Tree drought physiology: critical research questions and strategies for mitigating climate change effects on forests

Andrew Groover; N. Michele Holbrook; Andrea Polle; Anna Sala; Belinda Medlyn; Craig Brodersen; Jarmila Pittermann; Jessica Gersony; Katarzyna Sokołowska; Laura Bogar; Nate McDowell; Rachel Spicer; Rakefet David-Schwartz; Stephen Keller; Timothy J. Tschaplinski; Yakir Preisler

doi:10.1111/nph.20326

Tree drought physiology: critical research questions and strategies for mitigating climate change effects on forests

Andrew Groover
, N. Michele Holbrook
, Andrea Polle
, Anna Sala
, Belinda Medlyn
, Craig Brodersen
, Jarmila Pittermann
, Jessica Gersony
, Katarzyna Sokołowska
, Laura Bogar
, Nate McDowell
, Rachel Spicer
, Rakefet David-Schwartz
, Stephen Keller
, Timothy J. Tschaplinski
, Yakir Preisler

Biosciences Division

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

Droughts of increasing severity and frequency are a primary cause of forest mortality associated with climate change. Yet, fundamental knowledge gaps regarding the complex physiology of trees limit the development of more effective management strategies to mitigate drought effects on forests. Here, we highlight some of the basic research needed to better understand tree drought physiology and how new technologies and interdisciplinary approaches can be used to address them. Our discussion focuses on how trees change wood development to mitigate water stress, hormonal responses to drought, genetic variation underlying adaptive drought phenotypes, how trees ‘remember’ prior stress exposure, and how symbiotic soil microbes affect drought response. Next, we identify opportunities for using research findings to enhance or develop new strategies for managing drought effects on forests, ranging from matching genotypes to environments, to enhancing seedling resilience through nursery treatments, to landscape-scale monitoring and predictions. We conclude with a discussion of the need for co-producing research with land managers and extending research to forests in critical ecological regions beyond the temperate zone.

Original language	English
Pages (from-to)	1817-1832
Number of pages	16
Journal	New Phytologist
Volume	245
Issue number	5
DOIs	https://doi.org/10.1111/nph.20326
State	Published - Mar 2025

Funding

This work was organized by attendees of the ‘Forest Tree Drought Physiology Research Innovation Group’ workshop at the Arnold Arboretum, funded by the New Phytologist Trust. Research support for this work for AG is from the US Forest Service and DOE BER Interagency (agreement no.: 89243022SSC0000). NM was supported by the National Science Foundation and the Department of Energy's Next Generation Ecosystem Experiment-Tropics. The contribution of TJT for this work is supported by the Center for Bioenergy Innovation (CBI), US Department of Energy, Office of Science, Biological and Environmental Research Program (award no.: ERKP886). JG was supported by USDA NIFA (grant no.: 1029588) and NSF ORCC (grant no. 2222348). SK was supported by NSF-IOS (award no.: 1856450). This work was organized by attendees of the ‘Forest Tree Drought Physiology Research Innovation Group’ workshop at the Arnold Arboretum, funded by the New Phytologist Trust. Research support for this work for AG is from the US Forest Service and DOE BER Interagency (agreement no.: 89243022SSC0000). NM was supported by the National Science Foundation and the Department of Energy's Next Generation Ecosystem Experiment‐Tropics. The contribution of TJT for this work is supported by the Center for Bioenergy Innovation (CBI), US Department of Energy, Office of Science, Biological and Environmental Research Program (award no.: ERKP886). JG was supported by USDA NIFA (grant no.: 1029588) and NSF ORCC (grant no. 2222348). SK was supported by NSF‐IOS (award no.: 1856450).

Keywords

climate change
drought
forest management
forests
physiology

Access to Document

10.1111/nph.20326

Cite this

Groover, A., Holbrook, N. M., Polle, A., Sala, A., Medlyn, B., Brodersen, C., Pittermann, J., Gersony, J., Sokołowska, K., Bogar, L., McDowell, N., Spicer, R., David-Schwartz, R., Keller, S., Tschaplinski, T. J., & Preisler, Y. (2025). Tree drought physiology: critical research questions and strategies for mitigating climate change effects on forests. New Phytologist, 245(5), 1817-1832. https://doi.org/10.1111/nph.20326

