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Clouds reduce downwelling longwave radiation over land in a warming climate

Lei Liu (), Yi Huang and John R. Gyakum
Additional contact information
Lei Liu: McGill University
Yi Huang: McGill University
John R. Gyakum: McGill University

Nature, 2025, vol. 637, issue 8047, 868-874

Abstract: Abstract Clouds greatly influence the Earth’s energy balance1,2. Observationally constraining cloud radiative feedback, a notably uncertain climate feedback mechanism3–5, is crucial for improving predictions of climate change5–7 but, so far, remains an elusive objective, and the feedback may be different over the ocean versus over land8–10. Here we show a local negative surface longwave cloud feedback over land at the southern Great Plains site, constrained by direct long-term observation of spectrally resolved downwelling longwave radiance11. This negative cloud feedback at the southern Great Plains site causes a −1.77 ± 1.15 W m−2 per decade change in downwelling longwave radiation and suggests that cloud changes may partially modulate the warming effect of increased greenhouse gas concentrations and atmospheric temperatures over land. Specifically, our results are derived from an optimal spectral fingerprinting method12–15 designed to separate surface longwave cloud feedback from other surface forcings and feedbacks, by making use of their unique spectral signatures13–18 in the long-term record of spectrally resolved radiances. Furthermore, we show that the results are not site specific: negative surface longwave cloud feedbacks, primarily induced by decreasing low cloud cover in warming climates, are commonly observed over land in reanalysis and satellite datasets. Our findings establish a pivotal observational benchmark of radiative forcing and feedback needed for validating climate model performance over land.

Date: 2025
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DOI: 10.1038/s41586-024-08323-x

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