N. Gruber et Cd. Keeling, An improved estimate of the isotopic air-sea disequilibrium of CO2: Implications for the oceanic uptake of anthropogenic CO2, GEOPHYS R L, 28(3), 2001, pp. 555-558
We reevaluate the isotopic air-sea disequilibrium of CO2 on the basis of a
new high-quality global data set of surface observations of the reduced iso
topic ratio (delta C-13) of dissolved inorganic carbon (DIC). We find a glo
bal mean isotopic air-sea disequilibrium of 0.62+/-0.10 permil for 1990. In
serting our estimate into an anthropogenic C-13 budget for the period from
1985 to 1995 yields an oceanic uptake of 1.5+/-0.9 Pg C yr(-1), within the
range of most other estimates. The large uncertainty of this estimate could
be reduced with (i) better characterization of the surface ocean variabili
ty in delta C-13, (ii) improved knowledge of the air-sea gas exchange coeff
icient, and (iii) a significant reduction in the uncertainty associated wit
h the air-land biosphere disequilibrium.