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Irvingia gabonensis (Aubry-Lecomte ex O’Rorke) Baill.

Traité Bot. Méd. Phan. 2: 881 (1884).
Chromosome number
2n = 28
Vernacular names
Sweet bush mango, rainy season bush mango, dika nut tree, dika bread tree (En). Dika, odika, manguier sauvage, chocolatier, ogbono (Fr).
Origin and geographic distribution
Irvingia gabonensis is indigenous to the humid forest zone of the Gulf of Guinea from western Nigeria east to the Central African Republic, and south to Cabinda (Angola) and the westernmost part of DR Congo; it also occurs in São Tomé et Príncipe. It is planted in parts of this area, e.g. in south-western Nigeria and southern Cameroon, and also in Côte d’Ivoire, Ghana, Togo and Benin.
Kernels of the fruits of Irvingia gabonensis, called ‘ugiri’ in Igbo or ‘apon’ in Yoruba, yield an important food additive popular in West and Central Africa. They are processed by grinding and crushing, and then used to thicken soups and stews. The kernels are also made into a cake called ‘dika bread’ or ‘odika bread’ for year-round preservation and easy use. An edible oil is extracted from the seed that is used in cooking. As it is solid at ambient temperatures it has been used as a substitute for cocoa butter, and for soap-making. The presscake is suitable for thickening soup and is a good cattle feed. Unlike the fruit pulp of most other Irvingia spp. which is bitter, the pulp of the fruit of Irvingia gabonensis is juicy and sweet and eaten fresh. It can be used for the preparation of juice, jelly, jam and wine. The pulp has also been used to prepare a black dye for cloth.
Irvingia gabonensis is commonly preserved on farms to provide shade for crops, especially cocoa and coffee. The medicinal uses of Irvingia spp. are many, but it is difficult to assign them to individual species. Preparations from the bark are rubbed on to the body to relieve pains and are applied to sores and wounds and against toothache. They are also taken to treat diarrhoea. Igbo people use a leaf extract as a febrifuge. In Cameroon preparations mainly from the bark are used to treat hernia and yellow fever and as an antidote for poisoning. Kernels are used to treat diabetes. The wood, called ‘andok’ in Cameroon, is used locally for heavy construction work and for making ships’ decks, paving blocks and planking. Young trees are used for making poles and stakes, while branches are made into walking sticks or thatched roof supports. Dead branches are used as firewood.
Production and international trade
Irvingia gabonensis is cultivated for commercial production in southern Nigeria and southern Cameroon. Fruit is only traded locally, but kernels are widely and extensively traded domestically, from the forest zone to the savanna zone and between countries in West and Central Africa. They are exported to Europe. Cameroon is probably the main exporter. The combined export trade of the kernels of Irvingia gabonensis and Irvingia wombolu Vermoesen from Cameroon has been valued at US$ 260,000 per year for 107 t. The fruit kernels are very common throughout the year in the markets of Libreville (Gabon). They originate from the local forest, but are also commonly imported from Cameroon and Equatorial Guinea. The wood of Irvingia is mainly used locally and is rarely exported.
The nutritive value of the kernels per 100 g edible portion is: water 4 g, energy 2918 kJ (697 kcal), protein 8.5 g, fat 67 g, carbohydrate 15 g, Ca 120 mg, Fe 3.4 mg, thiamin 0.22 mg, riboflavin 0.08 mg, niacin 0.5 mg (Platt, 1962). Drawability (sliminess) and viscosity of soups imparted by the kernels varies between kernels from different trees. They are generally less than those caused by kernels of Irvingia wombolu. Fat content of kernels also varies between trees and is 37.5–75 g/100 g; the approximate fatty acid composition is: lauric acid 20–59%, myristic acid 33–70%, palmitic acid 2%, stearic acid 1% and oleic acid 1–11%. The residue obtained after separation from the fat has good properties for processing in the food industry.
The nutritive value of the fruit pulp per 100 g edible portion is: water 81 g, energy 255 kJ (61 kcal), protein 0.9 g, fat 0.2 g, carbohydrate 15.7 g, Ca 20 mg, P 40 mg, Fe 1.8 mg, ascorbic acid 7.4 mg (Leung, Busson & Jardin, 1968). The main flavour components of the fruit pulp are zingiberene and α-curcumene, ethyl and methyl esters of cinnamic acid, dodecanal and decanol imparting spicy-earthy, fruity and wine-yeast flavour notes. The pulp yields about 75% juice. Wine produced from it was found to be of good colour, mouthfeel, flavour and general acceptability.
