Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate

Haibo Du; Markus G. Donat; Shengwei Zong; Lisa V. Alexander; Rodrigo Manzanas; Andries Kruger; Gwangyong Choi; Jim Salinger; Hong S. He; Mai He Li; Fumiaki Fujibe; Banzragch Nandintsetseg; Shafiqur Rehman; Farhat Abbas; Matilde Rusticucci; Arvind Srivastava; Panmao Zhai; Tanya Lippmann; Ibouraïma Yabi; Michael C. Stambaugh; Shengzhong Wang; Altangerel Batbold; Priscilla Teles de Oliveira; Muhammad Adrees; Wei Hou; Claudio Moises Santos e Silva; Paulo Sergio Lucio; Zhengfang Wu

doi:10.1175/BAMS-D-21-0140.1

Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate

Haibo Du^*
, Markus G. Donat
, Shengwei Zong
, Lisa V. Alexander
, Rodrigo Manzanas
, Andries Kruger
, Gwangyong Choi
, Jim Salinger
, Hong S. He
, Mai He Li
, Fumiaki Fujibe
, Banzragch Nandintsetseg
, Shafiqur Rehman
, Farhat Abbas
, Matilde Rusticucci
, Arvind Srivastava
, Panmao Zhai
, Tanya Lippmann
, Ibouraïma Yabi
, Michael C. Stambaugh

Shengzhong Wang, Altangerel Batbold, Priscilla Teles de Oliveira, Muhammad Adrees, Wei Hou, Claudio Moises Santos e Silva, Paulo Sergio Lucio, Zhengfang Wu

^*Corresponding author for this work

Interdisciplinary Research Center for Sustainable Energy Systems

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

60 Scopus citations

Abstract

Extreme precipitation occurring on consecutive days may substantially increase the risk of related impacts, but changes in such events have not been studied at a global scale. Here we use a unique global dataset based on in situ observations and multimodel historical and future simulations to analyze the changes in the frequency of extreme precipitation on consecutive days (EPCD). We further disentangle the relative contributions of variations in precipitation intensity and temporal correlation of extreme precipitation to understand the processes that drive the changes in EPCD. Observations and climate model simulations show that the frequency of EPCD is increasing in most land regions, in particular, in North America, Europe, and the Northern Hemisphere high latitudes. These increases are primarily a consequence of increasing precipitation intensity, but changes in the temporal correlation of extreme precipitation regionally amplify or reduce the effects of intensity changes. Changes are larger in simulations with a stronger warming signal, suggesting that further increases in EPCD are expected for the future under continued climate warming.

Original language	English
Pages (from-to)	E1130-E1145
Journal	Bulletin of the American Meteorological Society
Volume	103
Issue number	4
DOIs	https://doi.org/10.1175/BAMS-D-21-0140.1
State	Published - Apr 2022

Bibliographical note

Publisher Copyright:
© 2022 American Meteorological Society

UN SDGs

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

SDG 13 Climate Action

Keywords

Climate change
Climate prediction
Climate records
Extreme events
Precipitation

ASJC Scopus subject areas

Atmospheric Science

Access to Document

10.1175/BAMS-D-21-0140.1

Cite this

Du, H., Donat, M. G., Zong, S., Alexander, L. V., Manzanas, R., Kruger, A., Choi, G., Salinger, J., He, H. S., Li, M. H., Fujibe, F., Nandintsetseg, B., Rehman, S., Abbas, F., Rusticucci, M., Srivastava, A., Zhai, P., Lippmann, T., Yabi, I., ... Wu, Z. (2022). Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate. Bulletin of the American Meteorological Society, 103(4), E1130-E1145. https://doi.org/10.1175/BAMS-D-21-0140.1

@article{be4f9ddc013c484b8359c8288a1a30fa,

title = "Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate",

abstract = "Extreme precipitation occurring on consecutive days may substantially increase the risk of related impacts, but changes in such events have not been studied at a global scale. Here we use a unique global dataset based on in situ observations and multimodel historical and future simulations to analyze the changes in the frequency of extreme precipitation on consecutive days (EPCD). We further disentangle the relative contributions of variations in precipitation intensity and temporal correlation of extreme precipitation to understand the processes that drive the changes in EPCD. Observations and climate model simulations show that the frequency of EPCD is increasing in most land regions, in particular, in North America, Europe, and the Northern Hemisphere high latitudes. These increases are primarily a consequence of increasing precipitation intensity, but changes in the temporal correlation of extreme precipitation regionally amplify or reduce the effects of intensity changes. Changes are larger in simulations with a stronger warming signal, suggesting that further increases in EPCD are expected for the future under continued climate warming.",

keywords = "Climate change, Climate prediction, Climate records, Extreme events, Precipitation",

