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Warming accelerates global drought severity

Warming accelerates global drought severity
Warming accelerates global drought severity

Drought is one of the most common and complex natural hazards affecting the environment, economies and populations globally1, 2, 3–4. However, there are significant uncertainties in global drought trends4, 5–6, and a limited understanding of the extent to which a key driver, atmospheric evaporative demand (AED), impacts the recent evolution of the magnitude, frequency, duration and areal extent of droughts. Here, by developing an ensemble of high-resolution global drought datasets for 1901–2022, we find an increasing trend in drought severity worldwide. Our findings suggest that AED has increased drought severity by an average of 40% globally. Not only are typically dry regions becoming drier but also wet areas are experiencing drying trends. During the past 5 years (2018–2022), the areas in drought have expanded by 74% on average compared with 1981–2017, with AED contributing to 58% of this increase. The year 2022 was record-breaking, with 30% of the global land area affected by moderate and extreme droughts, 42% of which was attributed to increased AED. Our findings indicate that AED has an increasingly important role in driving severe droughts and that this tendency will likely continue under future warming scenarios.

0028-0836
628-635
Gebrechorkos, Solomon H.
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Sheffield, Justin
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Vicente-Serrano, Sergio M.
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Funk, Chris
72c7a069-41c5-4dbe-b7d6-3a20e93e9a36
Miralles, Diego G.
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Peng, Jian
797bda35-6920-443c-a8a6-0cc09c8ed6d6
Dyer, Ellen
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Talib, Joshua
4cddf7de-42f4-45d7-80b0-b7130083c9da
Beck, Hylke E.
edbdb027-f978-47dd-a9d3-43a1cce92e9a
Singer, Michael B.
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Dadson, Simon J.
5935d9d1-2051-4e2b-93b5-efbeb51db3f9
Gebrechorkos, Solomon H.
ff77f8a3-b6ef-4cfd-aebd-a003bf3947a5
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Vicente-Serrano, Sergio M.
cdd833d1-7751-40b2-a494-9779cdfa03a3
Funk, Chris
72c7a069-41c5-4dbe-b7d6-3a20e93e9a36
Miralles, Diego G.
ce0c5485-e556-4c5b-a8c6-5241b090f307
Peng, Jian
797bda35-6920-443c-a8a6-0cc09c8ed6d6
Dyer, Ellen
2d332f20-5a6a-4c19-bab7-eeb5b739a1a7
Talib, Joshua
4cddf7de-42f4-45d7-80b0-b7130083c9da
Beck, Hylke E.
edbdb027-f978-47dd-a9d3-43a1cce92e9a
Singer, Michael B.
f4bb459f-4cce-4c3e-ac97-28bd50309b24
Dadson, Simon J.
5935d9d1-2051-4e2b-93b5-efbeb51db3f9

Gebrechorkos, Solomon H., Sheffield, Justin, Vicente-Serrano, Sergio M., Funk, Chris, Miralles, Diego G., Peng, Jian, Dyer, Ellen, Talib, Joshua, Beck, Hylke E., Singer, Michael B. and Dadson, Simon J. (2025) Warming accelerates global drought severity. Nature, 642 (8068), 628-635. (doi:10.1038/s41586-025-09047-2).

Record type: Article

Abstract

Drought is one of the most common and complex natural hazards affecting the environment, economies and populations globally1, 2, 3–4. However, there are significant uncertainties in global drought trends4, 5–6, and a limited understanding of the extent to which a key driver, atmospheric evaporative demand (AED), impacts the recent evolution of the magnitude, frequency, duration and areal extent of droughts. Here, by developing an ensemble of high-resolution global drought datasets for 1901–2022, we find an increasing trend in drought severity worldwide. Our findings suggest that AED has increased drought severity by an average of 40% globally. Not only are typically dry regions becoming drier but also wet areas are experiencing drying trends. During the past 5 years (2018–2022), the areas in drought have expanded by 74% on average compared with 1981–2017, with AED contributing to 58% of this increase. The year 2022 was record-breaking, with 30% of the global land area affected by moderate and extreme droughts, 42% of which was attributed to increased AED. Our findings indicate that AED has an increasingly important role in driving severe droughts and that this tendency will likely continue under future warming scenarios.

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Accepted/In Press date: 18 April 2025
e-pub ahead of print date: 18 April 2025
Published date: 19 June 2025

Identifiers

Local EPrints ID: 503172
URI: http://eprints.soton.ac.uk/id/eprint/503172
DOI: doi:10.1038/s41586-025-09047-2
ISSN: 0028-0836
PURE UUID: 44b70fcb-4058-4acd-9682-c839385b52cd
ORCID for Solomon H. Gebrechorkos: ORCID iD orcid.org/0000-0001-7498-0695
ORCID for Justin Sheffield: ORCID iD orcid.org/0000-0003-2400-0630

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Date deposited: 23 Jul 2025 16:35
Last modified: 22 Aug 2025 02:26

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Contributors

Author: Solomon H. Gebrechorkos ORCID iD
Author: Justin Sheffield ORCID iD
Author: Sergio M. Vicente-Serrano
Author: Chris Funk
Author: Diego G. Miralles
Author: Jian Peng
Author: Ellen Dyer
Author: Joshua Talib
Author: Hylke E. Beck
Author: Michael B. Singer
Author: Simon J. Dadson

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