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Tropical tree mortality has increased with rising atmospheric water stress

Author

Listed:
  • David Bauman

    (Smithsonian Environmental Research Center
    University of Oxford
    Université de Montpellier, CIRAD, CNRS, INRAE, IRD)

  • Claire Fortunel

    (Université de Montpellier, CIRAD, CNRS, INRAE, IRD)

  • Guillaume Delhaye

    (University of Oxford
    Ecosystem Stewardship, Royal Botanic Gardens Kew)

  • Yadvinder Malhi

    (University of Oxford)

  • Lucas A. Cernusak

    (James Cook University)

  • Lisa Patrick Bentley

    (Sonoma State University)

  • Sami W. Rifai

    (University of New South Wales
    UC Berkeley)

  • Jesús Aguirre-Gutiérrez

    (University of Oxford
    Biodiversity Dynamics, Naturalis Biodiversity Center)

  • Imma Oliveras Menor

    (University of Oxford
    Université de Montpellier, CIRAD, CNRS, INRAE, IRD)

  • Oliver L. Phillips

    (University of Leeds)

  • Brandon E. McNellis

    (Southwest Biological Science Center, U.S. Geological Survey)

  • Matt Bradford

    (CSIRO Land and Water, Tropical Forest Research Centre)

  • Susan G. W. Laurance

    (James Cook University)

  • Michael F. Hutchinson

    (The Australian National University)

  • Raymond Dempsey

    (James Cook University)

  • Paul E. Santos-Andrade

    (Universidad Nacional San Antonio Abad del Cusco)

  • Hugo R. Ninantay-Rivera

    (Universidad Nacional San Antonio Abad del Cusco)

  • Jimmy R. Chambi Paucar

    (Universidad Nacional San Antonio Abad del Cusco)

  • Sean M. McMahon

    (Smithsonian Environmental Research Center)

Abstract

Evidence exists that tree mortality is accelerating in some regions of the tropics1,2, with profound consequences for the future of the tropical carbon sink and the global anthropogenic carbon budget left to limit peak global warming below 2 °C. However, the mechanisms that may be driving such mortality changes and whether particular species are especially vulnerable remain unclear3–8. Here we analyse a 49-year record of tree dynamics from 24 old-growth forest plots encompassing a broad climatic gradient across the Australian moist tropics and find that annual tree mortality risk has, on average, doubled across all plots and species over the last 35 years, indicating a potential halving in life expectancy and carbon residence time. Associated losses in biomass were not offset by gains from growth and recruitment. Plots in less moist local climates presented higher average mortality risk, but local mean climate did not predict the pace of temporal increase in mortality risk. Species varied in the trajectories of their mortality risk, with the highest average risk found nearer to the upper end of the atmospheric vapour pressure deficit niches of species. A long-term increase in vapour pressure deficit was evident across the region, suggesting that thresholds involving atmospheric water stress, driven by global warming, may be a primary cause of increasing tree mortality in moist tropical forests.

Suggested Citation

  • David Bauman & Claire Fortunel & Guillaume Delhaye & Yadvinder Malhi & Lucas A. Cernusak & Lisa Patrick Bentley & Sami W. Rifai & Jesús Aguirre-Gutiérrez & Imma Oliveras Menor & Oliver L. Phillips & B, 2022. "Tropical tree mortality has increased with rising atmospheric water stress," Nature, Nature, vol. 608(7923), pages 528-533, August.
  • Handle: RePEc:nat:nature:v:608:y:2022:i:7923:d:10.1038_s41586-022-04737-7
    DOI: 10.1038/s41586-022-04737-7
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    Cited by:

    1. Ning Chen & Yifei Zhang & Fenghui Yuan & Changchun Song & Mingjie Xu & Qingwei Wang & Guangyou Hao & Tao Bao & Yunjiang Zuo & Jianzhao Liu & Tao Zhang & Yanyu Song & Li Sun & Yuedong Guo & Hao Zhang &, 2023. "Warming-induced vapor pressure deficit suppression of vegetation growth diminished in northern peatlands," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    2. Daijun Liu & Adriane Esquivel-Muelbert & Nezha Acil & Julen Astigarraga & Emil Cienciala & Jonas Fridman & Georges Kunstler & Thomas J. Matthews & Paloma Ruiz-Benito & Jonathan P. Sadler & Mart-Jan Sc, 2024. "Mapping multi-dimensional variability in water stress strategies across temperate forests," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    3. Wang, Yizhong & Hang, Ye & Jeong, Sujong & Wang, Qunwei, 2023. "Intersectoral transfers and drivers of net CO2 emissions in China incorporating sources and sinks," Technological Forecasting and Social Change, Elsevier, vol. 195(C).

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