author = "Haibo Du and Donat, \{Markus G.\} and Shengwei Zong and Alexander, \{Lisa V.\} and Rodrigo Manzanas and Andries Kruger and Gwangyong Choi and Jim Salinger and He, \{Hong S.\} and Li, \{Mai He\} and Fumiaki Fujibe and Banzragch Nandintsetseg and Shafiqur Rehman and Farhat Abbas and Matilde Rusticucci and Arvind Srivastava and Panmao Zhai and Tanya Lippmann and Iboura{\"i}ma Yabi and Stambaugh, \{Michael C.\} and Shengzhong Wang and Altangerel Batbold and \{de Oliveira\}, \{Priscilla Teles\} and Muhammad Adrees and Wei Hou and \{Santos e Silva\}, \{Claudio Moises\} and Lucio, \{Paulo Sergio\} and Zhengfang Wu",

note = "Publisher Copyright: {\textcopyright} 2022 American Meteorological Society",

year = "2022",

month = apr,

doi = "10.1175/BAMS-D-21-0140.1",

language = "English",

volume = "103",

pages = "E1130--E1145",

journal = "Bulletin of the American Meteorological Society",

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Du, H, Donat, MG, Zong, S, Alexander, LV, Manzanas, R, Kruger, A, Choi, G, Salinger, J, He, HS, Li, MH, Fujibe, F, Nandintsetseg, B, Rehman, S, Abbas, F, Rusticucci, M, Srivastava, A, Zhai, P, Lippmann, T, Yabi, I, Stambaugh, MC, Wang, S, Batbold, A, de Oliveira, PT, Adrees, M, Hou, W, Santos e Silva, CM, Lucio, PS & Wu, Z 2022, 'Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate', Bulletin of the American Meteorological Society, vol. 103, no. 4, pp. E1130-E1145. https://doi.org/10.1175/BAMS-D-21-0140.1

TY - JOUR

T1 - Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate

AU - Du, Haibo

AU - Donat, Markus G.

AU - Zong, Shengwei

AU - Alexander, Lisa V.

AU - Manzanas, Rodrigo

AU - Kruger, Andries

AU - Choi, Gwangyong

AU - Salinger, Jim

AU - He, Hong S.

AU - Li, Mai He

AU - Fujibe, Fumiaki

AU - Nandintsetseg, Banzragch

AU - Rehman, Shafiqur

AU - Abbas, Farhat

AU - Rusticucci, Matilde

AU - Srivastava, Arvind

AU - Zhai, Panmao

AU - Lippmann, Tanya

AU - Yabi, Ibouraïma

AU - Stambaugh, Michael C.

AU - Wang, Shengzhong

AU - Batbold, Altangerel

AU - de Oliveira, Priscilla Teles

AU - Adrees, Muhammad

AU - Hou, Wei

AU - Santos e Silva, Claudio Moises

AU - Lucio, Paulo Sergio

AU - Wu, Zhengfang

PY - 2022/4

Y1 - 2022/4

N2 - Extreme precipitation occurring on consecutive days may substantially increase the risk of related impacts, but changes in such events have not been studied at a global scale. Here we use a unique global dataset based on in situ observations and multimodel historical and future simulations to analyze the changes in the frequency of extreme precipitation on consecutive days (EPCD). We further disentangle the relative contributions of variations in precipitation intensity and temporal correlation of extreme precipitation to understand the processes that drive the changes in EPCD. Observations and climate model simulations show that the frequency of EPCD is increasing in most land regions, in particular, in North America, Europe, and the Northern Hemisphere high latitudes. These increases are primarily a consequence of increasing precipitation intensity, but changes in the temporal correlation of extreme precipitation regionally amplify or reduce the effects of intensity changes. Changes are larger in simulations with a stronger warming signal, suggesting that further increases in EPCD are expected for the future under continued climate warming.

AB - Extreme precipitation occurring on consecutive days may substantially increase the risk of related impacts, but changes in such events have not been studied at a global scale. Here we use a unique global dataset based on in situ observations and multimodel historical and future simulations to analyze the changes in the frequency of extreme precipitation on consecutive days (EPCD). We further disentangle the relative contributions of variations in precipitation intensity and temporal correlation of extreme precipitation to understand the processes that drive the changes in EPCD. Observations and climate model simulations show that the frequency of EPCD is increasing in most land regions, in particular, in North America, Europe, and the Northern Hemisphere high latitudes. These increases are primarily a consequence of increasing precipitation intensity, but changes in the temporal correlation of extreme precipitation regionally amplify or reduce the effects of intensity changes. Changes are larger in simulations with a stronger warming signal, suggesting that further increases in EPCD are expected for the future under continued climate warming.

KW - Climate change

KW - Climate prediction

KW - Climate records

KW - Extreme events

KW - Precipitation

UR - https://www.scopus.com/pages/publications/85129105106

U2 - 10.1175/BAMS-D-21-0140.1

DO - 10.1175/BAMS-D-21-0140.1

M3 - Article

AN - SCOPUS:85129105106

SN - 0003-0007

VL - 103

SP - E1130-E1145

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 4

ER -

Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate

Abstract

Bibliographical note

UN SDGs

Keywords

ASJC Scopus subject areas

Access to Document

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