Abstract
In the tropics peat occurs mostly in sub-coastal lowlands and is formed from rainforest trees and associated higher plants. There are regional differences in the plant species involved and there are also changes with increase in altitude with a tendency to lower growing and more low temperature tolerant plants. The best estimate of the area of tropical peatland is 441,025 km2 which is about 11 % of the global peatland resource, although there is a wide range of estimate from 387,201 to 657, 430 km2 depending upon whether or not all Histosols and shallow organic soils are included. Current inventories of peatland area, peat thickness and carbon stores leave much to be desired and their accuracy varies not only from region to region but also country to country. The largest area of tropical peatland and peat carbon store is in Southeast Asia with 56 % of the former and 77 % of the latter owing to the large extent of peatlands and the considerable thickness of peat (regularly exceeding 10 m) in this region. Following Southeast Asia, South America contains the next largest area (24 %) of peatland but a smaller proportion of the global tropical peatland carbon store because of the thinner peat deposits. Africa contributes 13 % of the global area and 8 % of the carbon store, while Central America and the Caribbean, Mainland Asia and Australia and the Pacific contribute only 5 %, 1 % and <1 %, respectively and only 3 % of the carbon store, collectively. Tropical peatlands are now being subjected to intensive land use change and conversion to forms of agriculture including commercial plantations. This is well advanced in Southeast Asia, especially Indonesia and Malaysia where most of the peatland area has already been deforested, drained and converted often using fire as a land clearance tool. Apart from losses of biodiversity there have been immense emissions of greenhouse gases and large losses of carbon from the peat store, contributing to climate change processes. Other regions are further behind in these environmentally damaging impacts on the tropical peatland resource.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Aberico VR (1981) Some ecological considerations on peat soil management in Sab-A-Basin Leyte. Graons J 6(3):3–15
Anderson JAR (1983) The tropical peat swamps of western Malesia. In: Gore AJP (ed) Ecosystems of the world: mires: swamp, bog, fen and moor, vol 4B, Regional studies. Elsevier, New York, pp 181–199
Anderson JAR, Marsden D (1988) Brunei forest resources and strategic planning study, Report to the Government of His Majesty the Sultan and Yang Di-Pertuan of Negara Brunei Darussalam, Anderson and Marsden Forestry Consultants Ltd, Singapore
Andriesse JP (1988) Nature and management of tropical peat soils. FAO Soils Bulletin 59, Food and Agricultural Organisation of the United Nations, Rome, Italy
Armentano TV, Menges EG (1986) Patterns of change in the carbon balance of organic soil-wetlands of the temperate zone. J Ecol 74:755–774
Aslan A, White WA, Warne AG, Guevara EH (2003) Holocene evolution of the western Orinoco Delta, Venezuela. Geol Soc Am Bull 115:479–498
Bord na Mona (1984) Fuel peat in developing countries, World Bank technical paper no 41, The World Bank, Washington, DC
Casanova EC (1996) Peat resources in the Republic of Cuba. In: Lappalainen E (ed) Global peat resources. International Peat Society, Jyväskylä, pp 271–274
Coetzee JA (1967) Pollen analytical studies in East and Southern Africa. Palaeoecol Afr 3:1–146
Denny P (1991) Africa. In: Finlayson M, Moser M (eds) Wetlands, facts on file. Oxford University Press, Oxford, pp 115–148
