Tropical regions occur between the Tropic of Cancer and the Tropic
of Capricorn. The tropics include approximately 40% of the land surface and is
the largest ecozone of the earth. According to Köppen (1931), the tropics are
characterized by an annual mean air temperature above 18°C throughout the
whole year. The largest climatic variation is introduced by the variability of
precipitation, reaching from nearly 0 mm in the Saharan and Atacama Desert to
11,700 mm on Mt. Waialeala in Hawaii (Eswaran et al., 1992).
An Afisol (Luvisol) soil derived from mudstone in Eastern Samar, Philippines |
According to Uehara and Gillman
(1981), "tropical soils" is a common
name used to identify any soil that occurs in the tropics. They noted that like
most common names, the term lacks precision, but it is more readily understood
by a larger audience than are the scientific names. In contrast, Sanchez (1976)
argued against the use of the term "tropical soils" since it does not
accurately reflect the soils in the tropics.
Selected properties of the major tropical soils (Jahn and Asio, 2006) |
The name tropical soils is now globally accepted but these soils
have remained poorly understood until now. The following are some important
aspects of tropical soils (Jahn and Asio , 2006):
- The tropics, the world’s largest ecological zone, have a very high potential for plant growth but with soil limitations in vast areas.
- About one-third of the soils of the world are tropical soils. The most widespread are Ferralsols, Acrisols, Luvisols, Cambisols, and Arenosols.
- The large proportion of Cambisols (Inceptisols) and Luvisols (Alfisols) in Southeast Asia reflects clearly the younger age of land surfaces and therefore the short duration of weathering processes.
- Some soils occur almost exclusively within the tropics. About 90% of the Ferralsols (Oxisols), 80% of the Nitisols (Oxisols/Ultisols), and 60% of the Acrisols (Ultisols) are situated in tropical regions.
- The major soil limitations or soil constraints are low cation exchange capacity, low base saturation (low pH, high Al-saturation) and high P retention. They are most widespread in South America, Africa and Southeast Asia (in decreasing order based on area).
- Physical constraints like high groundwater table, air deficiency, and low soil depth are of lesser significance but govern special requirements for soil management in specific landscapes.
- Due to severe chemical limitations, proper management of nutrients is the main challenge for effective land-use systems in the tropics.
- Internal and external fluxes of nutrients are different among soil types and different among tropical landscapes. These have to be considered in ecological land-use systems.
- To conserve the stock of organic matter in tropical soils (and to increase it in degraded soils), biomass productivity will be a key point for ecological land-use systems.
- To enable policy-makers as well as land users to establish sustainable and ecological land use systems in the tropics, more precise soil maps and soil information are needed.
References
Eswaran H., J.
Kimble, T. Cook & F.H. Beinroth. 1992. Soil diversity in the tropics:
Implications for agricultural development. In: Myths and Science of Soils in
the Tropics. SSSA Special Publ. No. 29.
Jahn R. and V.B.
Asio. 2006. Climate, geology and soils of the tropics with special reference to
Southeast Asia and Leyte (Philippines). In: Proc. 11th International
Seminar-Workshop on Tropical Ecology, 21-25 Aug 2006, VSU, Baybay City, Leyte,
pp: 23-42.
Köppen W. 1931.
Grundriss der Klimakunde. W. de Gruyter & Co., Berlin
Sanchez, P.A. 1976.
Properties and Management of Soils in the Tropics. Wiley, New York
Uehara G. and G.
Gillman. 1981. The Mineralogy, Chemistry, and Physics of Tropical Soils with
Variable Charge Clays. Westview Press,
Boulder Colorado.
What an important information! Nice article sir vic...
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