Drought response is not a species trait: Tropical tree drought sensitivity is shaped by drought characteristics, species adaptations, and individual microenvironments

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Abstract

Increased frequency and severity of droughts threatens forest health worldwide. Tree species adaptations -- e.g., dry-season deciduousness in tropical seasonal forests -- and individual traits -- e.g., size, crown position -- shape drought resistance, but such resistance may be variable across species, microenvironments, and drought events. Here, we assess growth responses of 1820 trees across 30 species to three climatically distinct droughts in a seasonally dry tropical forest in Western Thailand. Species and individuals exhibited a wide range of growth responses within each drought, and differences in response intensity and affect among the drought events. Deciduous and evergreen species were more sensitive to wet- and dry-season drought respectively. While individuals with more exposed crowns tended to grow less in all droughts, stem diameter and topographic wetness had variable effects. Heterogeneous drought responses of species and individuals indicate potential spatiotemporal insurance effects in diverse forests in the face of increased drought.
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Abstract

Increased frequency and severity of droughts threatens forest health worldwide. Tree species adaptations -- e.g., dry-season deciduousness in tropical seasonal forests -- and individual traits -- e.g., size, crown position -- shape drought resistance, but such resistance may be variable across species, microenvironments, and drought events. Here, we assess growth responses of 1820 trees across 30 species to three climatically distinct droughts in a seasonally dry tropical forest in Western Thailand. Species and individuals exhibited a wide range of growth responses within each drought, and differences in response intensity and affect among the drought events. Deciduous and evergreen species were more sensitive to wet- and dry-season drought respectively. While individuals with more exposed crowns tended to grow less in all droughts, stem diameter and topographic wetness had variable effects. Heterogeneous drought responses of species and individuals indicate potential spatiotemporal insurance effects in diverse forests in the face of increased drought. Supplementary Material File (manuscript_hkk_drought_sensitivity.docx) - Download - 47.39 KB Information & Authors Information Version history Peer review timeline Published Ecology Letters Version of Record31 Dec 2025Published Copyright This work is licensed under a Non Exclusive No Reuse License. Collection

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Authors Metrics & Citations Metrics Article Usage 493views 248downloads Citations Download citation Krishna Anujan, Sean McMahon, Sarayudh Bunyavejchewin, et al. Drought response is not a species trait: Tropical tree drought sensitivity is shaped by drought characteristics, species adaptations, and individual microenvironments. Authorea. 01 July 2025. DOI: https://doi.org/10.22541/au.175136629.97651139/v1 DOI: https://doi.org/10.22541/au.175136629.97651139/v1 If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download. For more information or tips please see 'Downloading to a citation manager' in the Help menu.

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