Deuse P (1966) Contribution a l’étude des tourbières du Rwanda et du Burundi. In: Report of the Institute for Scientific Research in Central Africa (IRSAC 1960–64). Butare, Rwanda, vol 30, pp 53–115
Elenga H (1992) Végétation et climat du Zaire depuis 24,000 BP. Analyse palynologique de sequences sédimentaires su Pays Bateke et du littoral. Postgraduate Thesis of the University of Aix-Marsaille, Marseilles, 238 pp
FAO/UNESCO (1971–1981) Soil map of the world, 1:5,000,000, 10 vols, UNESCO, Paris
Golson J (1977) No room at the top: agricultural intensification in the New Guinea Highlands. In: Allen J, Golson J, Jones R (eds) Sunda and Sahul: prehistoric studies in Southeast Asia, Melanesia and Australia. Academic, London, pp 601–738
Gorham E (1991) Northern peatlands: role in the carbon cycle and probable responses to climatic warming. Ecol Appl 1(2):182–195
Gosselink JG, Maltby E (1990) Wetland losses and gains. In: Williams E (ed) Wetlands: a threatened landscape. Blackwell Science Publishing, Oxford, pp 296–322
GPD (2004) Global peatland database. International Mire Conservation Group. Available at: http://www.imcg.net/gpd/gpd.htm. Last updated 5 Feb 2004
Hamilton AC (1982) Environmental history of East Africa, a study of the quaternary. Academic, London, 328 pp
Hooijer A, Silvius M, Wösten H, Page S (2006) PEAT-CO2, assessment of CO2 emissions from drained peatlands in SE Asia, Delft Hydraulics Report Q3943, Delft, The Netherlands
Hope G (2007) Montane and alpine peatlands of New Guinea. In: Rieley JO, Banks CJ, Radjagukguk B (eds) Carbon-climate-human interactions on tropical peatland. Proceedings of the international symposium and workshop on tropical peatland, Yogyakarta, 27–29 August 2007, EU CARBOPEAT and RESTORPEAT Partnership, Gadjah Mada University, Indonesia and University of Leicester, United Kingdom, pp 51–57
Howard-Williams C, Thompson K (1985) The conservation and management of African wetlands. In: Denny P (ed) The ecology and management of African wetland vegetation. Dr. W. Junk Publishers, Dordrecht, pp 203–230
Hunting Technical Services (1969) Land capability study: physical resources and development priorities. Report submitted to the Government of the state of Brunei Darussalam
Immirzi CP, Maltby E, Clymo RS (1992) The global status of peatlands and their role in carbon cycling. A report for friends of the earth by the wetland ecosystems research group, University of Exeter. Report No. 11, Friends of the Earth, London, UK, 145 pp
Joosten H, Clarke D (2002) Wise use of mires and peatlands – backgrounds and principles, including a framework for decision-making. International Mire Conservation Group/International Peat Society, Jyväskylä
Kalmari A, Leino P (1985) Burundi peat project. In: Proceedings of the symposium: tropical peat resources – prospects and potential, Kingston, Jamaica, 25 February–1 March 1985, pp 340–349, International Peat Society, Helsinki
Kawalec A (1976) The genesis of lower Guinea peat bogs and processes of transformation under drainage. In: Proceedings of the 5th international peat congress, Poznan, Poland, 21–25 September 1976, pp 29–36, International Peat Society, Jyväskylä
Kivinen E, Pakarinen P (1980) Peatland areas and the proportion of virgin peatlands in different countries. In: Proceedings of the 6th international peat congress, “The role of peatlands in a world of limited resources – energy, food, fiber and natural areas, August 1980. Duluth, Minnesota, USA, pp 17–23, International Peat Society, Helsinki
Kivinen E, Pakarinen P (1981) Geographical distribution of peat resources and major peatland complex types in the world. Ann Acad Sci Fenn (Geol Geogr) 132(3):1–28