Heartwood of Irvingia gabonensis and Irvingia wombolu is pale greenish brown or orange-yellow fading to greyish brown; sapwood is lighter, but not always clearly differentiated. The grain is straight or interlocked, texture fine to medium.
The wood is fairly heavy. The density is 930–1002 kg/m³ at 12% moisture content. The shrinkage rates are high, from green to oven dry 6.5–7.1% radial and 10.2–12.6% tangential. To avoid end surface checking, logs should be converted soon after felling, preferably by quarter-sawing.
At 12% moisture content, the modulus of rupture is 163–217 N/mm², modulus of elasticity 18,700–21,700 N/mm², compression parallel to grain 69–79 N/mm², Chalais-Meudon side hardness 5.7–12.7, shear 15 N/mm², cleavage 19–34 N/mm. The timber is moderately difficult to saw or plane and tools should be kept sharp. It dresses to a smooth finish and glues well. Nailing is difficult. The timber is durable and fairly resistant to termites, but susceptible to powder-post beetles and marine borers. The heartwood is untreatable, the sapwood resistant to preservatives.
The stem bark was found to have analgesic effects in tests with mice. Aqueous extracts of the leaves have caused a reduction in intestinal motility in test animals. Addition of a supplement of 4 g/day of ‘dika bread’ to the diet of type-2 diabetes patients reduced plasma glucose and lipid levels.
Adulterations and substitutes
The kernels of all Irvingia species are used as a thickener for soups and stews. Groundnuts and okra are used similarly in West and Central Africa.
Small to large tree up to 40 m tall; bole generally straight, up to 100 cm in diameter, with buttresses up to 3 m high; outer bark smooth to scaly, grey to yellow-grey, inner bark yellow, fibrous; crown spherical or taller than wide, dense. Leaves alternate, simple and entire; stipules up to 4 cm long, unequal, forming a cone protecting the bud, caducous, leaving an annular scar on the branches; petiole up to 5 mm long; blade elliptical, 4.5–8 cm × 2–4 cm, base cuneate, apex acute or indistinctly acuminate, thinly leathery, pinnately veined. Inflorescence an axillary panicle up to 9 cm long. Flowers bisexual, regular, 5-merous, small; pedicel up to 5 mm long; sepals free, 1–1.5 mm long; petals free, 3–4 mm long, yellowish white; stamens 10, inserted below disk, free, equal, filaments 4–5 mm long; disk 1.5 mm in diameter, bright yellow, nectariferous; ovary superior, 2-celled, style 1–2 mm long. Fruit an ellipsoid to cylindrical drupe, occasionally nearly spherical, slightly laterally compressed, 4–6.5 cm × 4–6.5 cm × 3.5–6 cm, smooth, green when ripe; pulp bright orange, soft, juicy, sweet to slightly bitter, with a few weak fibres, stone woody, 1-seeded. Seed 2.5–4 cm × 1.5–2.5 cm × c. 1 cm. Seedling with epigeal germination.
Other botanical information
Irvingia comprises 7 species, 6 in tropical Africa and 1 in South-East Asia. Irvingia gabonensis is closely related to and difficult to distinguish from Irvingia wombolu. Irvingia gabonensis has edible fruit pulp while that of Irvingia wombolu is bitter and inedible. Both species are called bush mango: rainy season bush mango for Irvingia gabonensis and dry season bush mango for Irvingia wombolu, in accordance with their respective fruiting periods. Some authorities consider Irvingia wombolu merely a variety of Irvingia gabonensis. Because of the long history of protection and cultivation, others consider them cultivars of a single species. However, DNA analyses indicate that the 2 taxa are clearly genetically distinct and do not (or hardly) hybridize, even where sympatric.
Irvingia excelsa Mildbr. is a large rainforest tree occurring from Cameroon to Gabon and DR Congo. The pulp of its fruit is hard, stiff-fibrous and inedible. The seeds are eaten like those of other Irvingia spp.
Irvingia robur Mildbr., a large tree with a disjunct distribution, occurs from Sierra Leone to Côte d’Ivoire and from Nigeria to DR Congo. It fruits and flowers year-round, but with a flowering peak in the dry season and fruiting peak in the rainy season. It occurs in forest on dry land.
Irvingia smithii Hook.f. occurs in forest and savanna from Nigeria to Sudan and throughout DR Congo to Angola. Its fresh fruits are sucked for their sweet pulp. The oil-rich seeds are eaten raw in the Central African Republic and DR Congo. The wood is locally used as timber. A decoction of the bark is taken against dysentery. Irvingia smithii always grows near water. The fresh fruits contain characteristic air bubbles and float.
Wood-anatomical description (IAWA hardwood codes):
