2009
DOI: 10.1007/s10745-009-9257-y
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Environmental Consequences of the Demise in Swidden Cultivation in Southeast Asia: Carbon Storage and Soil Quality

Abstract: The effects of swidden cultivation on carbon storage and soil quality are outlined and compared to the effects of the intensified production systems that swidden systems of Southeast Asia transform into. Time-averaged aboveground carbon stocks decline by about 90% if the long fallow periods of traditional swidden cultivation are reduced to 4 years and by about 60% if swidden cultivation is converted to oil palm plantations. Stocks of soil organic carbon (SOC) in tree plantations are 0-40% lower than stocks in … Show more

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Cited by 212 publications
(130 citation statements)
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“…The carbon content in soil did not vary significantly (ANOVA, F 3, 16 = 1.87; p = 0.18). This result is contrary to the other findings as a decrease in carbon is resulted from an intensified rubber plantation in Southeast Asia 41 . According to Chadwick (1998) 42 , the major source of organic residues in plantations comes from the decomposition of leaf litter that has accumulated on the surface of the soil.…”
Section: Carbon Stockcontrasting
confidence: 99%
“…The carbon content in soil did not vary significantly (ANOVA, F 3, 16 = 1.87; p = 0.18). This result is contrary to the other findings as a decrease in carbon is resulted from an intensified rubber plantation in Southeast Asia 41 . According to Chadwick (1998) 42 , the major source of organic residues in plantations comes from the decomposition of leaf litter that has accumulated on the surface of the soil.…”
Section: Carbon Stockcontrasting
confidence: 99%
“…Swidden fallows play a crucial role in maintaining the sustainability of swidden systems in various ways: by restoring fertility of the soil-vegetation system and facilitating weed control (Nye and Greenland 1960), by providing a wealth of plant and wildlife products for subsistence and sale (Anderson 1993), and by providing ecosystem services such as regulating water flow, protection against erosion (Ziegler et al 2009b), maintaining long-term carbon stocks (Bruun et al 2009), and habitat for wild plants and animals on a larger landscape scale. Depending on management practices, especially the length of the fallow period, fallow vegetation develops through a sequence of successional stages, the early stages being characteristically dominated by herbaceous plants, the later stages being increasingly dominated by woody growth ranging from secondary scrub to secondary forest (SchmidtVogt 2001).…”
Section: The Fallow Phasementioning
confidence: 99%
“…In the case of this study, soil carbon stocks were not considered because especially in tropical environments, maximum carbon sequestration can be often achieved by focusing more on aboveground carbon than on soil organic carbon due to smaller pool sizes and short mean residence times [7,8]:…”
Section: Carbon-stock Accounting Proceduresmentioning
confidence: 99%