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Individual Trees Respond to 40 Years of Climate Change Through Leaf Functional Trait Acclimation.

Created on 04 Jul 2026

Authors

Riley P Fortier, Rodolfo Vásquez Martínez, Rocío Del Pilar Rojas Gonzalez, Rachel Collins, Luis Valenzuela Gamarra, Abel Montagudo Mendoza, Oliver L Phillips, Timothy R Baker, J Sebastián Tello, Kenneth J Feeley

Published in

Global change biology. Volume 32. Issue 7. Pages e70978.

Abstract

Forests are vital for regulating climate and sustaining biodiversity, but climate change threatens their ability to do so, especially in the tropics. Our knowledge of how tropical forests and their constituent trees will respond to changes in climate is largely based on functional trait studies; however, few previous studies have investigated trait changes within individual tropical trees across decades, limiting our ability to predict the future of these forests. In this study, we leveraged historical and contemporary botanical specimens collected from the same individual trees in the southern Peruvian Amazon, measured a suite of leaf traits to test for individual-level trait changes over nearly 40 years, and then related these changes to concurrent changes in local climate. We hypothesized that trees have acclimated their functional traits in response to increasing air temperatures and drought intensification and that this acclimation should help to maintain stable leaf temperatures through time. In accord with our hypothesis, we found significant decreases in measured leaf traits, including size and shape metrics and stomatal traits, within individuals through time. We used these measured traits to model leaf temperatures through time, which increased faster than would be expected based on changes in air temperature alone. This accelerated warming of leaves was due to decreased stomatal conductance, a potential acclimation of trees to dry season intensification and rising [CO2], thus limiting leaf transpirational cooling. In other words, trees have decreased abilities to cool their leaves, and consequently they may be approaching critical thermal thresholds faster than they would in the absence of water limitation. Our study provides evidence that while individual trees are acclimating to climate change, tropical forests are undergoing increasing thermal stress and that intensifying drought may be elevating this risk.

PMID:
42400329
Bibliographic data and abstract were imported from PubMed on 04 Jul 2026.

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