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Khaya anthotheca (Welw.) C.DC.

Protologue
Monogr. phan. 1: 721 (1878).
Family
Meliaceae
Chromosome number
2n = 50
Synonyms
Khaya nyasica Stapf ex Baker f. (1911).
Vernacular names
Smooth-barked mahogany, white mahogany, red mahogany, Uganda mahogany (En). Acajou blanc, acajou à peau lisse (Fr). Acaju branco, acaju de casca lisa, kibaba de Mussengue (Po). Mkangazi, mwovu, nyalulasi, linjo (Sw).
Origin and geographic distribution
Khaya anthotheca is widespread, from Guinea Bissau east to Uganda and Tanzania, and south to Angola, Zambia, Zimbabwe and Mozambique. It is fairly widely grown in plantations within its natural area of distribution, but also in South Africa, tropical Asia and tropical America.
Uses
The wood (trade names: African mahogany, acajou d’Afrique) is highly valued for furniture, cabinet work, decorative boxes and cases and veneer, and is also commonly used for window frames, panelling, doors and staircases. It is suitable for light flooring, ship building, vehicle bodies, sporting goods, musical instruments, toys, novelties, carving, plywood and pulpwood. Traditionally, the wood is used for dugout canoes. It is also used as fuelwood and for charcoal production.
The bitter-tasting bark is widely used in traditional medicine. It is taken to treat cough, whereas bark decoctions or infusions are taken to treat fever, colds, pneumonia, abdominal pain, vomiting and gonorrhoea, and applied externally to wounds, sores and ulcers. Pulverized bark is taken as aphrodisiac and to treat male impotence. In Tanzania root decoctions are drunk to treat anaemia, dysentery and rectal prolapse. In Tanzania the bark has been used by the Shambaa people for reddish brown dyeing. In DR Congo the leaves are said to be used for making an arrow-poison.
Khaya anthotheca is fairly commonly planted as an ornamental shade tree and roadside tree. It is occasionally planted as a shade tree in agroforestry systems.
Production and international trade
Congo exported 2000 m³ of sawn Khaya anthotheca wood in 2003, at an average price of US$ 213/m³, 2000 m³ in 2004, at an average price of US$ 333/m³, and 4000 m³ in 2005, at an average price of US$ 305/m³. Small volumes of veneer were exported from Congo in 2003 and 2004, at an average price of US$ 359/m³ and US$ 352/m³, respectively. Khaya anthotheca wood is exported from West African countries (e.g. Ghana) in mixed consignments with other Khaya spp., particularly Khaya ivorensis A.Chev. Under the latter name, 11,000 m³ of sawn wood was exported from Ghana in 2003, at an average price of US$ 714/m³, 14,000 m³ in 2004, at an average price of US$ 527/m³, and 17,000 m³ in 2005, at an average price of US$ 755/m³. The export of Khaya veneer from Ghana was 4000 m³ in 2003, at an average price of US$ 443/m³, 6000 m³ in 2004, at an average price of US$ 1677/m³, and 5000 m³ in 2005, at an average price of US$ 1938/m³. The proportion of Khaya anthotheca in these amounts is obscure. Côte d’Ivoire exported 41,000 m³ of sawn Khaya wood in 2003, at an average price of US$ 397/m³, and 34,000 m³ in 2005, at an average price of US$ 439/m³. Cameroon exported 11,000 m³ of sawn Khaya wood in 2003, and 8600 m³ in 2004 and 2006. In Uganda, Malawi, Zambia and Mozambique Khaya anthotheca is one of the most important timber species, but production statistics from these countries are not available. In recent years, the United States market has dominated the international trade in Khaya timber, especially as a substitute for American mahogany (from Swietenia) of which the availability has declined considerably.
Properties
The heartwood is pinkish brown to deep red and more or less distinctly demarcated from the pale brown, up to 6 cm wide sapwood. The grain is straight or interlocked, texture rather coarse. The wood has an attractive figure with irregular ripple marks.
The wood is medium-weight, with a density of 490–660 kg/m³ at 12% moisture content. It generally air dries easily with little degrade, but the presence of tension wood may cause serious distortion. The rates of shrinkage are moderate, from green to oven dry 2.7–4.1% radial and 5.8–6.4% tangential. Once dry, it is fairly stable in service.
At 12% moisture content, the modulus of rupture is 50–110 N/mm², modulus of elasticity 7800–10,300 N/mm², compression parallel to grain 24–53 N/mm², shear 8–14 N/mm², cleavage 11–12 N/mm radial and 13–16 N/mm tangential, Janka side hardness 3250–5120 N and Janka end hardness 3600–6360 N.
The wood is usually fairly easy to saw and work, although the presence of interlocked grain may cause some difficulties; saws should be kept sharp to prevent a woolly finish and a cutting angle of 20° is recommended. The wood can be finished to a smooth surface, but the use of a filler is required before staining and varnishing. The wood holds nails and screws well, but may split upon nailing, and glues satisfactorily. The bending properties are usually poor. The wood peels and slices well, producing an excellent quality of veneer. It turns fairly well. The wood is moderately durable but can be susceptible to termite and pinhole borer attacks. The heartwood is strongly resistant to impregnation, the sapwood moderately resistant. The wood dust may cause irritation to the skin.