Korpijaakko M (1985) The peat deposits of the Niayes area of Senegal and their potential. In: Proceedings of the symposium: tropical peat resources – prospects and potential, Kingston, Jamaica, 25 February–1 March 1985. International Peat Society, Helsinki, pp 36–145
Korpijaakko E, Korpijaakko M (1996) The peat resources of Senegal. In: Lappalainen E (ed) Global peat resources. International Peat Society, Jyväskylä, pp 233–237
Lähteenoja O, Ruokoleinen K, Schulman L, Oinonen M (2009) Amazonian peatlands: an ignored C sink and potential source. Glob Chang Biol 15:2311–2320
Lähteenoja O, Reátegui YR, Räsänen M, del Castillo-Torres D, Oinonen M, Page S (2012) The large Amazonian peatland carbon sink in the subsiding Paraza-Marañón foreland basin, Peru. Glob Chang Biol 18:164–178
Lähteenoja O, Flores B, Nelson B (2013) Tropical peat accumulation in Central Amazonia. Wetlands 33:495–503
Lappalainen E (ed) (1996) Global peat resources. International Peat Society, Jyväskylä
Lappalainen E, Zurek S (1996a) Peat in other African countries. In: Lappalainen E (ed) Global peat resources. International Peat Society, Jyväskylä, pp 239–240
Lappalainen E, Zurek S (1996b) Peatlands in Central and South America. In: Lappalainen E (ed) Global peat resources. International Peat Society, Jyväskylä, pp 279–282
Markov VD, Olunin AS, Ospennikova LA, Skobeeva EI, Khoroshev PI (1988) World peat resources. Nedra, Moscow, 383 pp. (in Russian)
Miettinen J, Liew SC (2010) Degradation and development of peatlands in peninsular Malaysia and in the islands of Sumatra and Borneo since 1990. Land Degrad Develop 21:285–296
Miettinen J, Shi C, Liew SC (2011) Deforestation rates in insular Southeast Asia between 2000 and 2010. Glob Chang Biol 17:2261–2270
Miettinen J, Hooijer A, Shi C, Tollenaar D, Vernimmen R, Liew SC, Malins C, Page SE (2012) Extent of industrial plantations on Southeast Asian peatlands in 2010 with analysis of historical expansion and future projections. Global Change Biol Bioenerg 4:908–918
Monacci NM, Meier-Grühagen U, Finney B, Behling H, Wooler H (2009) Mangrove ecosystem changes during the Holocene at Spanish Lookout Cay, Belize. Palaeogeogr Palaeoclimatol Palaeoecol 280:37–46
Moore PJ, Bellamy DJ (1973) Peatlands. Paul Elek Scientific Books Ltd, London
Niyomdham C, Urapeepastanapong CA, Pitayakajornwute P (1996) Peat swamp forest of Thailand. In: Lappalainen E (ed) Global peat resources. International Peat Society, Jyväskylä, pp 197–200
Oravainen H, Crisologo EJ, Abando R, Herrera N, Sankiaho K, Klemetti V (1992) Prefeasibility study of the Philippines peat resources. Proceedings of the international symposium on tropical peatland. Kuching, Sarawak, Malaysia, 1991, pp 49–56
Page SE, Rieley JO, Shotyk W, Weiss D (1999) Interdependence of peat and vegetation in a tropical peat swamp forest. Philos Trans R Soc Ser B 354:1885–1897
Page SE, Siegert F, Rieley JO, Boehm H-DV, Jaya A, Limin S (2002) The amount of carbon released from peat in forest fires in Indonesia during 1997. Nature 420:61–65
Page SE, Rieley JO, Wüst R (2006) Lowland tropical peatlands of Southeast Asia. In: Martini P, Martinez-Cortizas A, Chesworth W (eds) Peatlands: evolution and records of environmental and climate changes, Developments in earth surface processes series. Elsevier, Amsterdam, pp 145–172
Page SE, Rieley JO, Banks CJ (2011) Global and regional importance of the tropical peatland carbon pool. Glob Chang Biol 17:798–818
Pajunen H (1985) The mires in the AkanyaruValley in Burundi. In: Proceedings of the symposium: tropical peat resources – prospects and potential, Kingston, Jamaica, February 25–March 1 1985, International Peat Society, Helsinki, pp 186–197
Pajunen H (1996) Peatlands in Burundi: their extent, development and use. In: Lappalainen E (ed) Global peat resources. International Peat Society, Jyväskylä, pp 221–225