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title = "Tree drought physiology: critical research questions and strategies for mitigating climate change effects on forests",

abstract = "Droughts of increasing severity and frequency are a primary cause of forest mortality associated with climate change. Yet, fundamental knowledge gaps regarding the complex physiology of trees limit the development of more effective management strategies to mitigate drought effects on forests. Here, we highlight some of the basic research needed to better understand tree drought physiology and how new technologies and interdisciplinary approaches can be used to address them. Our discussion focuses on how trees change wood development to mitigate water stress, hormonal responses to drought, genetic variation underlying adaptive drought phenotypes, how trees {\textquoteleft}remember{\textquoteright} prior stress exposure, and how symbiotic soil microbes affect drought response. Next, we identify opportunities for using research findings to enhance or develop new strategies for managing drought effects on forests, ranging from matching genotypes to environments, to enhancing seedling resilience through nursery treatments, to landscape-scale monitoring and predictions. We conclude with a discussion of the need for co-producing research with land managers and extending research to forests in critical ecological regions beyond the temperate zone.",

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author = "Andrew Groover and Holbrook, \{N. Michele\} and Andrea Polle and Anna Sala and Belinda Medlyn and Craig Brodersen and Jarmila Pittermann and Jessica Gersony and Katarzyna Soko{\l}owska and Laura Bogar and Nate McDowell and Rachel Spicer and Rakefet David-Schwartz and Stephen Keller and Tschaplinski, \{Timothy J.\} and Yakir Preisler",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). New Phytologist {\textcopyright} 2024 New Phytologist Foundation. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.",

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Groover, A, Holbrook, NM, Polle, A, Sala, A, Medlyn, B, Brodersen, C, Pittermann, J, Gersony, J, Sokołowska, K, Bogar, L, McDowell, N, Spicer, R, David-Schwartz, R, Keller, S, Tschaplinski, TJ & Preisler, Y 2025, 'Tree drought physiology: critical research questions and strategies for mitigating climate change effects on forests', New Phytologist, vol. 245, no. 5, pp. 1817-1832. https://doi.org/10.1111/nph.20326

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T2 - critical research questions and strategies for mitigating climate change effects on forests

AU - Groover, Andrew

AU - Holbrook, N. Michele

AU - Polle, Andrea

AU - Sala, Anna

AU - Medlyn, Belinda

AU - Brodersen, Craig

AU - Pittermann, Jarmila

AU - Gersony, Jessica

AU - Sokołowska, Katarzyna

AU - Bogar, Laura

AU - McDowell, Nate

AU - Spicer, Rachel

AU - David-Schwartz, Rakefet

AU - Keller, Stephen

AU - Tschaplinski, Timothy J.

AU - Preisler, Yakir

N1 - Publisher Copyright: © 2024 The Author(s). New Phytologist © 2024 New Phytologist Foundation. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

PY - 2025/3

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N2 - Droughts of increasing severity and frequency are a primary cause of forest mortality associated with climate change. Yet, fundamental knowledge gaps regarding the complex physiology of trees limit the development of more effective management strategies to mitigate drought effects on forests. Here, we highlight some of the basic research needed to better understand tree drought physiology and how new technologies and interdisciplinary approaches can be used to address them. Our discussion focuses on how trees change wood development to mitigate water stress, hormonal responses to drought, genetic variation underlying adaptive drought phenotypes, how trees ‘remember’ prior stress exposure, and how symbiotic soil microbes affect drought response. Next, we identify opportunities for using research findings to enhance or develop new strategies for managing drought effects on forests, ranging from matching genotypes to environments, to enhancing seedling resilience through nursery treatments, to landscape-scale monitoring and predictions. We conclude with a discussion of the need for co-producing research with land managers and extending research to forests in critical ecological regions beyond the temperate zone.

AB - Droughts of increasing severity and frequency are a primary cause of forest mortality associated with climate change. Yet, fundamental knowledge gaps regarding the complex physiology of trees limit the development of more effective management strategies to mitigate drought effects on forests. Here, we highlight some of the basic research needed to better understand tree drought physiology and how new technologies and interdisciplinary approaches can be used to address them. Our discussion focuses on how trees change wood development to mitigate water stress, hormonal responses to drought, genetic variation underlying adaptive drought phenotypes, how trees ‘remember’ prior stress exposure, and how symbiotic soil microbes affect drought response. Next, we identify opportunities for using research findings to enhance or develop new strategies for managing drought effects on forests, ranging from matching genotypes to environments, to enhancing seedling resilience through nursery treatments, to landscape-scale monitoring and predictions. We conclude with a discussion of the need for co-producing research with land managers and extending research to forests in critical ecological regions beyond the temperate zone.

KW - climate change

KW - drought

KW - forest management

KW - forests

KW - physiology

UR - https://www.scopus.com/pages/publications/85212305363

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SN - 0028-646X

VL - 245

SP - 1817

EP - 1832

JO - New Phytologist

JF - New Phytologist

IS - 5

ER -

Tree drought physiology: critical research questions and strategies for mitigating climate change effects on forests

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