The use of the bark as an anti-anaemic agent has been confirmed in preliminary tests. The tests also showed the presence of iron (16 mg/100 g), copper (0.7 mg/100g) and ascorbic acid. In Cameroon the bark showed anthelmintic activity in calves. Crude seed extracts showed high toxicity in tests with tadpoles. The stem, bark and seeds contain limonoids.
Adulterations and substitutes
The wood of Khaya ivorensis is very similar to that of Khaya anthotheca. The wood of both species and that of Khaya grandifoliola C.DC. is exported in mixed consignments from West Africa as ‘African mahogany’ or ‘acajou d’Afrique’. The wood of makore (Tieghemella) is similar, but more durable.
Description
Evergreen or deciduous, monoecious, large to very large tree up to 60(–65) m tall; bole branchless for up to 30 m, usually straight and cylindrical, up to 120(–500) cm in diameter, with large buttresses up to 4(–6) m high, sometimes extending into prominent surface roots; bark surface grey and smooth but exfoliating in small circular scales leaving a pock-marked, mottled grey and yellowish brown surface, inner bark pink to reddish; crown massive, rounded; twigs glabrous. Leaves arranged spirally but clustered near ends of branches, paripinnately compound with 2–5(–7) pairs of leaflets; stipules absent; petiole 3.5–7 cm long, rachis 2–20 cm long; petiolules 0.5–1.5 cm long; leaflets opposite, ovate-oblong to elliptical, 5–20 cm × 2–10 cm, cuneate to obtuse and slightly asymmetrical at base, obtuse to shortly acuminate at apex, margins entire, leathery, glabrous, pinnately veined with 6–10 pairs of lateral veins. Inflorescence an axillary panicle up to 30(–40) cm long. Flowers unisexual, male and female flowers very similar in appearance, regular, 4–5-merous, whitish, sweet-scented; pedicel 1.5–3 mm long; calyx lobed almost to the base, with rounded lobes 1–1.5 mm long; petals free, elliptical, 4–6 mm × 2–4 mm, somewhat hooded; stamens fused into an urn-shaped tube 3–5 mm long, with 8–10 included anthers near apex, alternating with rounded lobes; disk cushion-shaped; ovary superior, globose to conical, 1–2 mm in diameter, 4–5-celled, style up to 1 mm long, stigma disk-shaped; male flowers with rudimentary ovary, female flowers with smaller, non-dehiscing anthers. Fruit an erect, nearly globose, woody capsule 4–8(–10) cm in diameter, greyish brown, dehiscent by 4–5 valves, many-seeded. Seeds disk-shaped or quadrangular, strongly flattened, 1–2.5 cm × 1.5–3.5(–5) cm, narrowly winged all around the margin, brown. Seedling with hypogeal germination, cotyledons remaining enclosed in the seed coat; epicotyl 5–8 cm long; first 2 leaves opposite, simple.
Other botanical information
Khaya comprises 4 species in mainland Africa and 1 or 2 endemic to the Comoros and Madagascar. It belongs to subfamily Swietenoideae and seems most closely related to Carapa and Swietenia. Khaya species strongly resemble each other in flowers and fruits, and differences are most prominent in their leaflets. Khaya grandifoliola C.DC. is very close to Khaya anthotheca and may even be conspecific. Khaya nyasica Stapf ex Baker f. is often still kept separate from Khaya anthotheca, but can better be considered synonymous.
Khaya madagascariensis Jum. & H.Perrier occurs in the Comoros and northern and eastern Madagascar. The reddish brown wood is highly valued for joinery, implements, carving and traditional canoes. It has been used for supporting columns of traditional palaces in Antananarivo. The bark is used in traditional medicine to treat fever, and it is applied externally to treat wounds and haemorrhages. Khaya madagascariensis grows fairly rapidly and is progressively planted in timber plantations. However, natural populations are under high pressure because of habitat destruction and selective felling, and Khaya madagascariensis is included in the IUCN Red list as endangered.
Anatomy
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); 24: intervessel pits minute ( 4 μm); 30: vessel-ray pits with distinct borders; similar to intervessel pits in size and shape throughout the ray cell; 42: mean tangential diameter of vessel lumina 100–200 μm; (43: mean tangential diameter of vessel lumina 200 μm); (45: vessels of two distinct diameter classes, wood not ring-porous); 46: 5 vessels per square millimetre; 47: 5–20 vessels per square millimetre; 58: gums and other deposits in heartwood vessels. Tracheids and fibres: 61: fibres with simple to minutely bordered pits; 65: septate fibres present; 66: non-septate fibres present; 69: fibres thin- to thick-walled. Axial parenchyma: 78: axial parenchyma scanty paratracheal; 79: axial parenchyma vasicentric; 93: eight (5–8) cells per parenchyma strand. Rays: 98: larger rays commonly 4- to 10-seriate; (103: rays of two distinct sizes); 106: body ray cells procumbent with one row of upright and/or square marginal cells; 107: body ray cells procumbent with mostly 2–4 rows of upright and/or square marginal cells; 115: 4–12 rays per mm. Secretory elements and cambial variants: 131: intercellular canals of traumatic origin. Mineral inclusions: 136: prismatic crystals present; 137: prismatic crystals in upright and/or square ray cells.