Phillips S, Rouse GE, Bustin M (1997) Vegetation zones and diagnostic pollen profiles of a coastal peat swamp, Bocas del Toro, Panamá. Palaeogeogr Palaeoclimatol Palaeoecol 128:301–338
Rieley JO, Ahmad-Shah A (1996) The vegetation of tropical peat swamp forests. In: Maltby E, Immirzi CP, Safford RJ (eds) Tropical lowland peatlands of Southeast Asia. International Union for Conservation of Nature and Natural Resources, Gland, pp 55–74
Rieley JO, Ahmad-Shah A, Brady M (1996) The extent and nature of tropical peat swamps. In: Maltby E, Immirzi CP, Safford RJ (eds) Tropical lowland peatlands of Southeast Asia. International Union for Conservation of Nature and Natural Resources, Gland, pp 17–53
Rieley JO, Page SE (eds) (2005) Wise use of tropical peatlands – focus on Southeast Asia. Alterra, Wageningen
Ruokalainen K, Schulman L, Tuomisto H (2001) On Amazonian peatlands. International Mire Conservation Group Newsletter. Issue 2001/4, pp 8–10
Ruston WR (1980) Utilisation de la tourbe au Burundi, Report prepared for the Government of the Republic of Burundi by Ruston Technical Services International, UNIDO/ONUDI TF/BDI/77/002/11-01/31.3D, 59 pp
Rydin H, Jeglum J (2006) The biology of peatlands. Oxford University Press, Oxford
Schulman L, Ruokolainen K, Tuomisto H (1999) Parameters for global ecosystem models. Nature 399:535–536
Shier CW (1985) Tropical peat resources – an overview. In: Proceedings of the symposium on tropical peat resources – prospects and potential, Kingston, Jamaica, 1985, pp 29–46, International Peat Society, Helsinki
SSC (1988) Mapping of the natural conditions of the Philippines, Swedish Space Corporation Final Report, 41 pp
Thompson K, Hamilton AC (1983) Peatlands and swamps of the African continent. In: Gore AJP (ed) Mires: swamp, bog, fen and moor, regional studies, vol 4B, Ecosystems of the world. Elsevier, Amsterdam, pp 331–373
Urapeepatanapong C, Pitayakajornwute P (1996) The peat swamp forests of Thailand. In Maltby E, Immirzi CP, Safford RJ (eds) Tropical Lowland Peatlands of Southeast Asia, Proceedings of a workshop on integrated planning and management of tropical lowland peatlands, Cisarua, Indonesia, 3–8 July 1992, IUCN, Gland, Switzerland, pp 119–128
Van Engelen, Huting V (2002) Peatlands of the world, an interpretation of the world soil map. International Soil Reference and Information Centre, Wageningen, unpublished Global Peatland Initiative Project 29
Wayi BM, Freyne DF (1992) The distribution, characterisation, utilisation and management of peat soils in Papua New Guinea. In: Aminuddin, Tan SL, Aziz B, Samy J, Siti Petimah H, Choo ST (eds) Proceedings of the international symposium on tropical peatland. Kuching, Sarawak, Malaysia, 1991. Malaysian Agricultural Research and Development Institute, Malaysia, pp 28–32
Wooler MJ, Morgan R, Fowell S, Behling H, Fogel M (2007) A multiproxy peat record of Holocene mangrove palaeoecology from Twin Cays, Belize. Holocene 17:1129–1139
Zinck JA, Huber O (eds) (2011) Peatlands of the Western Guayana Highlands, Venezuela: properties and palaeographic significance of peats, Ecological studies 217. Springer, Berlin/Heidelberg. ISBN 978-3-642-20138-7
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2016 Springer Japan
About this chapter
Cite this chapter
Rieley, J., Page, S. (2016). Tropical Peatland of the World. In: Osaki, M., Tsuji, N. (eds) Tropical Peatland Ecosystems. Springer, Tokyo. https://doi.org/10.1007/978-4-431-55681-7_1
Download citation
DOI: https://doi.org/10.1007/978-4-431-55681-7_1
Publisher Name: Springer, Tokyo
Print ISBN: 978-4-431-55680-0
Online ISBN: 978-4-431-55681-7
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)