Tropical tree mortality has increased with rising atmospheric water stress

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; Brandon E. McNellis; Matt Bradford; Susan G.W. Laurance; Michael F. Hutchinson; Raymond Dempsey; Paul E. Santos-Andrade; Hugo R. Ninantay-Rivera; Jimmy R. Chambi Paucar; Sean M. McMahon

doi:10.1038/s41586-022-04737-7

Tropical tree mortality has increased with rising atmospheric water stress

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, Brandon E. McNellis, Matt Bradford, Susan G.W. Laurance, Michael F. Hutchinson, Raymond Dempsey, Paul E. Santos-Andrade, Hugo R. Ninantay-Rivera, Jimmy R. Chambi Paucar, Sean M. McMahon

^*Corresponding author for this work

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

117 Citations (Scopus)

Abstract

Evidence exists that tree mortality is accelerating in some regions of the tropics^1,2, 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 unclear^3–8. 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.

Original language	English
Pages (from-to)	528-533
Number of pages	6
Journal	Nature
Volume	608
Issue number	7923
DOIs	https://doi.org/10.1038/s41586-022-04737-7
Publication status	Published - 18 Aug 2022

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Bauman, D., Fortunel, C., Delhaye, G., Malhi, Y., Cernusak, L. A., Bentley, L. P., Rifai, S. W., Aguirre-Gutiérrez, J., Menor, I. O., Phillips, O. L., McNellis, B. E., Bradford, M., Laurance, S. G. W., Hutchinson, M. F., Dempsey, R., Santos-Andrade, P. E., Ninantay-Rivera, H. R., Chambi Paucar, J. R., & McMahon, S. M. (2022). Tropical tree mortality has increased with rising atmospheric water stress. Nature, 608(7923), 528-533. https://doi.org/10.1038/s41586-022-04737-7

@article{aaed86a5e03b49ae923770ea7e53dd74,

title = "Tropical tree mortality has increased with rising atmospheric water stress",

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.",

author = "David Bauman and Claire Fortunel and Guillaume Delhaye and Yadvinder Malhi and Cernusak, {Lucas A.} and Bentley, {Lisa Patrick} and Rifai, {Sami W.} and Jes{\'u}s Aguirre-Guti{\'e}rrez and Menor, {Imma Oliveras} and Phillips, {Oliver L.} and McNellis, {Brandon E.} and Matt Bradford and Laurance, {Susan G.W.} and Hutchinson, {Michael F.} and Raymond Dempsey and Santos-Andrade, {Paul E.} and Ninantay-Rivera, {Hugo R.} and {Chambi Paucar}, {Jimmy R.} and McMahon, {Sean M.}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2022",

month = aug,

day = "18",

doi = "10.1038/s41586-022-04737-7",

language = "English",

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Bauman, D, Fortunel, C, Delhaye, G, Malhi, Y, Cernusak, LA, Bentley, LP, Rifai, SW, Aguirre-Gutiérrez, J, Menor, IO, Phillips, OL, McNellis, BE, Bradford, M, Laurance, SGW, Hutchinson, MF, Dempsey, R, Santos-Andrade, PE, Ninantay-Rivera, HR, Chambi Paucar, JR & McMahon, SM 2022, 'Tropical tree mortality has increased with rising atmospheric water stress', Nature, vol. 608, no. 7923, pp. 528-533. https://doi.org/10.1038/s41586-022-04737-7

TY - JOUR

T1 - Tropical tree mortality has increased with rising atmospheric water stress

AU - Bauman, David

AU - Fortunel, Claire

AU - Delhaye, Guillaume

AU - Malhi, Yadvinder

AU - Cernusak, Lucas A.

AU - Bentley, Lisa Patrick

AU - Rifai, Sami W.

AU - Aguirre-Gutiérrez, Jesús

AU - Menor, Imma Oliveras

AU - Phillips, Oliver L.

AU - McNellis, Brandon E.

AU - Bradford, Matt

AU - Laurance, Susan G.W.

AU - Hutchinson, Michael F.

AU - Dempsey, Raymond

AU - Santos-Andrade, Paul E.

AU - Ninantay-Rivera, Hugo R.

AU - Chambi Paucar, Jimmy R.

AU - McMahon, Sean M.

PY - 2022/8/18

Y1 - 2022/8/18

N2 - 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.

AB - 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.

UR - http://www.scopus.com/inward/record.url?scp=85130287657&partnerID=8YFLogxK

U2 - 10.1038/s41586-022-04737-7

DO - 10.1038/s41586-022-04737-7

M3 - Article

SN - 0028-0836

VL - 608

SP - 528

EP - 533

JO - Nature

JF - Nature

IS - 7923

ER -

Tropical tree mortality has increased with rising atmospheric water stress

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