(N.P. Mollel, P. Détienne & E.A. Wheeler)
Growth and development
Young trees have a slender stem and a small crown. Extensive lateral growth starts when the upper canopy of the forest has been reached. In Ghana the average height of seedlings was 2.5 m and average stem diameter 4–4.5 cm after 2.5 years. In Côte d’Ivoire Khaya anthotheca trees planted in the open in the semi-deciduous forest zone reached an average height of 12 m and an average bole diameter of 18 cm after 10 years. However, trees planted in the evergreen forest zone were only 6 m tall and 9 cm in diameter after 8 years. In Malawi planted Khaya anthotheca trees reached a height of 8 m and a diameter of 9 cm after 7 years. Trees may already develop fruits when they have a bole diameter of 18 cm, but abundant fruiting usually starts at diameters above 70 cm. This means that the removal of trees of diameter classes below 70 cm from the forest may result in lack of natural regeneration. Fruits are usually produced in the dry season, from January to March in Côte d’Ivoire and Guinea. Dispersal of the seeds is by wind. The maximum dispersal distance is over 50 m, but about 75% of all seeds are dispersed within 30 m of the parent tree.
Ecology
Khaya anthotheca occurs in semi-deciduous forest, in both wetter and drier types, and in the transitional zone between dry semi-deciduous forest and savanna, in areas with 1200–1800 mm annual rainfall and a dry season of 2–4 months. In moist semi-deciduous forest it may occur together with Khaya ivorensis. Khaya anthotheca often occurs scattered on slopes along watercourses. In East and southern Africa it is found in rainforest and riparian forest up to 1500 m altitude. In plantations it requires fertile deep soils and plenty of water. It is susceptible to fire.
Seeds can germinate in full sun as well as in the shade, but natural regeneration may be very sparse in the forest. In DR Congo it was found that seedling survival and height growth were higher in gaps than in the forest understorey, with 59% and 37% survival, respectively, and most seedlings in the forest understorey being stunted. It was also observed that secondary forest resulting on abandoned shifting-agricultural land offers favourable conditions for the regeneration of Khaya anthotheca.
Propagation and planting
Khaya anthotheca is propagated by seed. The 1000-seed weight is 180–280 g. The seeds are often already attacked by insects while they are still on the tree, and undamaged seeds should therefore be selected before sowing or storage. The seeds can be stored for up to 1 year in a cool and dry place; adding ash to reduce insect damage is recommended. Fungi can cause serious losses of stored seed, with seeds stored at –18°C and 5°C showing higher occurrence of fungi and lower germination rates than seeds stored at 15°C. The seeds are best sown in seed beds in the nursery, they should be covered with only a thin layer of soil, or left partially uncovered. Germination takes 8–35 days. The germination rate of fresh healthy seed is up to 85%, but decreases rapidly under natural circumstances. When seedlings are grown in small containers, they can be planted out when they reach 30 cm and have fully developed compound leaves. Seedlings can also be left in the nursery until they are 1–2 m tall, after which the root system is slightly pruned and leaves stripped off before planting into the field as striplings. In experiments in Indonesia, vegetative propagation by means of cuttings was successful, with a rooting success rate of 75% when growth hormone was applied.
In Côte d’Ivoire Khaya anthotheca has been planted in degraded or secondary forests at a distance of 7–25 m between lines and 3–7 m within the line. Pure plantations have also been established with trees planted at 3 m × 3 m.
Management
