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BEYOND “THE LIMITS TO PEAT BOG GROWTH”: CROSS-SCALE FEEDBACK IN PEATLAND DEVELOPMENT
Ecological Monographs, 2006 Copyright by the Ecological Society of America 2006, for personal or educational use only. Article is available at
Lisa R Belyea, Andrew J Baird
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Peatland and Peatland Forest in Brunei Darussalam
2016Peatlands, stored with abundant organic matter, become a source of the greenhouse effect gases emissions such as carbon dioxide and methane generated by decomposition of organic matter since such lands have not been properly utilized. Rehabilitation of degraded peatlands has, nevertheless, hardly been attempted.
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2008
Peatland ecosystems are characterized by a substantial accumulation of organic matter in soil (peat), resulting from long-term excess of net primary production at the surface compared to decomposition throughout the peat column. Globally, peatlands cover 3–4 percent of the earth’s land surface, yet they store 25–30 percent of the world’s soil carbon ...
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Peatland ecosystems are characterized by a substantial accumulation of organic matter in soil (peat), resulting from long-term excess of net primary production at the surface compared to decomposition throughout the peat column. Globally, peatlands cover 3–4 percent of the earth’s land surface, yet they store 25–30 percent of the world’s soil carbon ...
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2016
Malaysia has approximately 2.6 Mha of peatlands, of which about 70 % (∼1.6 Mha) are in Sarawak. Tropical peatland forest is a unique dual ecosystem of both rainforest and peatland. Its topo-morphology is strongly influenced by the hydrological conditions, which then determine the vegetation structure, species composition, and peat type.
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Malaysia has approximately 2.6 Mha of peatlands, of which about 70 % (∼1.6 Mha) are in Sarawak. Tropical peatland forest is a unique dual ecosystem of both rainforest and peatland. Its topo-morphology is strongly influenced by the hydrological conditions, which then determine the vegetation structure, species composition, and peat type.
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