Growth rings: 2: growth ring boundaries indistinct or absent. Vessels: 5: wood diffuse-porous; 13: simple perforation plates; 22: intervessel pits alternate; 23: shape of alternate pits polygonal; 26: intervessel pits medium (7–10 μm); 30: vessel-ray pits with distinct borders; similar to intervessel pits in size and shape throughout the ray cell; 31: vessel-ray pits with much reduced borders to apparently simple: pits rounded or angular; 32: vessel-ray pits with much reduced borders to apparently simple: pits horizontal (scalariform, gash-like) to vertical (palisade); 42: mean tangential diameter of vessel lumina 100–200 μm; (46: 5 vessels per square millimetre); 47: 5–20 vessels per square millimetre; 56: tyloses common. Tracheids and fibres: 61: fibres with simple to minutely bordered pits; 66: non-septate fibres present; 70: fibres very thick-walled. Axial parenchyma: 85: axial parenchyma bands more than three cells wide; 86: axial parenchyma in narrow bands or lines up to three cells wide; 93: eight (5–8) cells per parenchyma strand. Rays: 97: ray width 1–3 cells; (102: ray height > 1 mm); 104: all ray cells procumbent; (106: body ray cells procumbent with one row of upright and/or square marginal cells); 115: 4–12 rays per mm. Mineral inclusions: 136: prismatic crystals present; 142: prismatic crystals in chambered axial parenchyma cells.
(N.P. Mollel, P. Détienne & E.A. Wheeler)
Growth and development
Growth in young plants is very slow; later it becomes moderately fast. In Onne (Nigeria), on an acid Ultisol and with an annual rainfall of 2400 mm, 12-year-old trees had reached a height of 12 m and a stem diameter (1.3 m above the ground) of 17 cm. In Ibadan (Nigeria), on an Alfisol and with an annual rainfall of 1280 mm, they reached a height of 8 m and a stem diameter of 12 cm. The flowering season is not clearly defined, but flowering occurs mainly in the late dry season or early rainy season, in April in south-western Cameroon and in September–October in Gabon. Fruits are mature about 4 months later. In cultivation in Côte d’Ivoire some trees flower year-round. The flowers are pollinated by a variety of insects and self-pollination is rare. In the wild trees start fruiting when 10–15 years old, but planted trees may first fruit after 4 years. After the fruits fall the pulp rots away quickly. Successful germination in elephant dung is common. The thickness of the kernel wall varies from strong and thick to thin and brittle. Trees have been identified in which kernels split open spontaneously. Seed is recalcitrant.
The preferred habitat of Irvingia gabonensis is moist lowland tropical forest below 1000 m altitude and with annual rainfall of 1500–3000 mm and mean annual temperatures of 25–32°C. Irvingia gabonensis is better adapted to acid Ultisols in high-rainfall areas than to less acidic Alfisols; it prefers well-drained sites. Often 2–3 trees grow together and in some areas it is reported to be gregarious. The presence of Irvingia gabonensis is often associated with former human habitation. Trees are fire tender.
Propagation and planting
Irvingia gabonensis is mainly propagated by seed. When farmers plant it, they choose seed from selected trees on their own farm, from neighbours, or from the market. Criteria for selection are large fruit size, good taste, high yield, regular production (every year), early maturity, good sliminess and drawability of kernels and easy kernel extraction. Transplanting of wildlings and retainment and protection of wildlings when clearing land for agriculture are common. Germination of Irvingia gabonensis seeds takes more than 14 days and they should first be extracted from the fruit and dried for at least 2 days. A germination rate of 80% can be reached in this way. Methods of vegetative propagation through rooting of leafy stem cuttings under mist have been developed, and micropropagation, grafting and marcotting experiments are in progress. Preliminary results show that plants from bush mango marcotts can fruit 2–2.5 years after transplanting.
Although in most areas Irvingia gabonensis occurs in wild stands or is retained in plantations of cocoa, coffee or annual food crops or in home gardens, it is commonly planted in some regions. Management tasks mostly include pruning, harvesting (gathering and picking) and fertilization.
Diseases and pests
No diseases or pest of Irvingia gabonensis trees have been recorded. Seeds are infested by larvae of the merchant grain beetle (Oryzaephilus mercator). Eggs are laid between the testa and cotyledons of the seed or in cracks in the cotyledons. Preventing cracks helps to prevent infestation.
