What is it about?
Shale weathering occurs when rocks are exposed to water, atmospheric gases, and biological respiration. This process significantly affects the global carbon cycle and influences the atmospheric carbon dioxide (CO2) levels. Quantifying the net contribution of weathering to CO2 remains difficult because of the co-occurence of multiple biogeochemical mechanisms that consume or produce CO2 near the land surface. Here, we develop a numerical model to quantitatively interpret the controls of transient climate forcing and the net effect of weathering on CO2. We find that a small but substantial fraction of atmospheric CO2 is transferred to the subsurface during large infiltration events because of the temporal coupling between microbial respiration and carbonate weathering.
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Why is it important?
Our results show that the net carbon flux associated with shale weathering depends on seasonal climatic changes. In particular, we find that shale weathering acts as a net carbon sink where large infiltration events allow an efficient transfer of CO2 between the soil horizon and shale rock. Considering the sensitivity of carbon fluxes to seasonal climatic forcing, our findings indicate that warmer and drier conditions will reduce the potential of shale weathering to act as a CO2 sink.
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This page is a summary of: Climate forcing controls on carbon terrestrial fluxes during shale weathering, Proceedings of the National Academy of Sciences, June 2024, Proceedings of the National Academy of Sciences,
DOI: 10.1073/pnas.2400230121.
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