Tropical Forests

Tropical Forests

1740 TROPICAL FORESTS / Bombacaceae in turn cause wild swings in the ecology and these Birks JS and Barnes RD (1990) Provenance Variation in swings themselves can sometimes prove to be beyond Pinus caribaea, P. oocarpa and P. patula ssp. tecunuma- control through management. In the exotic environ- nii. Tropical Forestry Papers no. 21. Oxford, UK: Oxford ments, it is impossible to predict or even conceive of Forestry Institute. the events that may occur and to know their Critchfield WB and Little EL (1966) Geographic Distribu- consequences. Introduction of diversity in the forest tion of the Pines of the World. Washington, DC: USDA Miscellaneous Publications. through mixed ages, mixed species, rotation of Duffield JW (1952) Relationships and species hybridization species, silvicultural treatment, and genetic variation in the genus Pinus. Zeitschrift fu¨r Forstgenetik und may make ecology and management more complex Forstpflanzenzuchtung 1: 93–100. but it will render the crop ecosystem much more Farjon A and Styles BT (1997) Pinus (Pinaceae). Flora stable, robust, and self-perpetuating and provide Neotropica Monograph no. 75. New York: New York buffers against disasters. The forester must treat crop Botanical Garden. protection as part of silvicultural planning. Ivory MH (1980) Ectomycorrhizal fungi of lowland tropical pines in natural forests and exotic plantations. See also: Pathology: Diseases affecting Exotic Planta- In: Mikola P (ed.) Tropical Mycorrhiza Research, tion Species; Diseases of Forest Trees. Temperate and pp. 110–117. Oxford, UK: Oxford University Press. Mediterranean Forests: Northern Coniferous Forests; Ivory MH (1987) Diseases and Disorders of Pines in the Southern Coniferous Forests. Temperate Ecosystems: Tropics. Overseas Research Publication no. 31. London: Pines. Tree Breeding, Practices: Pinus Radiata Genet- Overseas Development Agency. ics; Breeding for Disease and Insect Resistance; South- Little EB and Critchfield WB (1969) Sub-divisions of the ern Pine Breeding and Genetic Resources. Tree Genus Pinus (Pines). Washington, DC: US Department of Breeding, Principles: A Historical Overview of Forest Agriculture Miscellaneous Publications no. 1144. Tree Improvement; Conifer Breeding Principles and Loock EEM (1977) The Pines of Mexico and British Processes. Tropical Ecosystems: Southern Hemisphere Honduras. Bulletin no. 35. Pretoria, South Africa: Conifers. Department of Forestry. Mirov NT (1967) The Genus Pinus. New York: Ronald Press. Further Reading Perry JP (1991) The Pines of Mexico and Central America. Portland, OR: Timber Press. Barnes RD, Styles BT, Plumptre RA, and Ivory MH (2001) Speight MR and Wainhouse D (1989) Ecology and Tropical pines. In: Last FT (ed.) Tree Crop Ecosystems, Management of Forest Insects. Oxford, UK: Oxford pp. 163–192. Amsterdam: Elsevier Science. University Press. TROPICAL FORESTS Contents Bombacaceae Combretaceae Lauraceae Lecythidaceae Monsoon Forests (Southern and Southeast Asia) Myristicaceae Tropical Dry Forests Tropical Moist Forests Tropical Montane Forests Woody Legumes (excluding Acacias) Bombacaceae Introduction S Harris, University of Oxford, Oxford, UK The family Bombacaceae contains trees with some of & 2004, Elsevier Ltd. All Rights Reserved. the most enigmatic of all traits, whether it is the TROPICAL FORESTS / Bombacaceae 1741 lightness of South American balsa wood (Ochroma habitats, for example, small crowns and thick, pyrimidale), the fabled odor of Southeast Asian bottle-shaped trunks. durian fruit (Durio zibethinus), or the unusual The hermaphrodite flowers of Bombacaceae are architecture of African baobabs (Adansonia digita- generally large and showy, being produced during ta). Traditionally, the Bombacaceae have been drier periods when the trees lose their leaves. The separated as a family, distinct from the Sterculiaceae flowers attract insects (e.g., ants in Adansonia), birds (cocoas), Malvaceae (cottons), and Tiliaceae (limes). and mammals (particularly bats), and are generally However, detailed analyses of molecular and mor- highly outcrossed, with pollen moving large dis- phological data have concluded that a single mono- tances between trees. The fruits of Bombacaceae are phyletic Malvaceae should be recognized that often dehiscent capsules containing wind-dispersed encompasses all of the other families. The Bomba- seeds that are surrounded by cotton-like fibers, e.g., caceae cannot be maintained as a separate family Bombax and Ceiba. Adansonia has an indehiscent since it appears to be paraphyletic with respect to the capsule containing a sour, dry flesh that is dispersed traditional circumscription of the Malvaceae and, by large mammals, whilst Durio seeds are sur- furthermore, the genus Durio and its allies are more rounded by a fleshy aril, the odor