Irvingia gabonensis fruits are mostly gathered from the ground around each tree, or harvested by climbing when the tree is not too tall. The next step consists of extracting kernels from seed, which is split in halves with a cutlass, and the kernel is removed with the help of a knife. The kernels are then dried in the sun or on bamboo drying racks over the fireplace in the kitchen.
In Onne (Nigeria) 12-year-old trees have yielded 1060 fruits (180 kg) per tree, but in drier areas yields are much lower. Good kernel yields are about 100 kg/tree.
Handling after harvest
The preparation of ‘dika bread’ consists of drying, roasting and grinding or pounding the kernels. The paste obtained is put in a container or ‘cake tin’ and left to cool for a few hours. Once solid, the cake is removed from the container and is ready for use. If well dried, it can be stored for more than a year. Sometimes women place a tin below the grid on which the dika cake is stored, to collect the oil that drips from it. In Gabon ‘dika bread’ is marketed in cakes of 100–5000 g. Oil is extracted by boiling the ground kernels and scooping off the oil.
Genetic resources
Three centres of genetic diversity in Irvingia gabonensis have been identified: southern Cameroon, south-eastern Nigeria and central Gabon. Germplasm collections made in the distribution range of Irvingia gabonensis have led to the creation of gene banks in Cameroon and Nigeria by ICRAF and its collaborative partners in the region.
Irvingia gabonensis is fairly widespread. It does not seem to be in danger of genetic erosion. It is classified in the IUCN Red List as a lower risk species, but being close to the qualification ‘vulnerable’
Assessment of the variation in tree characters among planted trees in south-western Cameroon indicates that farmers have traditionally selected for large fruit and kernel size and easy extractability. ICRAF has started a systematic programme of domestication of Irvingia gabonensis. This programme utilizes the variability by selecting trees with desirable traits and propagating them, while keeping a broad genetic base. A clonal approach aimed at cultivar development has been adopted. An assessment of the variability in fruits and kernel traits was made and trees were selected on the basis of desired fruit characteristics. Studies are in progress for the development of methods of marcotting and grafting Irvingia gabonensis to capture desired traits in domesticating this species.
Kernels of Irvingia gabonensis are widely traded domestically and between countries in West and Central Africa, indicating that demand is likely to increase. Domestication of this species offers great opportunity for the sustainability of production. The development of methods of transformation and preservation of the product will further add value and expand its market.
Major references
• Atangana, A.R., Tchoundjeu, Z., Fondoun, J.-M., Asaah, E., Ndoumbe, M. & Leakey, R.R.B., 2001. Domestication of Irvingia gabonensis: 1. Phenotypic variation in fruits and kernels in two populations from Cameroon. Agroforestry Systems 53: 55–64.
• Ayuk, E.T., Duguma, B., Franzel, S., Kengue, J., Mollet, M., Tiki Manga, T. & Zenkeng, P., 1999. Uses, management and economic potential of Irvingia gabonensis in the humid lowlands of Cameroon. Forest Ecology and Management 113(1): 1–9.
• Harris, D.J., 1993. A taxonomic revision and an ethnobotanical survey of the Irvingiaceae in Africa. PhD thesis, Linacre College, University of Oxford, Oxford, United Kingdom. 276 pp.
• Harris, D.J., 1996. A revision of the Irvingiaceae in Africa. Bulletin du Jardin Botanique National de Belgique 65: 143–196.
• Leakey, R.R.B., Fondoun, J-M., Atangana, A. & Tchoundjeu, Z., 2000. Quantitative descriptors of variation in the fruits and seeds of Irvingia gabonensis. Agroforestry Systems 50: 47–58.
• Leakey, R.R.B., Greenwell, P., Hall, M.N., Atangana, A.R., Usoro, C., Anegbeh, P.O., Fondoun, J M. & Tchoundjeu, Z., 2005. Domestication of Irvingia gabonensis: 4. Tree-to-tree variation in food-thickening properties and in fat and protein contents of dika nut. Food Chemistry 90: 365–378.
• Lowe, A.J., Gillies, A.C.M., Wilson, J. & Dawson, I.K., 2000. Conservation genetics of bush mango from central/west Africa, implications from RAPD analysis. Molecular Ecology 9: 831–841.
• Ndoye, O., Ruiz-Pérez, M. & Eyebe, A., 1998. The markets of non-timber forest products in the humid forest zone of Cameroon. Rural Development Forestry Network Paper 22c, ODI, London, United Kingdom. 20 pp.
• Richter, H.G. & Dallwitz, M.J., 2000. Commercial timbers: descriptions, illustrations, identification, and information retrieval. [Internet]. Version 18th October 2002. Accessed March 2006.
