled in soups and served to guests as a sign of honour. Dry seeds are ground into flour used in making cakes and other dishes. In central Benin, for instance, people eat a fried paste made from the seed alone (‘ata’) or with fermented maize paste (‘akassa’). Sometimes roasted seeds of black-seeded types or fresh unshelled pods are boiled with salt and eaten as snacks. Kersting’s groundnut seeds play an important role in traditional customs in West Africa, particularly in Togo, where they are used in funeral ceremonies of the Kabyé and Mauba people. This seems to have contributed largely to the survival of the crop in northern Togo. In many areas consumption is limited to the male members of the family, the headman in particular, and the seeds are a favourite dish of voodoo priests. In the tradition of the Sisala people of northern Ghana boiled seeds are the only food served to surviving children during the funeral of their mothers.
The leaves of Kersting’s groundnut are sometimes eaten as a vegetable or in soups. In northern Ghana and central Benin the water in which the seeds have been boiled is taken against diarrhoea. Powdered dry seed mixed with water or local beer (‘pita’) is used as an emetic in case of poisoning. Leaf decoctions act as a vermifuge. The Igbo of Nigeria use the plant in the treatment of dysentery, venereal diseases, fever and diabetes. In arid zones, the vegetative parts serve as fodder after the harvest.
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Production and international trade  
 Reliable production statistics for Kersting’s groundnut are not available because it is of little economic importance and mainly grown for local consumption. Some trade exists between neighbouring countries such as Togo, Benin and Nigeria, but no statistics exist. Because of the low yield and poor storage capability the economic importance of Kersting’s groundnut has decreased considerably in recent times.
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Properties  
 The composition of dried Kersting’s groundnut seeds per 100 g edible portion is: water 9.7 g, energy 1457 kJ (348 kcal), protein 19.4 g, fat 1.1 g, carbohydrate 66.6 g, fibre 5.5 g, Ca 103 mg, P 392 mg, Fe 15.0 mg, thiamin 0.76 mg, riboflavin 0.19 mg, niacin 2.3 mg and ascorbic acid 0 mg (Leung, Busson & Jardin, 1968). The content of essential amino acids per 100 g food is: tryptophan 155 mg, lysine 1280 mg, methionine 267 mg, phenylalanine 1125 mg, threonine 738 mg, valine 1209 mg, leucine 1485 mg and isoleucine 871 mg (FAO, 1970). Kersting’s groundnut seeds contain antinutritional factors, including tannins, haemagglutinins and phytate. Boiling pre-soaked (12 hours at 27°C) seeds for 30 minutes reduces tannin content by 98%, haemagglutinating activity by 100% and phytate level by 70%.
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Description  
 Annual herb with prostrate rooting stems; stem pubescent or almost glabrous, up to 10 cm long. Leaves alternate, 3-foliolate; stipules triangular-ovate, 2–7 mm long, pubescent; petiole erect, up to 25 cm long; rachis c. 7 mm long; stipels linear-lanceolate, 2–5 mm long; petiolules hirsute, lateral ones 1–2 mm long, terminal one 4–10 mm long; leaflets broadly ovate or obovate, 3–8 cm × 2–5.5 cm, glabrous, 3-veined from the base. Flowers in pairs or solitary in leaf axils, bisexual, papilionaceous, almost sessile; bracteoles lanceolate, (1–)3.5–4 mm long; calyx pilose, tube 2–2.5 mm long, lobes linear-lanceolate, (2–)3.5–4 mm long; corolla white or greenish-white, sometimes tinged with purple, standard 6–10 mm × 4.5–6 mm, wings 6–7 mm × 1.5 mm, keel 5.5–6 mm × 1 mm; stamens 10, 9 fused and 1 free; ovary superior, shortly stalked but stalk elongating during fruit development, 1-celled, style slender, curved, stigma minute. Fruit an indehiscent pod 0.5–2.5 cm × 0.5–1 cm, on a stalk up to 2 cm long, (1–)2(–3)-seeded, constricted between the seeds, maturing on or below the soil surface. Seeds oblong or oblong-ovoid, 5–10 mm × 4–7 mm × 3–5 mm, whitish, red, brown or black, sometimes striped, spotted or speckled. Seedling with epigeal germination, with cotyledons falling off about 2–3 days after emergence and 2–3 simple lanceolate primary leaves persisting until maturity.
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Other botanical information  
 Macrotyloma comprises about 25 species, most of which are restricted to Africa. In Macrotyloma geocarpum 2 varieties have been distinguished:
