Add to ORKGThe rare stable carbon isotope, 13C, has been used previously to partition CO2 fluxes into land and ocean components. Net ocean and land fluxes impose distinctive and predictable fractionation patterns upon the stable isotope ratio, making it an excellent tool for distinguishing between them. Historically, isotope constrained inverse methods for calculating CO2 surface fluxes—the ‘double deconvolution’—have disagreed with bottom-up ocean flux estimates. In this study, we use the double deconvolution framework, but add, as a constraint, independent estimates of time histories of ocean fluxes to the atmospheric observations of CO2 and 13CO2. We calculate timeseries of net land flux, total disequilibrium flux and terrestrial disequilibrium flu...
Conventionally, measurements of carbon isotopes in atmospheric CO2 (δ13CO2) have been used to partit...
New observations of the vertically integrated CO<sub>2</sub> mixing ratio, ⟨CO<sub>...
Although the carbon isotopic composition of ocean waters after they leave the surface ocean is deter...
The rare stable carbon isotope, 13C, has been used previously to partition CO2 fluxes into land and ...
The recent proposals to estimate the oceanic uptake of CO2 by monitoring the oceanic change in 13C/1...
[1] Previous studies suggest that a large part of the variability in the atmospheric ratio of 13CO2/...
International audienceUsing δ13C measurements in atmospheric CO2 from a cooperative global air sampl...
The promise of utilizing large-scale atmospheric δ13CO2 measurements to understand terrestrial proce...
A three-dimensional tracer inversion model is described that couples atmospheric CO2 transport with ...
A global synthesis of the C-13/C-12 ratio of dissolved inorganic carbon (DIC) in the surface ocean i...
Observations of <sup>13</sup>CO<sub>2</sub> at 73 sites compiled in the GLOBALVIEW database are used...
The ocean and land absorb anthropogenic CO2 from industrial fossil-fuel emissions and land-use chang...
<p>Summary Thesis ‘Studying biosphere-atmosphere exchange of CO2 through</p> <p>carbon-13 stable iso...
The ratio of the stable carbon isotopes of atmospheric CO2 (δ13CO2) contains valuable informati...
Between March 1977 and February 1982, 517 samples of air were collected in 51 glass flasks at four s...
Conventionally, measurements of carbon isotopes in atmospheric CO2 (δ13CO2) have been used to partit...
New observations of the vertically integrated CO<sub>2</sub> mixing ratio, ⟨CO<sub>...
Although the carbon isotopic composition of ocean waters after they leave the surface ocean is deter...
The rare stable carbon isotope, 13C, has been used previously to partition CO2 fluxes into land and ...
The recent proposals to estimate the oceanic uptake of CO2 by monitoring the oceanic change in 13C/1...
[1] Previous studies suggest that a large part of the variability in the atmospheric ratio of 13CO2/...
International audienceUsing δ13C measurements in atmospheric CO2 from a cooperative global air sampl...
The promise of utilizing large-scale atmospheric δ13CO2 measurements to understand terrestrial proce...
A three-dimensional tracer inversion model is described that couples atmospheric CO2 transport with ...
A global synthesis of the C-13/C-12 ratio of dissolved inorganic carbon (DIC) in the surface ocean i...
Observations of <sup>13</sup>CO<sub>2</sub> at 73 sites compiled in the GLOBALVIEW database are used...
The ocean and land absorb anthropogenic CO2 from industrial fossil-fuel emissions and land-use chang...
<p>Summary Thesis ‘Studying biosphere-atmosphere exchange of CO2 through</p> <p>carbon-13 stable iso...
The ratio of the stable carbon isotopes of atmospheric CO2 (δ13CO2) contains valuable informati...
Between March 1977 and February 1982, 517 samples of air were collected in 51 glass flasks at four s...
Conventionally, measurements of carbon isotopes in atmospheric CO2 (δ13CO2) have been used to partit...
New observations of the vertically integrated CO<sub>2</sub> mixing ratio, ⟨CO<sub>...
Although the carbon isotopic composition of ocean waters after they leave the surface ocean is deter...