In general, Khaya anthotheca occurs scattered and in low densities in the forest, e.g. in southern Cameroon the density is on average 0.02 boles of over 60 cm in diameter per ha and 0.15 m³ of wood per ha, but locally in Liberia densities of 0.3–0.9 boles of over 60 cm in diameter per ha have been recorded. In Côte d’Ivoire 2–5 trees over 10 cm in diameter have been counted per ha. Enrichment planting in natural forest is locally applied in Côte d’Ivoire and Uganda. In Uganda the survival rates were often low, often less than 50%, due to poor silvicultural management. In Côte d’Ivoire Khaya anthotheca trees have been planted under the shade of 2-year-old Leucaena leucocephala (Lam.) de Wit, which suppresses weeds and fixes nitrogen into the soil. Regular thinning of the shade trees in the first years is needed for good growth of the Khaya anthotheca trees. The first thinning of a plantation of 1000 stems/ha is done when trees have reached 15 m in height and 15 cm in bole diameter, to a density of 400–500 stems/ha. The second thinning can be done when trees are 20 m tall and 20 cm in diameter to 200–250 stems/ha, the third at 25 m tall and 25 cm diameter to 125–150 stems/ha and the fourth at 30 cm diameter to 75–100 stems/ha. In Indonesia Khaya anthotheca has been used successfully in the taungya system, with economic benefits through the associated crops (rice, maize, peanuts) after the second year of tree planting. Realistic rotation cycles in natural forest are probably in the range of 60–80 years.
Diseases and pests
Plantations of Khaya anthotheca may suffer seriously from Hypsipyla robusta shoot borers that kill the main stem of young trees, causing excessive branching and contributing to mortality. Silvicultural techniques, such as overhead shading of saplings, mixed planting and removal of lateral shoots, can reduce damage by shoot borers. Seeds are commonly attacked by seed-boring beetles and eaten by small rodents.
Harvesting
The minimum bole diameter for harvesting of Khaya anthotheca trees in natural forest is 60 cm in Côte d’Ivoire, 80 cm in Cameroon, Central African Republic and DR Congo, and 110 cm in Ghana. The boles are occasionally so large that they cannot be sawn with normal equipment. The high buttresses at the base of the bole often necessitate the construction of a platform before felling can take place, or the removal of the buttresses before felling to recover more timber.
Yield
For plantations at an age of 30 years, the annual production is 2–4 m³/ha.
Handling after harvest
Logs are susceptible to attack by longhorn beetles and should be processed not too long after felling. They may also have brittle heart, and care is needed in felling and sawing operations. The boles float in water and thus can be transported by river.
Genetic resources
Khaya anthotheca is included in the IUCN Red list as a vulnerable species because of habitat loss and degradation, and selective felling. It has been proposed for inclusion in CITES appendix I or II, but it has not been listed due to insufficient information on regeneration, extent of plantations and sustainability under current management regimes. Provenance trials in Ghana showed a high heritability for height growth, with the growth of the highest-ranking progenies being twice that of the lowest-ranking one. This may be partly due to some genetic resistance against Hypsipyla robusta attack.
Prospects
Natural regeneration of Khaya anthotheca after logging is seriously hindered by the low density of adult trees in most forests, the fruit production being largely limited to larger sized trees and the comparatively poor dispersal ability of the seeds. It has been suggested that additional sowing at favourable sites would enhance sufficient regeneration after logging. It has also been suggested that the inclusion of shifting cultivation such as a taungya-like system into management systems may offer possibilities for sustainable management of Khaya anthotheca. However, more research is needed on appropriate management systems in natural forest to ensure sustainable exploitation of Khaya anthotheca. Its fair growth rate makes more extensive establishment of plantations an option, but Hypsipyla attack is a serious drawback. The combined effects of selection of provenances with genetic resistance and appropriate silvicultural practices could have a substantial positive impact on the damage caused by Hypsipyla robusta stem borers.
Major references
• Bolza, E. & Keating, W.G., 1972. African timbers: the properties, uses and characteristics of 700 species. Division of Building Research, CSIRO, Melbourne, Australia. 710 pp.
• Burkill, H.M., 1997. The useful plants of West Tropical Africa. 2nd Edition. Volume 4, Families M–R. Royal Botanic Gardens, Kew, Richmond, United Kingdom. 969 pp.
• Dupuy, B. & M’Bla Koua, 1993. Les plantations d’acajou d’Afrique: leur sylviculture en forêt dense humide ivoirienne. Bois et Forêts des Tropiques 236: 25–42.
• Katende, A.B., Birnie, A. & Tengnäs, B., 1995. Useful trees and shrubs for Uganda: identification, propagation and management for agricultural and pastoral communities. Technical Handbook 10. Regional Soil Conservation Unit, Nairobi, Kenya. 710 pp.
• Makana, J.-M. & Thomas, S.C., 2004. Dispersal limits natural recruitment of African mahoganies. Oikos 106(1): 67–72.
• Ofori, D.A., Opuni-Frimpong, E. & Cobbinah, J.R., 2007. Provenance variation in Khaya species for growth and resistance to shoot borer Hypsipyla robusta. Forest Ecology and Management 242: 438–443.
