Human-induced climate change increased 2021–2022 drought severity in horn of Africa

Joyce Kimutai; Clair Barnes; Mariam Zachariah; Sjoukje Y. Philip; Sarah F. Kew; Izidine Pinto; Piotr Wolski; Gerbrand Koren; Gabriel Vecchi; Wenchang Yang; Sihan Li; Maja Vahlberg; Roop Singh; Dorothy Heinrich; Julie Arrighi; Carolina Pereira Marghidan; Lisa Thalheimer; Cheikh Kane; Emmanuel Raju; Friederike E.L. Otto

doi:10.1016/j.wace.2025.100745

Human-induced climate change increased 2021–2022 drought severity in horn of Africa

Joyce Kimutai^*, Clair Barnes, Mariam Zachariah, Sjoukje Y. Philip, Sarah F. Kew, Izidine Pinto, Piotr Wolski, Gerbrand Koren, Gabriel Vecchi, Wenchang Yang, Sihan Li, Maja Vahlberg, Roop Singh, Dorothy Heinrich, Julie Arrighi, Carolina Pereira Marghidan, Lisa Thalheimer, Cheikh Kane, Emmanuel Raju, Friederike E.L. Otto

^*Corresponding author for this work

Global Ecohydrology and Sustainability

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

From October 2020 to early 2023, Eastern Africa experienced five consecutive failed (SPEI -2.6) rainy seasons, resulting in the worst drought in 40 years. This led to harvest failures, livestock losses, water scarcity, and conflicts, leaving approximately 4.35 million people in need of humanitarian aid. To understand the role of human-induced climate change in the drought, we analysed rainfall trends and the combined effect of rainfall deficit with high temperatures in the Southern Horn of Africa covering parts of southern Ethiopia, southern Somalia, and eastern Kenya. We employed various climate models and observations to assess changes in 24-month rainfall (2021–2022), and seasonal rainfall; both the (March-April-May, MAM) ‘long rains’ and (October-November-December, OND) ‘short rains’ in 2022. We also contextualised the event in terms of vulnerability and exposure to understand how these elements influenced the magnitude of the impacts. Our analysis shows that anthropogenic influence on the combined effects of low rainfall and high evapotranspiration caused by higher temperatures made the drought exceptional, leading to major crop and pasture losses and water shortages. Our results also show a decline in rainfall during MAM and an upward trend during OND, which is attributable to climate change. Despite the wetting trend in OND season, the drought years concluded with successive La Niña conditions, typically linked with below-average rainfall in the region during that season. We do not find a trend in the 24-month precipitation. The assessment on vulnerability and exposure highlights the need for enhanced preparedness of government drought management systems and international aid infrastructure for future severe and prolonged droughts. The study's findings, combined with climate projections that indicate increased heavy precipitation in the region, underscore the pressing necessity for robust adaptation strategies that can address both wet and dry extremes. The impacts of climate change in Eastern Africa necessitate investments in adaptive measures and resilience building that can evolve with emerging climate signals.

Original language	English
Article number	100745
Number of pages	20
Journal	Weather and Climate Extremes
Volume	47
DOIs	https://doi.org/10.1016/j.wace.2025.100745
Publication status	Published - Mar 2025

Bibliographical note

Publisher Copyright:
© 2025 The Authors

Funding

JK, ER and FO acknowledge funding from the Danida Fellowship Centre (DFC), Ministry of Foreign Affairs of Denmark- Climate Change Attribution and Vulnerability in Kenya, DFC File No- 23-12-KU. Kenya and Somalia are covered by the African Risk Capacity, a disaster risk insurance mechanism of the African Union that allows humanitarian organisations to match funds with existing insurance policies. In early 2023, Somalia received a payout of USD3.38 million from this fund (Start Network, 2023).The authors acknowledge the support received from the European Union's Horizon 2020 research and innovation programme under XAIDA project, grant agreement No. 101003469. JK, ER and FO acknowledge funding from the Danida Fellowship Centre (DFC), Ministry of Foreign Affairs of Denmark- Climate Change Attribution and Vulnerability in Kenya, DFC File No- 23-12-KU. The authors acknowledgment to Karin who contributed to the discussions. The authors acknowledge the support received from the European Union\u2019s Horizon 2020 research and innovation programme under XAIDA project, grant agreement No. 101003469.