– var. geocarpum: internodes short, petiole 8–25 cm long, terminal leaflet up to 7.5 cm × 5 cm, pod (1–)2(–3)-seeded, seed c. 9 mm × 6 mm; only known from cultivation;
– var. tisserantii (Pellegr.) Maréchal & Baudet: internodes long, petiole up to 1 cm long, terminal leaflet up to 3.5 cm × 2.5 cm, pod 1(–2)-seeded, seed c. 5 mm × 4 mm; found wild in Cameroon and the Central African Republic, and perhaps better considered a separate species (originally described as Kerstingiella tisserantii Pellegr.), which is supported by the results of isozyme analysis and possibly also chromosome number.
Genotypes are distinguished on the basis of seed colour. White types are best known and used as food, whereas black types mainly serve as medicine or in cultural ceremonies, although they are also used as food.
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Growth and development  
 Germination of Kersting’s groundnut normally occurs within 3–5 days after sowing. The seedling emerges with simple, opposite primary leaves; the first 3-foliolate leaves appear after 5–10 days. Flowering starts 30–65 days after sowing and may continue until the plant dies. Self pollination is the rule and 2 days after fertilization a stalk is formed at the base of the ovary, carrying the ovary to the ground. This mechanism is similar to that in groundnut, but different from that in bambara groundnut, where the peduncle grows to the ground. Pods mature either on the soil surface or 1–2 cm under it. They reach maturity 40–60 days after flower opening. The duration of the crop cycle is 90–180 days. Kersting’s groundnut effectively nodulates with nitrogen-fixating bacteria of the Bradyrhizobium group.
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Ecology  
 Kersting’s groundnut is found at altitudes up to 1600 m. It requires ample sunshine and an average temperature of 18–34ºC. It is grown successfully in semi-arid regions with an annual rainfall of 500–600 mm in 4–5 months, but it is also found on the fringes of the humid tropics. Kersting’s groundnut tolerates poor, sandy soils, but sandy loams are required for optimum yields. It is often found on slightly acid soils (pH 5).
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Propagation and planting  
 Kersting’s groundnut is propagated by seed. Seeds used for planting are retained from the previous harvest though some farmers may buy them locally. The 1000-seed weight is 50–150 g. In West Africa Kersting’s groundnut is sown from the beginning to the middle of the rainy season. It is grown mostly in small fields or backyards, in pure stands or intercropped with yam, cowpea, cassava or other crops on mounds, beds or ridges. When grown as a sole crop, it is often the first crop in a rotation, planted in rows 30–40 cm apart and 15 cm within the row.
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Management  
 Cultivation of Kersting’s groundnut is traditional and management mainly consists of 2–3 manual weedings. The use of inorganic fertilizers is not common.
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Diseases and pests  
 In semi-arid regions Kersting’s groundnut is not subject to serious attacks from diseases or pests. In more humid regions fungal diseases (rust, mould) may occur. Stored seed is very liable to infestation by weevils (Piezotrachelus spp.) and beetles (Bruchidae).
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Harvesting  
 Kersting’s groundnut is harvested when leaves start to turn yellow and wither. As the crop is harvested in the dry season, farmers generally dig up whole plants using a hoe and leave them in the field to dry for a few days, after which the pods are picked by hand, allowing easy separation of the pods. Often some seeds are left in the ground after harvesting and germinate with the return of the rains, thus enabling Kersting’s groundnut to persist in a semi-wild state.
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Yield  
 Dry seed yields of Kersting’s groundnut average 500 kg/ha.
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Handling after harvest  
 After harvest, the pods of Kersting’s groundnut are dried in the sun to a moisture content of about 12% and stored in granaries or anywhere in the house. They are shelled using a pestle and mortar or by beating with sticks. Usually the major part of the production is sold. Seeds are mostly kept in sealed containers. They are mixed with sand, pepper, ash or insecticide to ensure longer storage.