• Phongphaew, P., 2003. The commercial woods of Africa. Linden Publishing, Fresno, California, United States. 206 pp.
• Styles, B.T. & White, F., 1991. Meliaceae. In: Polhill, R.M. (Editor). Flora of Tropical East Africa. A.A. Balkema, Rotterdam, Netherlands. 68 pp.
• Takahashi, A., 1978. Compilation of data on the mechanical properties of foreign woods (part 3) Africa. Shimane University, Matsue, Japan, 248 pp.
• Voorhoeve, A.G., 1979. Liberian high forest trees. A systematic botanical study of the 75 most important or frequent high forest trees, with reference to numerous related species. Agricultural Research Reports 652, 2nd Impression. Centre for Agricultural Publishing and Documentation, Wageningen, Netherlands. 416 pp.
Other references
• ATIBT (Association Technique Internationale des Bois Tropicaux), 1986. Tropical timber atlas: Part 1 – Africa. ATIBT, Paris, France. 208 pp.
• Chilufya, H. & Tengnäs, B., 1996. Agroforestry extension manual for northern Zambia. Regional Soil Conservation Unit, Nairobi, Kenya. 120 + 124 pp.
• CIRAD Forestry Department, 2003. Acajou d’Afrique. [Internet] Tropix 5.0. http://tropix.cirad.fr/africa/acajou.pdf. Accessed January 2008.
• Coates Palgrave, K., 1983. Trees of southern Africa. 2nd Edition. Struik Publishers, Cape Town, South Africa. 959 pp.
• de la Mensbruge, G., 1966. La germination et les plantules des essences arborées de la forêt dense humide de la Côte d’Ivoire. Centre Technique Forestier Tropical, Nogent-sur-Marne, France. 389 pp.
• Farmer, R.H., 1972. Handbook of hardwoods. 2nd Edition. Her Majesty’s Stationery Office, London, United Kingdom. 243 pp.
• Hawthorne, W.D., 1995. Ecological profiles of Ghanaian forest trees. Tropical Forestry Papers 29. Oxford Forestry Institute, Department of Plant Sciences, University of Oxford, United Kingdom. 345 pp.
• Hawthorne, W. & Jongkind, C., 2006. Woody plants of western African forests: a guide to the forest trees, shrubs and lianes from Senegal to Ghana. Kew Publishing, Royal Botanic Gardens, Kew, United Kingdom. 1023 pp.
• InsideWood, undated. [Internet] http://insidewood.lib.ncsu.edu/search/. Accessed May 2007.
• Kanor, A., 1991. Anti-anaemic factors in the stem bark of Khaya senegalensis and Khaya anthotheca. B.Pharm. degree thesis, Department of Pharmacognosy, Faculty of Pharmacy, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana. 105 pp.
• Keay, R.W.J., 1989. Trees of Nigeria. A revised version of Nigerian trees (1960, 1964) by R.W.J. Keay, C.F.A. Onochie and D.P. Stanfield. Clarendon Press, Oxford, United Kingdom. 476 pp.
• Makana, J.R., 2004. Fellowship report: How to improve the regeneration of African mahoganies in the northeastern block of the Democratic Republic of Congo. ITTO Tropical Forest Update 14(4): 20–21.
• Mittal, R.K., Mathur, S.B. & Thomsen, K., 2003. Fungi of stored Khaya anthotheca seeds and their effect on germination. Journal of Tropical Forest Science 15(4): 539–545.
• Neuwinger, H.D., 2000. African traditional medicine: a dictionary of plant use and applications. Medpharm Scientific, Stuttgart, Germany. 589 pp.
• Plumptre, A.J., 1995. The importance of ‘seed trees’ for the natural regeneration of selectively logged tropical forest. Commonwealth Forestry Review 74(3): 253–258.
• Siepel, A., Poorter, L. & Hawthorne, W.D., 2004. Ecological profiles of large timber species. In: Poorter, L., Bongers, F., Kouamé, F.N. & Hawthorne, W.D. (Editors). Biodiversity of West African forests. An ecological atlas of woody plant species. CABI Publishing, CAB International, Wallingford, United Kingdom. pp. 391–445.
• Terashima, H. & Ichikawa, M., 2003. A comparative ethnobotany of the Mbuti and Efe hunter-gatherers in the Ituri forest, Democratic Republic of Congo. African Study Monographs 24(1–2): 1–168.
• van Wyk, B.E. & Gericke, N., 2000. People’s plants: a guide to useful plants of southern Africa. Briza Publications, Pretoria, South Africa. 351 pp.
• Vivien, J. & Faure, J.J., 1985. Arbres des forêts denses d’Afrique Centrale. Agence de Coopération Culturelle et Technique, Paris, France. 565 pp.
• Williamson, J., 1955. Useful plants of Nyasaland. The Government Printer, Zomba, Nyasaland. 168 pp.
• Wiselius, S.I., 1998. Khaya A. Juss. In: Sosef, M.S.M., Hong, L.T. & Prawirohatmodjo, S. (Editors). Plant Resources of South-East Asia No 5(3). Timber trees: Lesser-known timbers. Backhuys Publishers, Leiden, Netherlands. pp. 310–313.
Sources of illustration
• Styles, B.T. & White, F., 1991. Meliaceae. In: Polhill, R.M. (Editor). Flora of Tropical East Africa. A.A. Balkema, Rotterdam, Netherlands. 68 pp.
• Vivien, J. & Faure, J.J., 1985. Arbres des forêts denses d’Afrique Centrale. Agence de Coopération Culturelle et Technique, Paris, France. 565 pp.
Author(s)
A. Maroyi
Department of Biological Sciences, Bindura University of Science Education, P.B. 1020, Bindura, Zimbabwe


