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Avicennia germinans (L.) L.

Protologue  
 Sp. pl. ed. 3, 2: 891 (1764).
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Family  
 Avicenniaceae (APG: Acanthaceae)
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Synonyms  
 Avicennia nitida Jacq. (1760), Avicennia africana P.Beauv. (1809).
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Vernacular names  
 White mangrove, black mangrove, olive mangrove (En). Palétuvier blanc, mangle blanc, faux palétuvier (Fr). Mangue amarelo (Po).
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Origin and geographic distribution  
 Avicennia germinans is found along the Atlantic Ocean, in tropical Africa from Mauritania to Angola. It is widespread along the coasts of Central and South America and the Caribbean region, occurring from the southern United States to Brazil along the Atlantic coast and to Peru along the Pacific coast.
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Uses  
 The wood is used for marine construction, boat construction (especially ribs), wharves, piles, house building, furniture and implements. It is suitable for heavy flooring, mine props, railway sleepers, joinery, vehicle bodies, handles, ladders, toys, novelties and carving. The wood is also used as firewood and for charcoal production. It is commonly used for smoking fish.
The cotyledons of the seed are eaten during famines, but only after careful preparation to remove toxic compounds. The leaves and roots are used to prepare a vegetable salt. The bark has been used for tanning and for dyeing reddish colours. Ash is added to water as a soap substitute. Smoke from the wood is reported to dispel mosquitoes effectively. The flowers are a source of nectar for honey bees.
The powdered bark made into a paste is applied to skin complaints and to dispel fleas and lice. Decoctions of bark and leafy twigs are taken or added to a bath to promote childbirth. The leaves are applied as an enema to treat piles. A root decoction is taken to treat intestinal problems. In tropical America the bark resin is used in traditional medicine to treat tumours, diarrhoea, haemorrhage, haemorrhoids, rheumatism, swellings, wounds and sore throat.
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Properties  
 The heartwood is pale brown to pinkish brown, darkening upon exposure, and rather indistinctly demarcated from the whitish sapwood. The grain is often interlocked, texture fine.
The wood is heavy, with a density of about 950 kg/m³ at 12% moisture content. It is difficult to air dry, being liable to twisting and checking. The rates of shrinkage are high, from green to oven dry about 7.1% radial and 10.2% tangential. Once dry, it is stable in service. The wood is difficult to split radially, but not tangentially. It saws satisfactorily, but is difficult to work by hand tools. It has some tendency to split upon nailing and screwing. The wood is very durable, even under water, and resistant to termite and Lyctus attacks. It has been reported that the wood is suitable for particle board and pulp production, but for the latter purpose it should be mixed with wood of other species that have longer fibres.
The bark contains about 12.5% tannin. An extract of leafy twigs of Avicennia germinans from southern Florida (United States) showed cytotoxic activity in several human cancer cell lines, with the naphthoquinone 3-chlorodeoxylapachol as active compound.
Ethanol solutions of smoke from burning Avicennia germinans wood inhibited the growth of pathogenic bacteria and fungi, such as Escherichia coli, Staphylococcus aureus and Saccharomyces cerevisiae, which supports the usefulness of the wood for smoking fish and other foods. Moreover, the smoke significantly deterred Acraea acerata, a pest of sweet potato, from depositing eggs.
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Description  
 Evergreen shrub or small to medium-sized tree up to 17(–25) m tall; roots with many vertical breathing roots above soil level; bole usually low-branching, up to 40(–100) cm in diameter, sometimes with small prop roots; bark surface smooth or slightly fissured, dark grey to dark brown, inner bark yellowish; crown dense and rounded; twigs fine-hairy, terete, with 2 grooves. Leaves decussately opposite, simple and entire; stipules absent; petiole 1–2.5 cm long; blade elliptical to obovate or lanceolate, 5–18 cm × 1.5–8 cm, cuneate at base, obtuse to acute at apex, leathery, powdery white and short-hairy below, minutely pitted, pinnately veined with 6–15 pairs of lateral veins. Inflorescence an axillary or terminal cyme, short-hairy, with flowers crowded near top of inflorescence. Flowers bisexual, slightly zygomorphic, sessile, with 3 bracts up to 2.5 mm long at base; sepals 5, broadly elliptical to orbicular, 4–4.5 mm long, fine-hairy outside; petals 4, fused up to halfway, c. 6.5 mm long, lobes oblanceolate, spreading or reflexed, hairy, white; stamens 4, 2 slightly longer than other 2, inserted on corolla tube and alternating with corolla lobes; ovary superior, ellipsoid-globose, c. 2 mm long, hairy, 1-celled, style c. 3 mm long, stigma 2-lobed. Fruit a slightly asymmetrical, ellipsoid capsule 2–3 cm long, with short lateral beak, leathery, short-hairy, dehiscing with 2 valves, 1-seeded. Seed without seedcoat. Seedling with epigeal germination, viviparous; hypocotyl elongated; cotyledons thick and fleshy, folded; radicle hairy.
