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Carbon and sediment accumulation in the Everglades (USA) during the past 4000 years: rates, drivers, and sources of error

July 26, 2012

Tropical and sub-tropical wetlands are considered to be globally important sources for greenhouse gases but their capacity to store carbon is presumably limited by warm soil temperatures and high rates of decomposition. Unfortunately, these assumptions can be difficult to test across long timescales because the chronology, cumulative mass, and completeness of a sedimentary profile are often difficult to establish. We therefore made a detailed analysis of a core from the principal drainage outlet of the Everglades of South Florida, to assess these problems and determine the factors that could govern carbon accumulation in this large sub-tropical wetland. Accelerator mass spectroscopy dating provided direct evidence for both hard-water and open-system sources of dating errors, whereas cumulative mass varied depending upon the type of method used. Radiocarbon dates of gastropod shells, nevertheless, seemed to provide a reliable chronology for this core once the hard-water error was quantified and subtracted. Long-term accumulation rates were then calculated to be 12.1 g m-2 yr-1 for carbon, which is less than half the average rate reported for northern and tropical peatlands. Moreover, accumulation rates remained slow and relatively steady for both organic and inorganic strata, and the slow rate of sediment accretion ( 0.2 mm yr-1) tracked the correspondingly slow rise in sea level (0.35 mm yr-1 ) reported for South Florida over the past 4000 years. These results suggest that sea level and the local geologic setting may impose long-term constraints on rates of sediment and carbon accumulation in the Everglades and other wetlands.

Publication Year 2012
Title Carbon and sediment accumulation in the Everglades (USA) during the past 4000 years: rates, drivers, and sources of error
DOI 10.1029/2011JG001821
Authors Paul H. Glaser, John C. Volin, Thomas J. Givnish, Barbara C. S. Hansen, Craig A. Stricker
Publication Type Article
Publication Subtype Journal Article
Series Title Journal of Geophysical Research G: Biogeosciences
Index ID 70003866
Record Source USGS Publications Warehouse
USGS Organization Fort Collins Science Center
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