A complex earth system model (atmosphere and ocean general circulation models, ocean biogeochemistry and terrestrial biosphere) was used to perform transient simulations of two interglacial sections (Eemian, 128–113 ky B.P., and Holocene, 9 ky B.P.–present). The changes in terrestrial carbon storage during these interglacials were studied with respect to changes in the earth's orbit. The effects of different climate factors on changes in carbon storage were studied in offline experiments in which the vegetation model was forced only with temperature, hydrological parameters, radiation, or CO2 concentration from the transient runs. The largest anomalies in terrestrial carbon storage were caused by temperature changes. However, the increase i...
[1] An inverse method is used to investigate the global carbon cycle from the early Holocene ( 8 kyr...
[1] Multiple proxy data reveal that the early to middle Holocene (ca. 8–6 kyr B.P.) was warmer than ...
In simulations with the MPI Earth System Model, we study the feedback between the terrestrial carbon...
International audienceA complex earth system model (atmosphere and ocean general circulation models,...
A complex earth system model (atmosphere and ocean general circulation models, ocean biogeochemistry...
International audienceA complex earth system model (atmosphere and ocean general circulation models,...
Abstract. A complex earth system model (atmosphere and ocean general circulation models, ocean bioge...
The state of the terrestrial biosphere during the Holocene and the Last Glacial Maximum (LGM) was es...
Multiple proxy data reveal that the early to middle Holocene (ca. 8-6 kyr B. P.) was warmer than the...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
Explaining the difference in carbon cycle dynamics (and hence atmospheric CO2) between various inter...
Conflicting hypotheses are investigated for the observed atmospheric CO2 increase of 20 ppm between ...
Explaining a difference in atmospheric CO2 dynamics among interglacials is an elusive issue. Several...
The concurrent effects of increasing atmospheric CO2 concentration, climate variability, and croplan...
The concurrent effects of increasing atmospheric CO2 concentration, climate variability, and croplan...
[1] An inverse method is used to investigate the global carbon cycle from the early Holocene ( 8 kyr...
[1] Multiple proxy data reveal that the early to middle Holocene (ca. 8–6 kyr B.P.) was warmer than ...
In simulations with the MPI Earth System Model, we study the feedback between the terrestrial carbon...
International audienceA complex earth system model (atmosphere and ocean general circulation models,...
A complex earth system model (atmosphere and ocean general circulation models, ocean biogeochemistry...
International audienceA complex earth system model (atmosphere and ocean general circulation models,...
Abstract. A complex earth system model (atmosphere and ocean general circulation models, ocean bioge...
The state of the terrestrial biosphere during the Holocene and the Last Glacial Maximum (LGM) was es...
Multiple proxy data reveal that the early to middle Holocene (ca. 8-6 kyr B. P.) was warmer than the...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
Explaining the difference in carbon cycle dynamics (and hence atmospheric CO2) between various inter...
Conflicting hypotheses are investigated for the observed atmospheric CO2 increase of 20 ppm between ...
Explaining a difference in atmospheric CO2 dynamics among interglacials is an elusive issue. Several...
The concurrent effects of increasing atmospheric CO2 concentration, climate variability, and croplan...
The concurrent effects of increasing atmospheric CO2 concentration, climate variability, and croplan...
[1] An inverse method is used to investigate the global carbon cycle from the early Holocene ( 8 kyr...
[1] Multiple proxy data reveal that the early to middle Holocene (ca. 8–6 kyr B.P.) was warmer than ...
In simulations with the MPI Earth System Model, we study the feedback between the terrestrial carbon...