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Plant hydraulics accentuates the effect of atmospheric moisture stress on transpiration

Yanlan Liu (), Mukesh Kumar, Gabriel G. Katul, Xue Feng and Alexandra G. Konings
Additional contact information
Yanlan Liu: Stanford University
Mukesh Kumar: University of Alabama
Gabriel G. Katul: Duke University
Xue Feng: University of Minnesota
Alexandra G. Konings: Stanford University

Nature Climate Change, 2020, vol. 10, issue 7, 691-695

Abstract: Abstract Transpiration, the dominant component of terrestrial evapotranspiration (ET), directly connects the water, energy and carbon cycles and is typically restricted by soil and atmospheric (for example, the vapour pressure deficit (VPD)) moisture stresses through plant hydraulic processes. These sources of stress are likely to diverge under climate change, with a globally enhanced VPD but more variable and uncertain changes in soil moisture. Here, using a model–data fusion approach, we demonstrate that the common empirical approach used in most Earth system models to evaluate the ET response to soil moisture and VPD, which neglects plant hydraulics, underestimates ET sensitivity to VPD and compensates by overestimating the sensitivity to soil moisture stress. A hydraulic model that describes water transport through the plant better captures ET under high VPD conditions for wide-ranging soil moisture states. These findings highlight the central role of plant hydraulics in regulating the increasing importance of atmospheric moisture stress on biosphere–atmosphere interactions under elevated temperatures.

Date: 2020
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Citations: View citations in EconPapers (6)

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DOI: 10.1038/s41558-020-0781-5

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