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Bauska, Thomas K.,Joos, Fortunat,Mix, Alan C.,Roth, Raphael,Ahn, Jinho,Brook, Edward J. Nature Publishing Group, a division of Macmillan P 2015 Nature geoscience Vol.8 No.5
The stability of terrestrial carbon reservoirs is thought to be closely linked to variations in climate, but the magnitude of carbon–climate feedbacks has proved difficult to constrain for both modern and millennial timescales. Reconstructions of atmospheric CO<SUB>2</SUB> concentrations for the past thousand years have shown fluctuations on multidecadal to centennial timescales, but the causes of these fluctuations are unclear. Here we report high-resolution carbon isotope measurements of CO<SUB>2</SUB> trapped within the ice of the West Antarctic Ice Sheet Divide ice core for the past 1,000 years. We use a deconvolution approach to show that changes in terrestrial organic carbon stores best explain the observed multidecadal variations in the δ<SUP>13</SUP>C of CO<SUB>2</SUB> and in CO<SUB>2</SUB> concentrations from 755 to 1850 CE. If significant long-term carbon emissions came from pre-industrial anthropogenic land-use changes over this interval, the emissions must have been offset by a natural terrestrial sink for <SUP>13</SUP>C-depleted carbon, such as peatlands. We find that on multidecadal timescales, carbon cycle changes seem to vary with reconstructed regional climate changes. We conclude that climate variability could be an important control of fluctuations in land carbon storage on these timescales.