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Other botanical information  
 Avicennia comprises about 8 species and occurs in all tropical regions, locally extending into the subtropics; 2 species are found in tropical Africa. In the past Avicennia has been included in the family Verbenaceae, but it differs in wood and leaf anatomy and seedling and pollen morphology, and has been placed in a separate family: Avicenniaceae. In a recent molecular analysis it was nested within Acanthaceae.
In the literature, Avicennia germinans plants from Africa are sometimes distinguished from those from Central and South America as Avicennia africana P.Beauv. Although the two taxa were merged in 1963 and the African plants have since usually been called Avicennia germinans, recent phytochemical and molecular studies showed significant genetic differentiation between the African and American populations, and more elaborate biosystematic studies have been recommended. A molecular analysis showed that regional differentiation between the Pacific coast and Atlantic coast populations in America was even greater than between west and east Atlantic populations, suggesting at least some dispersal across the Atlantic Ocean, and providing no support for the treatment of the African populations as a separate species.
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Anatomy  
 Wood-anatomical description (IAWA hardwood codes):
Growth rings: 2: growth ring boundaries indistinct or absent. Vessels: 5: wood diffuse-porous; (7: vessels in diagonal and/or radial pattern); (10: vessels in radial multiples of 4 or more common); 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; 41: mean tangential diameter of vessel lumina 50–100 μm; 47: 5–20 vessels per square millimetre; 48: 20–40 vessels per square millimetre. Tracheids and fibres: 61: fibres with simple to minutely bordered pits; 66: non-septate fibres present; 69: fibres thin- to thick-walled; 70: fibres very thick-walled. Axial parenchyma: 78: axial parenchyma scanty paratracheal; 79: axial parenchyma vasicentric; 85: axial parenchyma bands more than three cells wide; 86: axial parenchyma in narrow bands or lines up to three cells wide; (91: two cells per parenchyma strand); 92: four (3–4) cells per parenchyma strand; 93: eight (5–8) cells per parenchyma strand. Rays: 97: ray width 1–3 cells; 105: all ray cells upright and/or square; 109: rays with procumbent, square and upright cells mixed throughout the ray; 115: 4–12 rays per mm; 116: 12 rays per mm. Secretory elements and cambial variants: 133: included phloem, concentric. Mineral inclusions: 152: crystals of other shapes (mostly small); 154: more than one crystal of about the same size per cell or chamber.
(P. Détienne & P.E. Gasson)
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Growth and development  
 In experiments in Ghana, seedlings reached a height of up to 26 cm at 4 months after planting. Under optimal growing conditions, trees may grow 60 cm/year in height. The leaves excrete excess salt through pores, and salt crystals are commonly present on the leaves. The minute hairs that cover the lower surface of the leaf play a role in the water balance, but more studies are still needed to understand the exact processes. In each cluster of flowers there is often only a single open flower at a time. The flowers are protandrous and attract short-tongued insects such as bees, which receive pollen on their backs while collecting nectar. After some shrivelling of the stamens, the 2 lobes of the stigma expand, enabling pollination by insects that previously visited a flower in the male stage. The seeds start germinating while still attached to the tree, but the embryo stays within the fruit until fruit fall.
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Ecology  