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Genetic resources and breeding  
 Work on the genetic resources of Kersting’s groundnut is relatively recent, and only a few small collections are available. Twelve accessions collected in West and Central Africa are kept in the gene bank of the International Institute of Tropical Agriculture, Ibadan, Nigeria. Other collections are present in Guinea (Bureau des Ressources Phytogénétiques, Conakry, 8 accessions), Ghana (Plant Genetic Resources Centre, Bunso, 8 accessions), Togo (Institut de Recherches Agronomiques Tropicales et des Cultures Vivrières, Lomé, 8 accessions) and Benin (Agricultural Research Centre of South Benin, Niaouli, 6 accessions). Little is known of the genetic diversity of Kersting’s groundnut. In a recent survey of allozyme variation no diversity was found within and among domesticated accessions and within and among wild accessions, but the difference between domesticated and wild accessions was much larger than that found in other tropical legume species.
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Breeding  
 No breeding programmes of Kersting’s groundnut are known to exist.
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Prospects  
 Kersting’s groundnut is a traditional crop of West Africa, and it has largely been replaced by more productive and profitable crops, such as groundnut and cowpea. The low yields, small size of the seeds, amount of labour required for harvesting, and the liability to storage pests are the main causes for its decline. Kersting’s groundnut has not entirely disappeared due to its role in traditional ceremonies, but the fact that at present it is mainly grown by elderly people indicates that the decline will continue and that the prospects for this crop are bleak.
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Major references  
 • Achigan Dako, E., Vodouhè, S.R. & Koukè, A., 2003. Collecte des ressources génétiques du voandzou (Vigna subterranea (L.) Verdc.) et du dohi (Macrotyloma geocarpum (Harms) Maréch. et Baud.) au Centre Bénin. In: Agossou, A., Amandji, F., Agbo, B. & Tandjiékpon, A. (Editors). Actes de l’atelier scientifique du Centre des Recherches Agricoles du Centre-Savè. 18–19 décembre 2002, Dassa, Bénin. Institut National des Recherches Agricoles du Bénin, Cotonou, Bénin. pp. 93–107.
• Amuti, K., 1980. Geocarpa groundnut (Kerstingiella geocarpa) in Ghana. Economic Botany 34(4): 358–361.
• Baudoin, J.-P. & Mergeai, G., 2001. Kersting’s groundnut. In: Raemaekers, R.H. (Editor). Crop production in tropical Africa. DGIC (Directorate General for International Co-operation), Ministry of Foreign Affairs, External Trade and International Co-operation, Brussels, Belgium. pp. 352–354.
• Burkill, H.M., 1995. The useful plants of West Tropical Africa. 2nd Edition. Volume 3, Families J–L. Royal Botanic Gardens, Kew, Richmond, United Kingdom. 857 pp.
• Kay, D.E., 1979. Food legumes. Crops and Product Digest No 3. Tropical Products Institute, London, United Kingdom. 435 pp.
• Maréchal, R. & Baudet, J.C., 1977. Transfert du genre africain Kerstingiella Harms à Macrotyloma (Wight & Arn.) Verdc. (Papilionaceae). Bulletin du Jardin Botanique National de Belgique 47: 49–52.
• Mergeai, G., 1993. Influence des facteurs sociologiques sur la conservation des ressources phytogénétiques. Le cas de la lentille de terre (Macrotyloma geocarpum (Harms) Maréchal & Baudet) au Togo. Bulletin des Recherches Agronomiques de Gembloux 28(4): 487–500.
• Pasquet, R.S., Mergeai, G. & Baudoin, J.-P, 2002. Genetic diversity of the African geocarpic legume Kersting’s groundnut, Macrotyloma geocarpum (tribe Phaseoleae: Fabaceae). Biochemical Systematics and Ecology 30: 943–952.
• Rehm, S., 1989. Spezieller Pflanzenbau in den Tropen und Subtropen. 2nd Edition. Handbuch der Landwirtschaft und Ernährung in den Entwicklungsländer, Band 4. Verlag Eugen Ulmer, Stuttgart, Germany. 653 pp.
• Verdcourt, B., 1982. A revision of Macrotyloma (Leguminosae). Hooker’s Icones Plantarum 38(4): 1–138.
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Other references  
 • Berhaut, J., 1976. Flore illustrée du Sénégal. Dicotylédones. Volume 5. Légumineuses Papilionacées. Gouvernement du Sénégal, Ministère du Développement Rural et de l’Hydraulique, Direction des Eaux et Forêts, Dakar, Senegal. 658 pp.
