[1] We examine the effect on atmospheric CO2 of the occurrence of increased shallow water carbonate deposition and regrowth of the terrestrial biosphere following the last glacial. We find that contrary to recent speculations that changes in terrestrial carbon storage were primarily responsible for the observed 20 ppmv late Holocene CO2 rise, a more likely explanation is coral reef buildup and other forms of shallow water carbonate deposition during this time. The importance of a responsive terrestrial carbon reservoir may instead be as a negative feedback restricting the rate of CO2 rise possible in the early stages of the deglacial transition. This separation in time of the primary impacts of regrowth of the terrestrial biosphere and incr...
Changes in deep ocean carbonate chemistry have profound implications for glacial-interglacial atmosp...
DURING the last glaciation, the atmospheric carbon dioxide concentration was about 30 less than the ...
Our understanding of the long-term evolution of the Earth system is based on the assumption that ter...
[1] We examine the effect on atmospheric CO2 of the occurrence of increased shallow water carbonate ...
Changes in deep ocean carbonate chemistry have profound implications for glacial-interglacial atmosp...
Glacial-interglacial changes in deep Indian and Pacific Ocean carbonate ion concentration ([CO32−]) ...
[1] The Bern3D model was applied to quantify the mechanisms of carbon cycle changes during the Holoc...
Changes to the carbon content of the deep ocean, the largest reservoir in the surficial carbon cycle...
We present new deep water carbonate ion concentration ([CO32-]) records, reconstructed using Cibicid...
Three scenarios have been proposed to explain the 20-ppm post-8000 BP rise in atmospheric CO2 conten...
Carbon release from the deep ocean at glacial terminations is a critical component of past climate c...
Many mechanisms have been proposed to explain the ∼85-90 ppm decrease in atmospheric carbon dioxide ...
Abstract. Although it has long been assumed that the glacial–interglacial cycles of atmospheric CO2 ...
An outstanding problem in our understanding of the global carbon cycle is unravelling the processes ...
Carbon-rich Pacific deep water extended into the South Atlantic some 38,000 to 28,000 years ago, pot...
Changes in deep ocean carbonate chemistry have profound implications for glacial-interglacial atmosp...
DURING the last glaciation, the atmospheric carbon dioxide concentration was about 30 less than the ...
Our understanding of the long-term evolution of the Earth system is based on the assumption that ter...
[1] We examine the effect on atmospheric CO2 of the occurrence of increased shallow water carbonate ...
Changes in deep ocean carbonate chemistry have profound implications for glacial-interglacial atmosp...
Glacial-interglacial changes in deep Indian and Pacific Ocean carbonate ion concentration ([CO32−]) ...
[1] The Bern3D model was applied to quantify the mechanisms of carbon cycle changes during the Holoc...
Changes to the carbon content of the deep ocean, the largest reservoir in the surficial carbon cycle...
We present new deep water carbonate ion concentration ([CO32-]) records, reconstructed using Cibicid...
Three scenarios have been proposed to explain the 20-ppm post-8000 BP rise in atmospheric CO2 conten...
Carbon release from the deep ocean at glacial terminations is a critical component of past climate c...
Many mechanisms have been proposed to explain the ∼85-90 ppm decrease in atmospheric carbon dioxide ...
Abstract. Although it has long been assumed that the glacial–interglacial cycles of atmospheric CO2 ...
An outstanding problem in our understanding of the global carbon cycle is unravelling the processes ...
Carbon-rich Pacific deep water extended into the South Atlantic some 38,000 to 28,000 years ago, pot...
Changes in deep ocean carbonate chemistry have profound implications for glacial-interglacial atmosp...
DURING the last glaciation, the atmospheric carbon dioxide concentration was about 30 less than the ...
Our understanding of the long-term evolution of the Earth system is based on the assumption that ter...