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Decreased cloud cover partially offsets the cooling effects of surface albedo change due to deforestation

Hao Luo (), Johannes Quaas and Yong Han ()
Additional contact information
Hao Luo: Sun Yat-sen University
Johannes Quaas: Leipzig University
Yong Han: Sun Yat-sen University

Nature Communications, 2024, vol. 15, issue 1, 1-8

Abstract: Abstract Biophysical processes of forests affect climate through the regulation of surface water and heat fluxes, which leads to further effects through the adjustment of clouds and water cycles. These indirect biophysical effects of forests on clouds and their radiative forcing are poorly understood but highly relevant in the context of large-scale deforestation or afforestation, respectively. Here, we provide evidence for local decreases in global low-level clouds and tropical high-level clouds from deforestation through both idealized deforestation simulations with climate models and from observations-driven reanalysis using space-for-time substitution. The decreased cloud cover can be explained by alterations in surface turbulent heat flux, which diminishes uplift and moisture to varying extents. Deforestation-induced reduction in cloud cover warms the climate, partially counteracting the cooling effects of increased surface albedo. The findings from idealized deforestation experiments and space-for-time substitution exhibit disparities, with global average offsets of, respectively, approximately 44% and 26%, suggesting the necessity for further constraints.

Date: 2024
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DOI: 10.1038/s41467-024-51783-y

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