• Busson, F., 1965. Plantes alimentaires de l’ouest Africain: étude botanique, biologique et chimique. Leconte, Marseille, France. 568 pp.
• Dakora, F.D. & Muofhe, L.M., 1997. Nitrogen fixation and nitrogen nutrition in symbiotic bambara groundnut (Vigna subterranea (L.) Verdc.) and Kersting’s bean (Macrotyloma geocarpum (Harms) Marech. et Baud.). In: Heller, J., Begemann, F. & Mushonga, J. (Editors). Bambara groundnut. Vigna subterranea (L.) Verdc. Proceedings of the workshop on conservation and improvement of bambara groundnut (Vigna subterranea (L.) Verdc.), 14–16 November 1995, Harare, Zimbabwe. Promoting the conservation and use of underutilized and neglected crops No 9. International Plant Genetic Resources Institute, Rome, Italy. pp. 72–77.
• Duke, J.A., 1981. Handbook of legumes of world economic importance. Plenum Press, New York, United States, and London, United Kingdom. 345 pp.
• FAO, 1970. Amino-acid content of foods and biological data on proteins. FAO Nutrition Studies No 24, Rome, Italy. 285 pp.
• Gillett, J.B., Polhill, R.M., Verdcourt, B., Schubert, B.G., Milne-Redhead, E., & Brummitt, R.K., 1971. Leguminosae (Parts 3–4), subfamily Papilionoideae (1–2). In: Milne-Redhead, E. & Polhill, R.M. (Editors). Flora of Tropical East Africa. Crown Agents for Oversea Governments and Administrations, London, United Kingdom. 1108 pp.
• Goli, A.E., 1997. Germplasm-collecting missions in Africa in the 1980s. Plant Genetic Resources Newsletter 111: 1–18.
• Hepper, F.N., 1958. Papilionaceae. In: Keay, R.W.J. (Editor). Flora of West Tropical Africa. Volume 1, part 2. 2nd Edition. Crown Agents for Oversea Governments and Administrations, London, United Kingdom. pp. 505–587.
• Hepper, F.N., 1963. Plants of the 1957–58 West African expedition: 2. The bambara groundnut (Voandzeia subterranea) and Kersting’s groundnut (Kerstingiella geocarpa) wild in West Africa. Kew Bulletin 16: 395–407.
• ILDIS, 2002. World database of Legumes, Version 6,05. International Legume Database & Information Service. [Internet] http://www.ildis.org/. Accessed November 2003.
• IPGRI, undated. Directory of Germplasm Collections. [Internet] http://www.ipgri.cgiar.org. Accessed September 2004.
• Irvine, F.R., 1969. West African agriculture, 3rd Edition. Volume 2: West African Crops. Oxford University Press, London, United Kingdom. 272 pp.
• Leakey, C.L.A. & Wills, J.B., 1977. Food crops of the lowland tropics. Oxford University Press, Oxford, United Kingdom. 345 pp.
• Leung, W.-T.W., Busson, F. & Jardin, C., 1968. Food composition table for use in Africa. FAO, Rome, Italy. 306 pp.
• Obasi, M.O., 1997. Effect of processing on antinutritional factors in edible seeds of Kersting’s groundnut (Kerstingiella geocarpa Harms). Ghana Journal of Science 31–36: 67–71.
• Purseglove, J.W., 1968. Tropical Crops. Dicotyledons. Longman, London, United Kingdom. 719 pp.
• Rehm, S. & Espig, G., 1991. The cultivated plants of the tropics and subtropics: cultivation, economic value, utilization. CTA, Ede, Netherlands. 552 pp.
• Schuster, W.H., Alkämper, J., Marquard, R., Stählin, A. & Stählin, L., 1998. Leguminosen zur Kornnutzung (Kornleguminosen der Welt). Giessener Beiträge zur Enwicklungsforschung. Reihe 2 (Monographien), Band 11. Förderverein Tropeninstitut Giessen, Giessen, Germany. CD-ROM.
• Smartt, J., 1976. Tropical pulses. Longman, London, United Kingdom. 348 pp.
• Tamini, Z., 1995. Etude ethnobotanique de la lentille de terre (Macrotyloma geocarpum Maréchal et Baudet) au Burkina Faso. Journal d’Agriculture Traditionelle et de Botanique Appliquée, nouvelle série, 37(1): 187–199.
• Verdcourt, B., 1980. The classification of Dolichos L. emend. Verdc., Lablab Adans., Phaseolus L., Vigna Savi and their allies. In: Summerfield, R.J. & Bunting, A.H. (Editors). Advances in legume science. Volume 1 of the proceedings of the international legume conference, Kew, 31 July – 4 August 1978, held under auspices of the Royal Botanic Gardens, Kew, the Missouri Botanical Garden, and the University of Reading. Royal Botanic Gardens, Kew, Richmond, United Kingdom. pp. 45-48.
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Afriref references  
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Sources of illustration  
 • Verdcourt, B., 1982. A revision of Macrotyloma (Leguminosae). Hooker’s Icones Plantarum 38(4): 1–138.
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Author(s)  
 
