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Divergent flash drought risks indicated by evaporative stress and soil moisture projections under warming scenarios

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Title
Divergent flash drought risks indicated by evaporative stress and soil moisture projections under warming scenarios
Author(s)
Kim, Daeha; Chun, Jong Ahn; Ji-hye Yeo; Kyung-Ja Ha
Publication Date
2023-09
Journal
ENVIRONMENTAL RESEARCH LETTERS, v.18, no.9
Publisher
IOP Publishing Ltd
Abstract
Offline drought indices have been utilizable for monitoring drought conditions, but their reliability in projecting future drought risks is uncertain due to non-meteorological influences on atmospheric water demand (E-p ). This study investigated the impact of surface resistance sensitivity (r(s) ) to elevated CO2 (eCO(2)) on projections of future flash droughts (FD). We evaluated FD risks across an East Asian region during a historical period (1981-2020) and a future period (2021-2060) using two evaporative stress index (ESI) series. One series employs the conventional Penman-Monteith (PM) equation for E-p , while the other incorporates a generic r(s) sensitivity to eCO(2) derived from advanced Earth System Models (ESMs). We compared the FD risks identified by the two ESI series with assessments based on soil moisture data from atmospheric reanalysis and multiple ESM projections under two emission scenarios linked with the Shared Socioeconomic Pathways. Results showed that the response of r(s) to eCO(2) has had minimal influences on temporal variations of ESI for the past decades, likely due to its low sensitivity and the masking effects of other environmental factors. However, for the future decades, the ESI projected by the conventional PM equation significantly diverged from soil moisture projections, overestimating future FD risks even under a low emission scenario. We found that incorporating the generic r(s) sensitivity into the PM equation did not simply resolve the disparity in FD frequencies between ESI and soil moisture projections. Many associated factors contributing to stomatal responses to eCO(2) complicate the understanding of future flash drought risks. This study suggests that overreliance on the conventional E-p formula, which neglects non-meteorological effects, could decrease the ability of ESI to detect future FD events under eCO(2).
URI
https://pr.ibs.re.kr/handle/8788114/14165
DOI
10.1088/1748-9326/ace921
ISSN
1748-9326
Appears in Collections:
Center for Climate Physics(기후물리 연구단) > 1. Journal Papers (저널논문)
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