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Anthropogenic influence on extreme precipitation over global land areas seen in multiple observational datasets

Gavin D. Madakumbura (), Chad W. Thackeray, Jesse Norris, Naomi Goldenson and Alex Hall
Additional contact information
Gavin D. Madakumbura: University of California—Los Angeles
Chad W. Thackeray: University of California—Los Angeles
Jesse Norris: University of California—Los Angeles
Naomi Goldenson: University of California—Los Angeles
Alex Hall: University of California—Los Angeles

Nature Communications, 2021, vol. 12, issue 1, 1-9

Abstract: Abstract The intensification of extreme precipitation under anthropogenic forcing is robustly projected by global climate models, but highly challenging to detect in the observational record. Large internal variability distorts this anthropogenic signal. Models produce diverse magnitudes of precipitation response to anthropogenic forcing, largely due to differing schemes for parameterizing subgrid-scale processes. Meanwhile, multiple global observational datasets of daily precipitation exist, developed using varying techniques and inhomogeneously sampled data in space and time. Previous attempts to detect human influence on extreme precipitation have not incorporated model uncertainty, and have been limited to specific regions and observational datasets. Using machine learning methods that can account for these uncertainties and capable of identifying the time evolution of the spatial patterns, we find a physically interpretable anthropogenic signal that is detectable in all global observational datasets. Machine learning efficiently generates multiple lines of evidence supporting detection of an anthropogenic signal in global extreme precipitation.

Date: 2021
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Citations: View citations in EconPapers (6)

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DOI: 10.1038/s41467-021-24262-x

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