Organic Carbon Burial With Reactive Iron Across Global Environments
Global Biogeochemical Cycles(2022)
摘要
Preservation of organic carbon (OC) in marine and terrestrial deposits is enhanced by bonding with reactive iron (Fe-R). Association of OC with Fe-R (OC-Fe-R) provides physical protection and hinders microbiological degradation. Roughly 20% of all OC stored in unconsolidated marine sediments and 40% of all OC present in Quaternary terrestrial deposits is preserved as OC-Fe-R, but this value varies from 10% to 80% across global depositional environments. Here, we provide a new assessment of global OC-Fe-R burial rates in both marine and terrestrial environments, using published estimates of OC associated with Fe-R, carbon burial, and probabilistic modeling. We estimate the marine OC-Fe-R sink between 31 and 70 Mt C yr(-1) (average 52 Mt C yr(-1)), and the terrestrial OC-Fe-R sink at between 146 and 917 Mt C yr(-1) (average 446 Mt C yr(-1)). In marine environments, continental shelves (average 17 Mt C yr(-1)) and deltaic/estuarine environments (average 11 Mg C yr(-1)) are the primary settings of OC-Fe-R burial. On land, croplands (279 Mt C yr(-1)) and grasslands (121 Mt C yr(-1)) dominate the OC-Fe-R burial budget. Changes in the Earth system through geological time impact the OC-Fe-R pools, particularly in marine settings. For example, periods of intense explosive volcanism may lead to increased net OC-Fe-R burial in marine sediments. Our work highlights the importance of OC-Fe-R in marine carbon burial and demonstrates how OC-Fe-R burial rates may be an order of magnitude greater in terrestrial environments, but here OC-Fe-R stocks are most sensitive to the anthropogenic impacts of climatic change.
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关键词
organic carbon,iron
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