 Avicennia germinans occurs in mangrove vegetation in tidal estuaries, often on gravelly or sandy soils. It is often common, especially in secondary vegetation types, sometimes forming almost pure stands or mixed stands with Rhizophora spp. and Laguncularia racemosa (L.) C.F.Gaertn. It is most common on the landward side of mangrove swamps, in sheltered mud flats of tidal zones and at the mouths of rivers. In mangroves in Nigeria, Avicennia germinans dominates, together with the introduced palm Nypa fruticans Wurmb, in localities where calcium is in plentiful supply and where soils are less acidic than in localities dominated by Rhizophora spp. In Senegal and Gambia Avicennia germinans often grows in dense stands in mangrove localities where the soil has become drier and sandier in comparison to localities where the mud is most recent and least consolidated and which are dominated by Rhizophora racemosa G.Mey. It may also invade abandoned paddy fields affected by tides. In Gambia Avicennia germinans is said to be more tolerant to salinity than Rhizophora spp., probably because it is able to excrete salt. Avicennia germinans occurs in regions with a mean annual temperature of 25–27°C and mean annual rainfall of 500–2000 mm.
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Propagation and planting  
 Natural regeneration is often abundant, and wildlings can be collected to serve as planting stock. Experiments with seedlings resulted in approximately 90% survival. The seedlings grow best when they are in contact with fresh water. Fruits with germinating seeds may float in salt water for one year without rooting. They are very susceptible to desiccation.
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Management  
 In many mangrove regions, the potential of Avicennia germinans is considered limited and other mangrove species like Rhizophora spp. are often more highly valued for timber, firewood, charcoal, dye and tannin production. Although mangroves are often heavily exploited, Avicennia germinans is often left. In Gambia a standing volume of 106 m³/ha has been recorded, corresponding to a productivity of about 3.5 m³/ha per year. In mixed Avicennia / Rhizophora mangrove the standing volume was 29 m³/ha.
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Diseases and pests  
 The germinating seeds are often attacked by crabs and snails, and the leaves of trees can also be damaged by crabs.
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Harvesting  
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Genetic resources and breeding  
 Avicennia germinans is one of the most common species in mangrove vegetations, being a pioneer species with great power of natural regeneration. As such, it does not seem liable to genetic erosion. In many regions of tropical Africa, however, mangroves have been or are being converted into agricultural land, especially into rice fields, or are subject to overharvesting for timber or fuel, and this may eventually affect the genetic diversity of Avicennia germinans. Locally the populations are also threatened by petroleum production and resulting pollution, as in some areas in Nigeria.
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Prospects  
 Mangroves are socio-economically important ecosystems for the inhabitants of coastal regions, but they are under high pressure worldwide. As one of the main constituents of mangrove vegetations in Africa, Avicennia germinans deserves protection. Its role in timber production in tropical Africa should therefore be limited to local applications for heavy construction, with emphasis on sustainability. Moreover, the boles are often too small and of too poor shape to be interesting for commercial timber exploitation.
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Major references  
 • Berhaut, J., 1971. Flore illustrée du Sénégal. Dicotylédones. Volume 1. Acanthacées à Avicenniacées. Gouvernement du Sénégal, Ministère du Développement Rural et de l’Hydraulique, Direction des Eaux et Forêts, Dakar, Senegal. 626 pp.
• 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., 1985. The useful plants of West Tropical Africa. 2nd Edition. Volume 1, Families A–D. Royal Botanic Gardens, Kew, Richmond, United Kingdom. 960 pp.
• Dodd, R.S., Afzal Rafii, Z. & Bousquet Melou, A., 2000. Evolutionary divergence in the pan-atlantic mangrove Avicennia germinans. New Phytologist 145(1): 115–125.
• Dodd, R.S., Afzal Rafii, Z., Kashani, N. & Budrick, J., 2002. Land barriers and open oceans: effects on gene diversity and population structure in Avicennia germinans L. (Avicenniaceae). Molecular Ecology 11(8): 1327–1338.
• Normand, D. & Paquis, J., 1976. Manuel d’identification des bois commerciaux. Tome 2. Afrique guinéo-congolaise. Centre Technique Forestier Tropical, Nogent-sur-Marne, France. 335 pp.
• Tetteh, O.G., 1999. Studies on the regeneration of mangroves: Avicennia germinans. B.Sc. Botany degree thesis, Department of Botany, Faculty of Science, University of Ghana, Accra, Ghana. 61 pp.
• Tomlinson, P.B., 1986. The botany of mangroves. Cambridge University Press, Cambridge, United Kingdom. 413 pp.
• Ukpong, I.E., 2000. Ecological classification of Nigerian mangroves using soil nutrient gradient analysis. Wetlands Ecology and Management 8: 263–272.
• Villiers, J.-F., 1975. Avicenniaceae. Flore du Cameroun. Volume 19. Muséum National d’Histoire Naturelle, Paris, France. pp. 59–62.