Funders	Funder number
Danida Fellowship Centre
Udenrigsministeriet
Horizon 2020
Horizon 2020 Framework Programme	101003469

Keywords

Attribution
Climate change
Drought
Horn of Africa

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.wace.2025.100745Licence: CC BY

1-s2.0-S2212094725000039-mainFinal published version, 10.6 MBLicence: CC BY

Cite this

Kimutai, J., Barnes, C., Zachariah, M., Philip, S. Y., Kew, S. F., Pinto, I., Wolski, P., Koren, G., Vecchi, G., Yang, W., Li, S., Vahlberg, M., Singh, R., Heinrich, D., Arrighi, J., Marghidan, C. P., Thalheimer, L., Kane, C., Raju, E., & Otto, F. E. L. (2025). Human-induced climate change increased 2021–2022 drought severity in horn of Africa. Weather and Climate Extremes, 47, Article 100745. https://doi.org/10.1016/j.wace.2025.100745

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title = "Human-induced climate change increased 2021–2022 drought severity in horn of Africa",

abstract = "From October 2020 to early 2023, Eastern Africa experienced five consecutive failed (SPEI -2.6) rainy seasons, resulting in the worst drought in 40 years. This led to harvest failures, livestock losses, water scarcity, and conflicts, leaving approximately 4.35 million people in need of humanitarian aid. To understand the role of human-induced climate change in the drought, we analysed rainfall trends and the combined effect of rainfall deficit with high temperatures in the Southern Horn of Africa covering parts of southern Ethiopia, southern Somalia, and eastern Kenya. We employed various climate models and observations to assess changes in 24-month rainfall (2021–2022), and seasonal rainfall; both the (March-April-May, MAM) {\textquoteleft}long rains{\textquoteright} and (October-November-December, OND) {\textquoteleft}short rains{\textquoteright} in 2022. We also contextualised the event in terms of vulnerability and exposure to understand how these elements influenced the magnitude of the impacts. Our analysis shows that anthropogenic influence on the combined effects of low rainfall and high evapotranspiration caused by higher temperatures made the drought exceptional, leading to major crop and pasture losses and water shortages. Our results also show a decline in rainfall during MAM and an upward trend during OND, which is attributable to climate change. Despite the wetting trend in OND season, the drought years concluded with successive La Ni{\~n}a conditions, typically linked with below-average rainfall in the region during that season. We do not find a trend in the 24-month precipitation. The assessment on vulnerability and exposure highlights the need for enhanced preparedness of government drought management systems and international aid infrastructure for future severe and prolonged droughts. The study's findings, combined with climate projections that indicate increased heavy precipitation in the region, underscore the pressing necessity for robust adaptation strategies that can address both wet and dry extremes. The impacts of climate change in Eastern Africa necessitate investments in adaptive measures and resilience building that can evolve with emerging climate signals.",

keywords = "Attribution, Climate change, Drought, Horn of Africa",

author = "Joyce Kimutai and Clair Barnes and Mariam Zachariah and Philip, {Sjoukje Y.} and Kew, {Sarah F.} and Izidine Pinto and Piotr Wolski and Gerbrand Koren and Gabriel Vecchi and Wenchang Yang and Sihan Li and Maja Vahlberg and Roop Singh and Dorothy Heinrich and Julie Arrighi and Marghidan, {Carolina Pereira} and Lisa Thalheimer and Cheikh Kane and Emmanuel Raju and Otto, {Friederike E.L.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

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doi = "10.1016/j.wace.2025.100745",

language = "English",

volume = "47",

journal = "Weather and Climate Extremes",

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Kimutai, J, Barnes, C, Zachariah, M, Philip, SY, Kew, SF, Pinto, I, Wolski, P, Koren, G, Vecchi, G, Yang, W, Li, S, Vahlberg, M, Singh, R, Heinrich, D, Arrighi, J, Marghidan, CP, Thalheimer, L, Kane, C, Raju, E & Otto, FEL 2025, 'Human-induced climate change increased 2021–2022 drought severity in horn of Africa', Weather and Climate Extremes, vol. 47, 100745. https://doi.org/10.1016/j.wace.2025.100745

TY - JOUR

T1 - Human-induced climate change increased 2021–2022 drought severity in horn of Africa

AU - Kimutai, Joyce

AU - Barnes, Clair

AU - Zachariah, Mariam

AU - Philip, Sjoukje Y.

AU - Kew, Sarah F.