• Shiembo, P.N., Newton, A.C. & Leakey, R.R.B., 1996. Vegetative propagation of Irvingia gabonensis, a West African fruit tree. Forest Ecology and Management 87: 185–192.
Other references
• Adamson, I., Okafor, C. & Abu-Bakare, A., 1986. Erythrocyte membrane ATPases in diabetes: effect of dikanut (Irvingia gabonensis). Enzyme 36(3): 212–215.
• Akubor, P.I., 1996. The suitability of African bush mango juice for wine production. Plant Foods for Human Nutrition 49: 213–219.
• Atangana, A.R., Ukafor, V., Anegbeh, P., Asaah, E., Tchoundjeu, E., Fondoun, J-M., Ndoumbe, M. & Leakey, R.R.B., 2002. Domestication of Irvingia gabonensis: 2. The selection of multiple traits for potential cultivars from Cameroon and Nigeria. Agroforestry Systems 55(3): 221–229.
• Burkill, H.M., 1994. The useful plants of West Tropical Africa. 2nd Edition. Volume 2, Families E–I. Royal Botanic Gardens, Kew, Richmond, United Kingdom. 636 pp.
• Chudnoff, M., 1980. Tropical timbers of the world. USDA Forest Service, Agricultural Handbook No 607, Washington D.C., United States. 826 pp.
• Dudu, P.O., Okiwelu, S.N. & Lale, N.E.S., 1998. Oviposition of Oryzaephilus mercator (Fauvel) (Coleoptera: Silvanidae) on Arachis hypogaea (L.) (Papilionaceae), Citrullus lanatus (Thunb.) (Cucurbitaceae) and Irvingia gabonensis var. excelsa (Baillon) (Irvingiaceae). Journal of Stored Products Research 34(1): 37–44.
• Ejiofor, M.A.N., Onwubuke, S.N. & Okafor, J.C., 1987. Developing improved methods of processing and utilization of the kernels of Irvingia gabonensis (var. gabonensis and var. excelsa). International Tree Crops Journal 4: 283–290.
• Giami, S.Y., Okonkwo, V.L. & Akusu, M.O., 1994. Chemical composition and functional properties of raw, heat-treated and partially proteolysed wild mango (Irvingia gabonensis) seed flour. Food Chemistry 49: 237–243.
• Harris, D.J., 1999. Part 1. Irvingiaceae. In: Orchard, A.E. (Editor). Species plantarum. Flora of the World. Australian Biological Resources Study, Canberra, Australia. 25 pp.
• InsideWood, undated. [Internet] Accessed May 2007.
• Kang, B.T., Akinnifesi, F.K. & Ladipo, D.O., 1994. Performance of selected woody agroforestry species grown on an Alfisol and an Ultisol in the humid lowland of West Africa, and their effects on soil properties. Journal of Tropical Forest Science 7(2): 303–312.
• Okafor, J.C., 1975. Varietal delimitation in Irvingia gabonensis (Irvingiaceae). Bulletin du Jardin Botanique National de Belgique 45(1–2): 211–221.
• Okafor, J.C. & Ujor, G., 1994. Varietal differences in Irvingia gabonensis. In: Ladipo, D.O. & Boland, D. (Editors). Bush mango and close relatives. Proceedings of a West African Collection Workshop held in Ibadan, Nigeria, 10–11 May 1994. ICRAF, Nairobi, Kenya. pp. 5–10.
• Okolo, C.O., Johnson, P.B., Abdurahman, E.M., Abdu-Aguye, I. & Hussaini, I.M., 1995. Analgesic effect of Irvingia gabonensis stem bark extract. Journal of Ethnopharmacology 45(2): 125–129.
• Omokolo, N.D., Fotso, O. & Mbouna, D., 2004. Propagation d’Irvingia gabonensis par microbouturage in vitro. Fruits 59: 31–38.
• Platt, B.S., 1962. Tables of representative values of foods commonly used in tropical countries. Special report series 302, Medical Research Council, London, United Kingdom. 46 pp.
• Sallenave, P., 1971. Propriétés physiques et mécaniques des bois tropicaux. Deuxième supplément. Centre Technique Forestier Tropical, Nogent-sur-Marne, France. 128 pp.
• Tabuna, H., 1999. The markets for Central African non-wood forest products in Europe. In: Sunderland, T.C.H., Clark, L.E. & Vantomme, P. (Editors). Non-wood forest products of Central Africa: current research issues and prospects for conservation and development. FAO, Rome, Italy. pp. 251–263.
• van Dijk, J.F.W., 1997. An assessment of non-wood forest product resources for the development of sustainable commercial extraction. In: Sunderland, T.C.H., Clark, L.E. & Vantomme, P. (Editors). Non-wood forest products of Central Africa: current research issues and prospects for conservation and development. FAO, Rome, Italy. pp. 37–49.
Sources of illustration
• Harris, D.J., 1996. A revision of the Irvingiaceae in Africa. Bulletin du Jardin Botanique National de Belgique 65: 143–196.
• Wilks, C. & Issembé, Y., 2000. Les arbres de la Guinée Equatoriale: Guide pratique d’identification: région continentale. Projet CUREF, Bata, Guinée Equatoriale. 546 pp.
Z. Tchoundjeu
World Agroforestry Centre (ICRAF), African Humid Tropics Region, P.O. Box 2067 or 16317, Yaoundé, Cameroon
A.R. Atangana
Forest Biology Research Centre, Pavillon Marchand, Université Laval, Sainte-Foy, Québec G1K 7P4, Canada

