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Full-Text Articles in Social and Behavioral Sciences
The Significance Of Carbon-Enriched Dust For Global Carbon Accounting, Nicholas P. Webb, Adrian Chappell, Craig L. Strong, Samuel K. Marx, Granth Mctainsh
The Significance Of Carbon-Enriched Dust For Global Carbon Accounting, Nicholas P. Webb, Adrian Chappell, Craig L. Strong, Samuel K. Marx, Granth Mctainsh
Faculty of Science, Medicine and Health - Papers: part A
Soil carbon stores amount to 54% of the terrestrial carbon pool and twice the atmospheric carbon pool, but soil organic carbon (SOC) can be transient. There is an ongoing debate about whether soils are a net source or sink of carbon, and understanding the role of aeolian processes in SOC erosion, transport and deposition is rudimentary. The impacts of SOC erosion by wind on the global carbon budget, and its importance for carbon accounting remain largely unknown. Current understanding of SOC losses to wind erosion is based on the assumption that the SOC content of eroded material is the same …
Fire Regimes And Carbon In Australian Vegetation, Richard J. Williams, Ross A. Bradstock, Damian Barrett, Jason Beringer, Mathias M. Boer, Geoffrey J. Cary, Garry D. Cook, A Malcolm Gill, Lindsay B. Hutley, Heather Keith, Stefan W. Maier, Cp (Mick) Meyer, Owen Price, Stephen H. Roxburgh, Jeremy Russell-Smith
Fire Regimes And Carbon In Australian Vegetation, Richard J. Williams, Ross A. Bradstock, Damian Barrett, Jason Beringer, Mathias M. Boer, Geoffrey J. Cary, Garry D. Cook, A Malcolm Gill, Lindsay B. Hutley, Heather Keith, Stefan W. Maier, Cp (Mick) Meyer, Owen Price, Stephen H. Roxburgh, Jeremy Russell-Smith
Faculty of Science, Medicine and Health - Papers: part A
Fires regularly affect many of the world's terrestrial ecosystems, and, as a result, fires mediate the exchange of greenhouse gases (GHG) between the land and the atmosphere at a global scale and affect the capacity of terrestrial ecosystems to store carbon (Bowman et al. 2009). Variations in fire -regimes can therefore potentially affect the global, regional and local carbon balance and, potentially, climate change itself (Bonan 2008). Here we examine how variation in fire regimes (Gill 1975; Bradstock et al. 2002) will potentially affect carbon in fire-prone Australian ecosystems via interactions with the stocks and transfers of carbon that are …