Multifaceted characteristics of dryland aridity changes in a warming world
Multifaceted characteristics of dryland aridity changes in a warming world
Drylands are an essential component of the Earth System and are among the most vulnerable to climate change. In this Review, we synthesize observational and modelling evidence to demonstrate emerging differences in dryland aridity dependent on the specific metric considered. Although warming heightens vapour pressure deficit and, thus, atmospheric demand for water in both the observations and the projections, these changes do not wholly propagate to exacerbate soil moisture and runoff deficits. Moreover, counter-intuitively, many arid ecosystems have exhibited significant greening and enhanced vegetation productivity since the 1980s. Such divergence between atmospheric and ecohydrological aridity changes can primarily be related to moisture limitations by dry soils and plant physiological regulations of evapotranspiration under elevated CO2. The latter process ameliorates water stress on plant growth and decelerates warming-enhanced water losses from soils, while simultaneously warming and drying the near-surface air. We place these climate-induced aridity changes in the context of exacerbated water scarcity driven by rapidly increasing anthropogenic needs for freshwater to support population growth and economic development. Under future warming, dryland ecosystems might respond non-linearly, caused by, for example, complex ecosystem–hydrology–human interactions and increased mortality risks from drought and heat stress, which is a foremost priority for future research.
232-250
Lian, Xu
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Piao, Shilong
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Chen, Anping
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Huntingford, Chris
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Fu, Bojie
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Li, Laurent Z.X.
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Huang, Jianping
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Sheffield, Justin
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Berg, Alexis M.
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Keenan, Trevor F.
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McVicar, Tim R.
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Wada, Yoshihide
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Wang, Xuhui
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Wang, Tao
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Yang, Yuting
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Roderick, Michael L.
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9 March 2021
Lian, Xu
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Piao, Shilong
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Chen, Anping
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Huntingford, Chris
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Fu, Bojie
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Li, Laurent Z.X.
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Huang, Jianping
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Sheffield, Justin
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Berg, Alexis M.
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Keenan, Trevor F.
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McVicar, Tim R.
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Wada, Yoshihide
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Wang, Xuhui
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Wang, Tao
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Yang, Yuting
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Roderick, Michael L.
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Lian, Xu, Piao, Shilong, Chen, Anping, Huntingford, Chris, Fu, Bojie, Li, Laurent Z.X., Huang, Jianping, Sheffield, Justin, Berg, Alexis M., Keenan, Trevor F., McVicar, Tim R., Wada, Yoshihide, Wang, Xuhui, Wang, Tao, Yang, Yuting and Roderick, Michael L.
(2021)
Multifaceted characteristics of dryland aridity changes in a warming world.
Nature Reviews Earth and Environment, 2 (4), .
(doi:10.1038/s43017-021-00144-0).
Abstract
Drylands are an essential component of the Earth System and are among the most vulnerable to climate change. In this Review, we synthesize observational and modelling evidence to demonstrate emerging differences in dryland aridity dependent on the specific metric considered. Although warming heightens vapour pressure deficit and, thus, atmospheric demand for water in both the observations and the projections, these changes do not wholly propagate to exacerbate soil moisture and runoff deficits. Moreover, counter-intuitively, many arid ecosystems have exhibited significant greening and enhanced vegetation productivity since the 1980s. Such divergence between atmospheric and ecohydrological aridity changes can primarily be related to moisture limitations by dry soils and plant physiological regulations of evapotranspiration under elevated CO2. The latter process ameliorates water stress on plant growth and decelerates warming-enhanced water losses from soils, while simultaneously warming and drying the near-surface air. We place these climate-induced aridity changes in the context of exacerbated water scarcity driven by rapidly increasing anthropogenic needs for freshwater to support population growth and economic development. Under future warming, dryland ecosystems might respond non-linearly, caused by, for example, complex ecosystem–hydrology–human interactions and increased mortality risks from drought and heat stress, which is a foremost priority for future research.
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More information
Accepted/In Press date: 25 January 2021
Published date: 9 March 2021
Additional Information:
Funding Information:
This study was supported by the National Natural Science Foundation of China (41991230, 41988101), the Second Tibetan Plateau Scientific Expedition and Research (STEP) program (grant no. 2019QZKK0405) and the Xplorer Prize.
Publisher Copyright:
© 2021, Springer Nature Limited.
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
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Local EPrints ID: 451211
URI: http://eprints.soton.ac.uk/id/eprint/451211
PURE UUID: 4493b4a6-38a4-4287-85f1-adf60445b91b
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Date deposited: 14 Sep 2021 16:43
Last modified: 18 Mar 2024 03:33
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Contributors
Author:
Xu Lian
Author:
Shilong Piao
Author:
Anping Chen
Author:
Chris Huntingford
Author:
Bojie Fu
Author:
Laurent Z.X. Li
Author:
Jianping Huang
Author:
Alexis M. Berg
Author:
Trevor F. Keenan
Author:
Tim R. McVicar
Author:
Yoshihide Wada
Author:
Xuhui Wang
Author:
Tao Wang
Author:
Yuting Yang
Author:
Michael L. Roderick
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