of which attracts closely related to the traditional circumscription of large mammals, e.g., elephants and monkeys, which the Sterculiaceae. may also act as dispersal agents. In the neotropics, The traditional Bombacaceae comprises some 25 parrots readily damage fruit capsules to retrieve the genera and 250 species of tropical (primarily oily seeds, and this can be a problem if Bombacaceae neotropical) trees (Table 1), although some generic species are being grown for their seeds. limits are controversial. For example, the important Economically, the most important species is timber species Bombacopsis quinata is often sepa- Ochroma pyramidale, which is the source of com- rated from the genus Pachira, whilst the widely mercial balsa wood. However, other genera (e.g., planted ornamental genus Chorisia may be recog- Bombax) may also be used where light, low-quality nized as distinct from Ceiba. The majority of species timbers are needed. A. digitata is an important are found in lowland rainforest, although some multipurpose African species, with a complex my- genera (e.g., Adansonia, Ceiba, Cavanillesia) show thology surrounding it. Uses of Adansonia include water-storage adaptations for survival in dry, open fruit pulp as a drink, young leaves as a vegetable, seeds as fruits and sources of oil and tartaric acid and Table 1 Distribution of genera in the family Bombacaceae bark for rope and cloth. Pachira fendleri (synonym: Bombacopsis quinata) is used as a living fence in Genus Approx. Distribution species Central America and Ceiba pentandra is the com- number mercial source of kapok. Durio zibethinus is an important fruit tree in Southeast Asia, where the fruit Adansonia 15 Africa, Madagascar, Australia Aguiaria 1 Brazil is said to ‘smell like hell but taste of heaven.’ Bernoullia 2 Tropical America Bombax 20 Old-world tropics See also: Tropical Forests: Tropical Dry Forests; Camptostemon 2 Central Malesia, Australia Tropical Moist Forests. Catostemma 11 Northern South America Cavanillesia 3 Tropical America Ceiba 11 Tropical America and Africa Further Reading Coelostegia 5 West Malesia Durio 28 Myanmar to West Malesia Alverson WS, Whitlock BA, Nyffeler R, Bayer C, and Eriotheca 19 Tropical America Baum DA (1999) Phylogeny of the core Malvales: Gyranthera 2 Panama, Venezuela evidence from ndhF sequence data. American Journal Huberodendron 5 Tropical America of Botany 86: 1474–1486. Kostermansia 1 Malaysia Matisia 25 Tropical South America Bayer C and Kubitzki K (2002) Malvaceae. In: Kubitzki K Neesia 8 West Malesia (ed.) The Families and Genera of Vascular Plants, vol. 4, Neobuchia 1 Hispaniola Flowering Plants: Dicotyledons. Malvales, Capparales Ochroma 1 Tropical America and Non-Betalain Caryophyllales, pp. 225–311. Berlin: Pachira 20 Tropical America Springer-Verlag. Patinoa 4 Tropical South America Du Puy B (1996) The baobabs of Madagascar. Curtis’s Phragmotheca 5 Tropical South America Botanical Magazine 13: 86–95. Pseudobombax 20 Tropical America Judd WS and Manchester SR (1997) Circumscription of Quararibea 35 Tropical America Malvaceae (Malvales) as determined by a preliminary Scleronema 5 Tropical South America cladistic analysis of morphological, anatomical, palyno- Septotheca 1 Peru logical, and chemical characters. Brittonia 49: 384–405. 1742 TROPICAL FORESTS / Combretaceae Nyffeler R and Baum DA (2000) Phylogenetic relationships Terminalia and Combretum. Terminalia species are of the durians (Bombacaceae-Durioneae or Malvaceae/ important constituents of primary and secondary Helicteroideae/Durioneae) based on chloroplast and forests; for example, in Malaysia the genus is nuclear ribosomal DNA sequences. Plant Systematics common in evergreen and semideciduous rainforest, and Evolution 224: 55–82. and swamp and riverine forests, whilst T. catappa Wickens GE (1982) The baobab: Africa’s upside-down (native to tropical Asia and Pacific region) is a tree. Kew Bulletin 37: 173–209. common constituent of littoral forests, sandy bea- ches, and eroding rocky shores, often as street or garden trees rather than for commercial forestry. Combretum species are commonly lianas, often Combretaceae found in riverine habitats and on the margins of S Harris, University of Oxford, Oxford, UK primary and secondary forests. The species of the two closely related genera (Laguncularia, Lumnit- & 2004, Elsevier Ltd. All Rights Reserved. zera) are mangrove species, whilst species of the more distantly related genus Conocarpus are man- The Combretaceae, based on morphological and grove associates. For example, the adaptations of molecular data, is a monophyletic family comprising Laguncularia racemosa to salt-water flooding in- 19 genera (approximately 510 species) of subtropi- clude salt glands, vivipary, and pneumatophores.

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