Journal
GEOPHYSICAL RESEARCH LETTERS
Volume 49, Issue 11, Pages -Publisher
AMER GEOPHYSICAL UNION
DOI: 10.1029/2022GL098843
Keywords
climate; tectonics; weathering
Categories
Funding
- NSF Climate Dynamics program(joint NSF/NERC) [AGS-1924538]
- National Science Foundation
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This study found that the long-term variability of global climate is influenced by the size and shape of continents, while the distribution of continents does not explain climate changes well. Runoff patterns are complex, sensitive to detailed features of continental geometry.
Over its multibillion-year history, the Earth has experienced a wide range of climates. The long-term climate is controlled by the atmospheric carbon dioxide concentration, which is regulated by marine sequestration through chemical weathering. This chemical weathering sink is strongly linked to the distribution and composition of the continents. However, the effect of continental distribution has never been studied within a general framework. Here we show that the global weathering rate is sensitive to the size and shape of the continents, but is not well explained by the amount of land in the tropics. We construct synthetic continental configurations and use an ensemble of global climate model simulations to isolate the expected effect of continental arrangement on weathering and carbon burial. Runoff patterns are complex, sensitive to detailed features of continental geometry, and poorly predicted by continental latitude. These results help explain the long-term variability and irregularity of Earth's climate.
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