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Other references  
 • Abbiw, D.K., 1990. Useful plants of Ghana: West African uses of wild and cultivated plants. Intermediate Technology Publications, London and Royal Botanic Gardens, Kew, Richmond, United Kingdom. 337 pp.
• Akoègninou, A., van der Burg, W.J. & van der Maesen, L.J.G. (Editors), 2006. Flore analytique du Bénin. Backhuys Publishers, Leiden, Netherlands. 1034 pp.
• Asita, A.O. & Campbell, I.A., 1990. Anti-microbial activity of smoke from different woods. Letters in Applied Microbiology 10(2): 93–95.
• Aubréville, A., 1959. La flore forestière de la Côte d’Ivoire. Deuxième édition révisée. Tome troisième. Publication No 15. Centre Technique Forestier Tropical, Nogent-sur-Marne, France. 334 pp.
• Bousquet Melou, A. & Fauvel, M.T., 1998. Inter-specific variation in the concentration of two iridoid glucosides in Avicennia L. (Avicenniaceae Endl.). Biochemical Systematics and Ecology 26(8): 935–940.
• Chua, L.S.L., 1998. Avicennia L. 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. 92–94.
• Compère, P., 1963. The correct name of the Afro-American black mangrove. Taxon 12(4): 150–152.
• Duke, N.C., 1991. A systematic revision of the mangrove genus Avicennia (Avicenniaceae) in Australasia. Australian Systematic Botany 4: 299–324.
• Fagbami, A.A., Udo, E.J. & Odu, C.T.I., 1988. Vegetation damage in an oil field in the Niger delta of Nigeria. Journal of Tropical Ecology 4(1): 61–75.
• 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.
• Hubbard, F.H., 1981. Mangrove feasibility study. Final report, Gambia Forestry Project No 635–0205. Checchi & Company, Washington DC, United States. 153 pp.
• InsideWood, undated. [Internet] http://insidewood.lib.ncsu.edu/search/. Accessed May 2007.
• Jones, W.P., Lobo-Echeverri, T., Mi, Q., Chai, H., Lee, D., Soejarto, D.D., Cordell, G.A., Pezzuto, J.M., Swanson, S.M. & Kinghorn, A.D., 2005. Antitumour activity of 3-chlorodeoxylapachol, a naphthoquinone from Avicennia germinans collected from an experimental plot in southern Florida. Journal of Pharmacy and Pharmacology 57(9): 1101–1108.
• 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.
• Neuwinger, H.D., 2000. African traditional medicine: a dictionary of plant use and applications. Medpharm Scientific, Stuttgart, Germany. 589 pp.
• Normand, D., 1960. Atlas des bois de la Côte d’Ivoire. Tome 3. Centre Technique Forestier Tropical, Nogent-sur-Marne, France. 182 pp.
• Ogbalu, O.K., Asita, O.A., Obomanu, F.G., Fekarurhobo, G.K., Uche, F. & Benson Edeh, C.W., 2004. Pesticidal effects of smoke from selected woods of the Niger delta on the oviposition of Acraea acerata, a pest of sweet potato (Ipomoea batatas (L.) Lam.). Niger Delta Biologia 4(2): 16–20.
• Raponda-Walker, A. & Sillans, R., 1961. Les plantes utiles du Gabon. Paul Lechevalier, Paris, France. 614 pp.
• Savill, P.S. & Fox, J.E.D., 1967. Trees of Sierra Leone. Forest Department, Freetown, Sierra Leone. 316 pp.
• Schwarzbach, A.E. & McDade, L.A., 2002. Phylogenetic relationships of the mangrove family Avicenniaceae based on chloroplast and nuclear ribosomal DNA sequences. Systematic Botany 27(1): 84–98.
• Villiers, J.-F., 1973. Avicenniaceae. Flore du Gabon. Volume 22. Muséum National d’Histoire Naturelle, Paris, France. pp. 63–66.
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Afriref references  
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Sources of illustration  
 • Hepper, F.N., 1963. Avicenniaceae. In: Hepper, F.N. (Editor). Flora of West Tropical Africa. Volume 2. 2nd Edition. Crown Agents for Oversea Governments and Administrations, London, United Kingdom. pp. 448–449.
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Author(s)  
 
N.S. Alvarez Cruz
Unidad de Medio Ambiente, Delegación del CITMA, Cor. Legon 268 / Henry Reeve y Carlos Roloff, Sancti Spiritus 60100, Cuba


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  
 Alvarez Cruz, N.S., 2008. Avicennia germinans (L.) L. [Internet] Record from PROTA4U. Louppe, D., Oteng-Amoako, A.A. & Brink, M. (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
Vegetables
Dye and tannins use
Timber use
Carbohydrate/starch use
Fuel use
Medicinal use
Spices and condiment use
Climate change
Food security



Avicennia germinans
wild



Avicennia germinans
1, flowering twig; 2, flower; 3, fruit. Redrawn and adapted by Iskak Syamsudin



Avicennia germinans
tree habit



Avicennia germinans
young tree



Avicennia germinans
bark and slash



Avicennia germinans
leafy twigs



Avicennia germinans
leaves and fruits



Avicennia germinans
breathing roots (pneumatophores)



Avicennia germinans
flowering branch obtained from Botanypictures



Avicennia germinans
flowers obtained from W.D. Hawthorne



Avicennia germinans
fruiting branch obtained from Botanypictures



Avicennia germinans
infructescence obtained from Botanypictures


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