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brazil
pantanal
radiocarbon
wetland
savanna
soil organic matter
stable carbon isotope
vegetation change
c-13/c-12 ratios
south-america
turnover
c-13
indicators
amazonia
regions
dioxide
valley
Abstract:
Measurements of the organic carbon inventory, its stable isotopic composition and radiocarbon content were used to deduce vegetation history from two soil profiles in arboreal and grassy savanna ecotones in the Brazilian Pantanal. The Pantanal is a large floodplain area with grass-dominated lowlands subject to seasonal flooding, and arboreal savanna uplands which are only rarely flooded. Organic carbon inventories were lower in the grassy savanna site than in the upland arboreal savanna site, with carbon decreasing exponentially with depth from the surface in both profiles. Changes in C-13 of soil organic matter (SOM) with depth differed markedly between the two sites. Differences in surface SOM C-13 values reflect the change from C-3 to C-4 plants between the sites, as confirmed by measurements of C-13 Of vegetation and the soil surface along a transect between the upland closed-canopy forest and lowland grassy savanna. Changes of C-13 in SOM with depth at both sites are larger than the 3-4 per mil increases expected from fractionation associated with organic matter decomposition. We interpret these as recording past changes in the relative abundance of C-3 and C-4 plants at these sites. Mass balances with C-14 and C-13 suggest that past vegetational changes from Cg to Cg plants in the grassy savanna, and in the deeper part of the arboreal savanna, occurred between 4600 and 11 400 sp, when major climatic changes were also observed in several places of the South American Continent. The change from C-4 to C-3, observed only in the upper part of the arboreal savanna, was much more recent (1400 sp), and was probably caused by a local change in the flooding regime.
