Mechanisms of woody-plant mortality under rising drought, CO2 and vapour pressure deficit

被引：0

作者：

Nate G. McDowell

Gerard Sapes

Alexandria Pivovaroff

Henry D. Adams

Craig D. Allen

William R. L. Anderegg

Matthias Arend

David D. Breshears

Tim Brodribb

Brendan Choat

Hervé Cochard

Miquel De Cáceres

Martin G. De Kauwe

Charlotte Grossiord

William M. Hammond

Henrik Hartmann

Günter Hoch

Ansgar Kahmen

Tamir Klein

D. Scott Mackay

Marylou Mantova

Jordi Martínez-Vilalta

Belinda E. Medlyn

Maurizio Mencuccini

Andrea Nardini

Rafael S. Oliveira

Anna Sala

David T. Tissue

José M. Torres-Ruiz

Amy M. Trowbridge

Anna T. Trugman

Erin Wiley

Chonggang Xu

机构：

[1] Pacific Northwest National Laboratory,Atmospheric Sciences and Global Change Division

[2] Washington State University,School of Biological Sciences

[3] University of Minnesota,Department of Ecology, Evolution, and Behavior

[4] Washington State University,School of the Environment

[5] University of New Mexico,Department of Geography and Environmental Studies

[6] University of Utah,School of Biological Sciences

[7] University of Basel,Department of Environmental Sciences — Botany

[8] University of Arizona,School of Natural Resources and the Environment

[9] University of Tasmania,School of Natural Sciences

[10] Western Sydney University,Hawkesbury Institute for the Environment

[11] Université Clermont-Auvergne,School of Biological Sciences

[12] INRAE,Climate Change Research Centre

[13] PIAF,Plant Ecology Research Laboratory (PERL)

[14] Centre for Research on Ecology and Forestry Applications (CREAF),Community Ecology Unit

[15] University of Bristol,Agronomy Department

[16] ARC Centre of Excellence for Climate Extremes,Department of Biogeochemical Processes

[17] University of New South Wales,Department of Plant and Environmental Sciences

[18] École Polytechnique Fédérale de Lausanne (EPFL),Department of Geography

[19] Swiss Federal Institute for Forest,Department of Environment and Sustainability

[20] Snow and Landscape Research (WSL),Department of Life Sciences

[21] University of Florida,Department of Plant Biology

[22] Max Planck Institute for Biogeochemistry,Division of Biological Sciences

[23] Weizmann Institute of Science,Department of Entomology

[24] University at Buffalo,Department of Geography

[25] University at Buffalo,Department of Biology

[26] Universitat Autònoma de Barcelona,Earth and Environmental Sciences Division

[27] Institució Catalana de Recerca i Estudis Avançats (ICREA),undefined

[28] University of Trieste,undefined

[29] University of Campinas — UNICAMP,undefined

[30] University of Montana,undefined

[31] University of Wisconsin-Madison,undefined

[32] University of California,undefined

[33] Santa Barbara,undefined

[34] University of Central Arkansas,undefined

[35] Los Alamos National Laboratory,undefined

来源：

Nature Reviews Earth & Environment | 2022年 / 3卷

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摘要：

Drought-associated woody-plant mortality has been increasing in most regions with multi-decadal records and is projected to increase in the future, impacting terrestrial climate forcing, biodiversity and resource availability. The mechanisms underlying such mortality, however, are debated, owing to complex interactions between the drivers and the processes. In this Review, we synthesize knowledge of drought-related tree mortality under a warming and drying atmosphere with rising atmospheric CO2. Drought-associated mortality results from water and carbon depletion and declines in their fluxes relative to demand by living tissues. These pools and fluxes are interdependent and underlay plant defences against biotic agents. Death via failure to maintain a positive water balance is particularly dependent on soil-to-root conductance, capacitance, vulnerability to hydraulic failure, cuticular water losses and dehydration tolerance, all of which could be exacerbated by reduced carbon supply rates to support cellular survival or the carbon starvation process. The depletion of plant water and carbon pools is accelerated under rising vapour pressure deficit, but increasing CO2 can mitigate these impacts. Advancing knowledge and reducing predictive uncertainties requires the integration of carbon, water and defensive processes, and the use of a range of experimental and modelling approaches.

引用

页码：294 / 308

页数：14

共 474 条

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