R.H.M.J. Lemmens
PROTA Network Office Europe, Wageningen University, P.O. Box 341, 6700 AH Wageningen, Netherlands
D. Louppe
CIRAD, Département Environnements et Sociétés, Cirad es-dir, Campus international de Baillarguet, TA C 105 / D (Bât. C, Bur. 113), 34398 Montpellier Cédex 5, France
A.A. Oteng-Amoako
Forestry Research Institute of Ghana (FORIG), University P.O. Box 63, KNUST, Kumasi, Ghana
Associate editors
E.A. Obeng
Forestry Research Institute of Ghana (FORIG), University P.O. Box 63, KNUST, Kumasi, Ghana
Photo editor
G.H. Schmelzer
PROTA Network Office Europe, Wageningen University, P.O. Box 341, 6700 AH Wageningen, Netherlands

Correct citation of this article:
Tchoundjeu, Z. & Atangana, A.R., 2007. Irvingia gabonensis (Aubry-Lecomte ex O’Rorke) Baill. [Internet] Record from PROTA4U. Lemmens, R.H.M.J., Louppe, D. & Oteng-Amoako, A.A. (Editors). PROTA (Plant Resources of Tropical Africa / Ressources végétales de l’Afrique tropicale), Wageningen, Netherlands. <>. Accessed .
Distribution Map wild

1, base of bole; 2, flowering twig; 3, flower; 4, fruit; 5, fruit in cross section.
Redrawn and adapted by Achmad Satiri Nurhaman

Irvingia gabonensis

Irvingia gabonensis

Irvingia gabonensis

Irvingia gabonensis

fruit and longitudinal section of stone and seed


wood in transverse section

wood in tangential section

wood in radial section