AU - Pinto, Izidine

AU - Wolski, Piotr

AU - Koren, Gerbrand

AU - Vecchi, Gabriel

AU - Yang, Wenchang

AU - Li, Sihan

AU - Vahlberg, Maja

AU - Singh, Roop

AU - Heinrich, Dorothy

AU - Arrighi, Julie

AU - Marghidan, Carolina Pereira

AU - Thalheimer, Lisa

AU - Kane, Cheikh

AU - Raju, Emmanuel

AU - Otto, Friederike E.L.

PY - 2025/3

Y1 - 2025/3

N2 - From October 2020 to early 2023, Eastern Africa experienced five consecutive failed (SPEI -2.6) rainy seasons, resulting in the worst drought in 40 years. This led to harvest failures, livestock losses, water scarcity, and conflicts, leaving approximately 4.35 million people in need of humanitarian aid. To understand the role of human-induced climate change in the drought, we analysed rainfall trends and the combined effect of rainfall deficit with high temperatures in the Southern Horn of Africa covering parts of southern Ethiopia, southern Somalia, and eastern Kenya. We employed various climate models and observations to assess changes in 24-month rainfall (2021–2022), and seasonal rainfall; both the (March-April-May, MAM) ‘long rains’ and (October-November-December, OND) ‘short rains’ in 2022. We also contextualised the event in terms of vulnerability and exposure to understand how these elements influenced the magnitude of the impacts. Our analysis shows that anthropogenic influence on the combined effects of low rainfall and high evapotranspiration caused by higher temperatures made the drought exceptional, leading to major crop and pasture losses and water shortages. Our results also show a decline in rainfall during MAM and an upward trend during OND, which is attributable to climate change. Despite the wetting trend in OND season, the drought years concluded with successive La Niña conditions, typically linked with below-average rainfall in the region during that season. We do not find a trend in the 24-month precipitation. The assessment on vulnerability and exposure highlights the need for enhanced preparedness of government drought management systems and international aid infrastructure for future severe and prolonged droughts. The study's findings, combined with climate projections that indicate increased heavy precipitation in the region, underscore the pressing necessity for robust adaptation strategies that can address both wet and dry extremes. The impacts of climate change in Eastern Africa necessitate investments in adaptive measures and resilience building that can evolve with emerging climate signals.

AB - From October 2020 to early 2023, Eastern Africa experienced five consecutive failed (SPEI -2.6) rainy seasons, resulting in the worst drought in 40 years. This led to harvest failures, livestock losses, water scarcity, and conflicts, leaving approximately 4.35 million people in need of humanitarian aid. To understand the role of human-induced climate change in the drought, we analysed rainfall trends and the combined effect of rainfall deficit with high temperatures in the Southern Horn of Africa covering parts of southern Ethiopia, southern Somalia, and eastern Kenya. We employed various climate models and observations to assess changes in 24-month rainfall (2021–2022), and seasonal rainfall; both the (March-April-May, MAM) ‘long rains’ and (October-November-December, OND) ‘short rains’ in 2022. We also contextualised the event in terms of vulnerability and exposure to understand how these elements influenced the magnitude of the impacts. Our analysis shows that anthropogenic influence on the combined effects of low rainfall and high evapotranspiration caused by higher temperatures made the drought exceptional, leading to major crop and pasture losses and water shortages. Our results also show a decline in rainfall during MAM and an upward trend during OND, which is attributable to climate change. Despite the wetting trend in OND season, the drought years concluded with successive La Niña conditions, typically linked with below-average rainfall in the region during that season. We do not find a trend in the 24-month precipitation. The assessment on vulnerability and exposure highlights the need for enhanced preparedness of government drought management systems and international aid infrastructure for future severe and prolonged droughts. The study's findings, combined with climate projections that indicate increased heavy precipitation in the region, underscore the pressing necessity for robust adaptation strategies that can address both wet and dry extremes. The impacts of climate change in Eastern Africa necessitate investments in adaptive measures and resilience building that can evolve with emerging climate signals.

KW - Attribution

KW - Climate change

KW - Drought

KW - Horn of Africa

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U2 - 10.1016/j.wace.2025.100745

DO - 10.1016/j.wace.2025.100745

M3 - Article

AN - SCOPUS:85217933355

SN - 2212-0947

VL - 47

JO - Weather and Climate Extremes

JF - Weather and Climate Extremes

M1 - 100745

ER -

Human-induced climate change increased 2021–2022 drought severity in horn of Africa

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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