Tropical and subtropical moist broadleaf forests
Tropical and subtropical moist forest (TSMF), also known as tropical moist forest, is a tropical and subtropical forest habitat type defined by the World Wide Fund for Nature. The habitat type is sometimes known as jungle.
TSMF is generally found in large, discontinuous patches centered on the equatorial belt and between the Tropics of Cancer and Capricorn, TSMF are characterized by low variability in annual temperature and high levels of rainfall (>200 centimetres (79 in) annually). Forest composition is dominated by evergreen and semi-evergreen deciduous tree species. These trees number in the thousands and contribute to the highest levels of species diversity in any terrestrial major habitat type. In general, biodiversity is highest in the forest canopy. The canopy can be divided into five layers: overstory canopy with emergent crowns, a medium layer of canopy, lower canopy, shrub level, and finally understory.
These forests are home to more species than any other terrestrial ecosystem: Half of the world's species may live in these forests, where a square kilometer may be home to more than 1,000 tree species. These forests are found around the world, particularly in the Indo-Malayan Archipelago, the Amazon Basin, and the African Congo Basin.
A perpetually warm, wet climate makes these environments more productive than any other terrestrial environment on Earth and promotes explosive plant growth. A tree here may grow over 23 metres (75 ft) in height in just 5 years. From above, the forest appears as an unending sea of green, broken only by occasional, taller "emergent" trees. These towering emergents are the realm of hornbills, toucans, and the harpy eagle.
The canopy is home to many of the forest's animals, including apes and monkeys. Below the canopy, a lower understory hosts to snakes and big cats. The forest floor, relatively clear of undergrowth due to the thick canopy above, is prowled by other animals such as gorillas and deer.
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The biome includes several types of forests:
- Lowland equatorial evergreen rain forests, commonly known as tropical rainforests, are forests which receive high rainfall (tropical rainforest climate with more than 2000 mm, or 80 inches, annually) throughout the year. These forests occur in a belt around the equator, with the largest areas in the Amazon basin of South America, the Congo basin of central Africa, and parts of the Malay Archipelago. About half of the world's tropical rainforests are in the South American countries of Brazil and Peru. Rainforests now cover less than 6% of Earth's land surface. Scientists estimate that more than half of all the world's plant and animal species live in tropical rainforests.
- Tropical seasonal forests, also known as moist deciduous, monsoon or semi-evergreen (mixed) seasonal forests, have a monsoon or wet savannah climates (as in the Köppen climate classification): receiving high overall rainfall with a warm summer wet season and (often) a cooler winter dry season. Some trees in these forests drop some or all of their leaves during the winter dry season. These forests are found in South Florida, parts of South America, in Central America and around the Caribbean, in coastal West Africa, parts of the Indian subcontinent, and across much of Indochina.
- Montane rain forests are found in cooler-climate mountainous areas. Those with elevations high enough to regularly encounter low-level cloud cover are known as cloud forests.
- Flooded forests, including freshwater swamp forests and peat swamp forests.
- Southwest Amazon moist forests in Brazil and Ecuador
- Atlantic Forest in Argentina, Brazil and Paraguay
- Chocó-Darién moist forests in Colombia and Panama
- Northwestern Andean montane forests of Colombia and Ecuador
- Guayanan Highlands moist forests
- Cuban moist forests
- Veracruz moist forests in Mexico
- Congolese rainforests
- Upper Guinean forests
- Albertine Rift montane forests from Uganda to Burundi
- Eastern Arc forests of Kenya and Tanzania
- Coastal forests of eastern Africa from Somalia to Mozambique
- Madagascar subhumid forests
- Puerto Rican moist forests
- Sri Lanka lowland rain forests
- Peninsular Malaysian peat swamp forests
- Borneo peat swamp forests
- New Caledonia rain forests
- Western ghats
- This article incorporates text available under the CC BY-SA 3.0 license. World Wide Fund for Nature. "Tropical and Subtropical Moist Broadleaf Forest Ecoregions". Archived from the original on 2011-04-01. Retrieved 2019-05-29.
- Basic Biology (2016). "Forest".
- Terborgh, J; Winter, B (1983). "A method for siting parks and reserves with special reference to Colombia and Ecuador". Biological Conservation. 27: 45–58. doi:10.1016/0006-3207(83)90005-8.
- Whitmore, TC; Prance, GT, eds. (1987). Biogeography and Quaternary history in tropical America. Oxford Monographs on Biogeography. Oxford, UK: Clarendon Press.
- Borhidi, A (1991). Phytogeography and vegetation ecology of Cuba. Budapest, Hungary: Akadémiai Kiadó.
- Kingdon, J (1997). African mammals. San Diego, California, USA: Academic Press.
- Review of the protected areas system in the Afrotropical Realm. Gland, Switzerland: IUCN/UNEP. 1986a.
- Kingdon, J (1989). Island Africa: the evolution of Africa's rare animals and plants. Princeton, New Jersey, USA: Princeton University Press.
- Hamilton, AC; Bensted-Smith, R (1989). Forest conservation in the East Usambara Mountains, Tanzania. Gland, Switzerland: IUCN.
- Lovett, JC; Wasser, SK, eds. (1993). Biogeography and ecology of the rain forests of eastern Africa. Cambridge, UK: Cambridge University Press.
- Preston-Mafham, K (1991). Madagascar: A natural history. Oxford, UK: Facts on File.
- World Wildlife Fund, ed. (2001). "Puerto Rican moist forests". WildWorld Ecoregion Profile. National Geographic Society. Archived from the original on 2010-03-08. Retrieved 2010-11-17.
- Mittermeier, RA; Werner, TB; Lees, A (1996). "New Caledonia - a conservation imperative for an ancient land" (PDF). Oryx. 30: 104–112. doi:10.1017/s0030605300021487.