Increasing susceptibility and shortening response time of vegetation productivity to drought from 2001 to 2021

•The stronger susceptibility and shorter response time of vegetation productivity to drought were most observed in grasslands and dry regions.•Global drought-sensitive regions have experienced a predominately increasing susceptibility and shortening response time during the last two decades (2001-20...

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Bibliographic Details
Published in:Agricultural and forest meteorology 2024-06, Vol.352, p.110025, Article 110025
Main Authors: Tang, Jiwang, Niu, Ben, Hu, Zhigang, Zhang, Xianzhou
Format: Article
Language:English
Subjects:
arid lands
Atmospheric CO2
carbon dioxide
chlorophyll
Drought
elevated atmospheric gases
forests
leaf area index
meteorology
Response time
risk
Vegetation productivity
Vegetation susceptibility
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Summary:•The stronger susceptibility and shorter response time of vegetation productivity to drought were most observed in grasslands and dry regions.•Global drought-sensitive regions have experienced a predominately increasing susceptibility and shortening response time during the last two decades (2001-2021).•Elevated atmospheric CO2 largely contribute to increasing susceptibility especially in grasslands and drylands. Drought generally causes the significant reduction of vegetation productivity. Most studies focus on the vegetation response to gradual water variabilities instead of anomalies in water availability, however, the spatiotemporal patterns of vegetation response to extreme water deficits during drought are still unclear. Here, based on leaf area index (LAI) and solar-induced chlorophyll fluorescence (SIF), we employed coincidence analysis to identify the susceptibility and response time of vegetation productivity to drought, and further investigated the spatiotemporal changes of them during 2001-2021 across the globe. We found stronger susceptibility and shorter response time both in areas occupied by more grasses and in more arid regions. Temporally, we revealed a predominately increasing susceptibility (P < 0.05) and shortening response time (P < 0.05) in drought-sensitive regions from 2001 to 2021. These changes have been majorly attributable to the elevated atmospheric CO2, which tended to strengthen the susceptibility in areas covered by more grasses and in arid regions. Our finding highlighted the increasing risk of decline in vegetation production under drought particular in grasslands and drylands.
ISSN:0168-1923
1873-2240
DOI:10.1016/j.agrformet.2024.110025