What was the source of the atmospheric CO 2 increase during the Holocene?

The atmospheric CO 2 concentration increased by about 20 ppm from 6000 BCE to the pre-industrial period (1850 CE). Several hypotheses have been proposed to explain mechanisms of this CO 2 growth based on either ocean or land carbon sources. Here, we apply the Earth system model MPI-ESM-LR for two tr...

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Bibliographic Details
Published in:Biogeosciences
Main Authors: V. Brovkin, S. Lorenz, T. Raddatz, T. Ilyina, I. Stemmler, M. Toohey, M. Claussen
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2019
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Online Access:https://doi.org/10.5194/bg-16-2543-2019
https://doaj.org/article/b38556b019d34ef7b15fab4ce2c57ee9
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Summary:The atmospheric CO 2 concentration increased by about 20 ppm from 6000 BCE to the pre-industrial period (1850 CE). Several hypotheses have been proposed to explain mechanisms of this CO 2 growth based on either ocean or land carbon sources. Here, we apply the Earth system model MPI-ESM-LR for two transient simulations of climate and carbon cycle dynamics during this period. In the first simulation, atmospheric CO 2 is prescribed following ice-core CO 2 data. In response to the growing atmospheric CO 2 concentration, land carbon storage increases until 2000 BCE, stagnates afterwards, and decreases from 1 CE, while the ocean continuously takes CO 2 out of the atmosphere after 4000 BCE. This leads to a missing source of 166 Pg of carbon in the ocean–land–atmosphere system by the end of the simulation. In the second experiment, we applied a CO 2 nudging technique using surface alkalinity forcing to follow the reconstructed CO 2 concentration while keeping the carbon cycle interactive. In that case the ocean is a source of CO 2 from 6000 to 2000 BCE due to a decrease in the surface ocean alkalinity. In the prescribed CO 2 simulation, surface alkalinity declines as well. However, it is not sufficient to turn the ocean into a CO 2 source. The carbonate ion concentration in the deep Atlantic decreases in both the prescribed and the interactive CO 2 simulations, while the magnitude of the decrease in the prescribed CO 2 experiment is underestimated in comparison with available proxies. As the land serves as a carbon sink until 2000 BCE due to natural carbon cycle processes in both experiments, the missing source of carbon for land and atmosphere can only be attributed to the ocean. Within our model framework, an additional mechanism, such as surface alkalinity decrease, for example due to unaccounted for carbonate accumulation processes on shelves, is required for consistency with ice-core CO 2 data. Consequently, our simulations support the hypothesis that the ocean was a source of CO 2 until the late Holocene when ...