Vegetation resistance to compound drought and heatwave events buffers the spatial shift velocities of vegetation vulnerability

Wenbo Yan; Jian Zhou; Xiaopeng Wang; Jinyi Luo; Feiling Yang; Ruidong Wu

doi:10.1038/s43247-025-02298-x

Communications Earth & Environment (Apr 2025)

Vegetation resistance to compound drought and heatwave events buffers the spatial shift velocities of vegetation vulnerability

Wenbo Yan,
Jian Zhou,
Xiaopeng Wang,
Jinyi Luo,
Feiling Yang,
Ruidong Wu

Affiliations

Wenbo Yan: Conservation Biogeography Research Group, Institute of International Rivers and Eco-security, Yunnan Key Laboratory of International Rivers and Transboundary Eco-security, Yunnan University
Jian Zhou: Conservation Biogeography Research Group, Institute of International Rivers and Eco-security, Yunnan Key Laboratory of International Rivers and Transboundary Eco-security, Yunnan University
Xiaopeng Wang: Conservation Biogeography Research Group, Institute of International Rivers and Eco-security, Yunnan Key Laboratory of International Rivers and Transboundary Eco-security, Yunnan University
Jinyi Luo: Conservation Biogeography Research Group, Institute of International Rivers and Eco-security, Yunnan Key Laboratory of International Rivers and Transboundary Eco-security, Yunnan University
Feiling Yang: Conservation Biogeography Research Group, Institute of International Rivers and Eco-security, Yunnan Key Laboratory of International Rivers and Transboundary Eco-security, Yunnan University
Ruidong Wu: Conservation Biogeography Research Group, Institute of International Rivers and Eco-security, Yunnan Key Laboratory of International Rivers and Transboundary Eco-security, Yunnan University

DOI: https://doi.org/10.1038/s43247-025-02298-x
Journal volume & issue: Vol. 6, no. 1
pp. 1 – 12

Abstract

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Abstract Global warming is increasing compound drought and heatwave events. This elevates vegetation loss probability. Despite spatial shifts in vegetation loss probability being crucial for predicting spatial redistribution patterns of vegetation vulnerability across terrestrial ecosystems, they remain poorly understood under compound drought and heatwave events. In this study, using a vine copula model, vegetation loss probability was quantified under compound drought and heatwave events. Spatial shift velocities of vegetation loss probability were examined using the concept of velocity change. Spatial shift velocities of vegetation loss probability would undergo substantial increase based on the satellite observations and future simulations. However, vegetation resistance to droughts buffers spatial shift velocities of vegetation loss probability (p < 0.01). These findings provide evidence that vegetation vulnerability patterns will undergo substantial spatial changes under compound drought and heatwave events, leading to a spatial redistribution of vegetation in disturbance-prone areas.

Published in Communications Earth & Environment

ISSN: 2662-4435 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Geology; Geography. Anthropology. Recreation: Environmental sciences
Website: https://www.nature.com/commsenv/

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