E.G. Achigan Dako
IPGRI West and Central Africa, 08 B.P. 0932, Cotonou, Benin
S.R. Vodouhè
IPGRI West and Central Africa, 08 B.P. 0932, Cotonou, Benin


Editors  
 
M. Brink
PROTA Network Office Europe, Wageningen University, P.O. Box 341, 6700 AH Wageningen, Netherlands
G. Belay
Ethiopian Agricultural Research Organization, Debre Zeit Center, P.O. Box 32, Debre Zeit, Ethiopia
Associate editors  
 
J.M.J. de Wet
Department of Crop Sciences, Urbana-Champaign, Turner Hall, 1102 South Goodwin Avenue, Urbana, IL 61801, United States
O.T. Edje
Faculty of Agriculture, University of Swaziland, P.O. Luyengo, Luyengo, Swaziland
E. Westphal
Ritzema Bosweg 13, 6706 BB Wageningen, Netherlands
General editors  
 
R.H.M.J. Lemmens
PROTA Network Office Europe, Wageningen University, P.O. Box 341, 6700 AH Wageningen, Netherlands
L.P.A. Oyen
PROTA Network Office Europe, Wageningen University, P.O. Box 341, 6700 AH Wageningen, Netherlands
Photo editor  
 
A. de Ruijter
PROTA Network Office Europe, Wageningen University, P.O. Box 341, 6700 AH Wageningen, Netherlands
Correct citation of this article  
 Achigan Dako, E.G. & Vodouhè, S.R., 2006. Macrotyloma geocarpum (Harms) Maréchal & Baudet. [Internet] Record from PROTA4U. Brink, M. & Belay, G. (Editors). PROTA (Plant Resources of Tropical Africa / Ressources végétales de l’Afrique tropicale), Wageningen, Netherlands. <http://www.prota4u.org/search.asp>. Accessed .



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General importance
Geographic coverage Africa
Geographic coverage World
Cereals and pulses
Vegetables
Forage/feed use
Medicinal use
Food security



Macrotyloma geocarpum
wild and planted



Macrotyloma geocarpum
1, plant habit; 2, fruit; 3, seed. Redrawn and adapted by Iskak Syamsudin



Macrotyloma geocarpum
flowers



Macrotyloma geocarpum
flowers



Macrotyloma geocarpum
subterranean fruit



Macrotyloma geocarpum
fruits and seeds


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