Drivers of Dry Day Sensitivity to Increased CO2

H. Douville; R. Chadwick; M. Saint-Lu; B. Medeiros

doi:10.1029/2023GL103200

Drivers of Dry Day Sensitivity to Increased CO₂

H. Douville
, R. Chadwick
, M. Saint-Lu
, B. Medeiros

Climate Analysis

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

3 Scopus citations

Abstract

Persistent precipitation deficits are among the most impactful consequences of global warming. Here we focus on changes in the annual number of dry days (NDD) and in the annual maximum length of dry spells due to a quadrupling of atmospheric CO₂. We use atmosphere-only simulations to decompose the projected changes into additive contributions. A fast adjustment leads to a global increase in NDD despite notable regional exceptions (e.g., South Asia and Sahel). The effect of the uniform component of the surface ocean warming is model-dependent but shapes the regional distribution of the NDD response in each model. Finally, the ocean warming pattern also contributes to large uncertainties, likely through contrasting changes in large-scale circulation. Our results thus highlight the complexity of the NDD response, with policy-relevant practical implications for mitigation and adaptation strategies.

Original language	English
Article number	e2023GL103200
Journal	Geophysical Research Letters
Volume	50
Issue number	14
DOIs	https://doi.org/10.1029/2023GL103200
State	Published - Jul 28 2023

Keywords

climate change
drivers
dry days
fast adjustment
meteorological droughts
uncertainties

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10.1029/2023GL103200

Cite this

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title = "Drivers of Dry Day Sensitivity to Increased CO2",

abstract = "Persistent precipitation deficits are among the most impactful consequences of global warming. Here we focus on changes in the annual number of dry days (NDD) and in the annual maximum length of dry spells due to a quadrupling of atmospheric CO2. We use atmosphere-only simulations to decompose the projected changes into additive contributions. A fast adjustment leads to a global increase in NDD despite notable regional exceptions (e.g., South Asia and Sahel). The effect of the uniform component of the surface ocean warming is model-dependent but shapes the regional distribution of the NDD response in each model. Finally, the ocean warming pattern also contributes to large uncertainties, likely through contrasting changes in large-scale circulation. Our results thus highlight the complexity of the NDD response, with policy-relevant practical implications for mitigation and adaptation strategies.",

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T1 - Drivers of Dry Day Sensitivity to Increased CO2

AU - Douville, H.

AU - Chadwick, R.

AU - Saint-Lu, M.

AU - Medeiros, B.

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Y1 - 2023/7/28

N2 - Persistent precipitation deficits are among the most impactful consequences of global warming. Here we focus on changes in the annual number of dry days (NDD) and in the annual maximum length of dry spells due to a quadrupling of atmospheric CO2. We use atmosphere-only simulations to decompose the projected changes into additive contributions. A fast adjustment leads to a global increase in NDD despite notable regional exceptions (e.g., South Asia and Sahel). The effect of the uniform component of the surface ocean warming is model-dependent but shapes the regional distribution of the NDD response in each model. Finally, the ocean warming pattern also contributes to large uncertainties, likely through contrasting changes in large-scale circulation. Our results thus highlight the complexity of the NDD response, with policy-relevant practical implications for mitigation and adaptation strategies.

AB - Persistent precipitation deficits are among the most impactful consequences of global warming. Here we focus on changes in the annual number of dry days (NDD) and in the annual maximum length of dry spells due to a quadrupling of atmospheric CO2. We use atmosphere-only simulations to decompose the projected changes into additive contributions. A fast adjustment leads to a global increase in NDD despite notable regional exceptions (e.g., South Asia and Sahel). The effect of the uniform component of the surface ocean warming is model-dependent but shapes the regional distribution of the NDD response in each model. Finally, the ocean warming pattern also contributes to large uncertainties, likely through contrasting changes in large-scale circulation. Our results thus highlight the complexity of the NDD response, with policy-relevant practical implications for mitigation and adaptation strategies.

KW - climate change

KW - drivers

KW - dry days

KW - fast adjustment

KW - meteorological droughts

KW - uncertainties

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U2 - 10.1029/2023GL103200

DO - 10.1029/2023GL103200

M3 - Article

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VL - 50

JO - Geophysical Research Letters

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ER -

Drivers of Dry Day Sensitivity to Increased CO₂

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Keywords

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