Editors
D. Louppe
CIRAD, Département Environnements et Sociétés, Cirad es-dir, Campus international de Baillarguet, TA C-DIR / B (Bât. C, Bur. 113), 34398 Montpellier Cedex 5, France
A.A. Oteng-Amoako
Forestry Research Institute of Ghana (FORIG), University P.O. Box 63, KNUST, Kumasi, Ghana
M. Brink
PROTA Network Office Europe, Wageningen University, P.O. Box 341, 6700 AH 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
J.R. Cobbinah
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:
Maroyi, A., 2008. Khaya anthotheca (Welw.) C.DC. In: Louppe, D., Oteng-Amoako, A.A. & Brink, M. (Editors). Prota 7(1): Timbers/Bois d’œuvre 1. [CD-Rom]. PROTA, Wageningen, Netherlands.
Distribution Map wild


1, base of bole; 2, flowering twig; 3, dehisced fruit with one valve removed.
Redrawn and adapted by Iskak Syamsudin



tree habit CopyLeft EcoPort


tree habit


15-year-old plantation, Côte d'Ivoire


base of bole
obtained from
Zimbabweflora


bark CopyLeft EcoPort


leafy branches CopyLeft EcoPort


leaf
obtained from
University of Hawaii


wood in transverse section


wood in tangential section


wood in radial section