Journal ArticleDivergent shifts in hydraulic versus carbon acquisition functional traits after wildfire in four Rocky Mountain tree speciesPost‐Leon, Annapurna C [School of Biological Sciences University of Utah Salt Lake City Utah USA] (ORCID:0000000306475165); Anderegg, William_R L [Wilkes Center for Climate Science and Policy University of Utah Salt Lake City Utah USA] (ORCID:0000000165513331)<title>Abstract</title> <p><list><list-item><p>Climate change has increased the frequency and severity of drought and large wildfire events across western North America. Despite the increasing concurrence of drought and wildfire events and the importance of forests as a global carbon sink, the impacts of fire on tree drought and carbon acquisition traits are not well understood, particularly on multi‐year time‐scales.</p></list-item><list-item><p>In 2022–2024, we leveraged a natural experiment at a large 2018 wildfire in southwestern Colorado, comparing leaf and xylem functional traits related to drought resistance and carbon acquisition in burned and unburned ponderosa pine, quaking aspen, subalpine fir, and Engelmann spruce trees.</p></list-item><list-item><p>Relative to unburned trees of the same species, we found reduced xylem vulnerability to embolism (P₅₀) in burned ponderosa pine and subalpine fir; decreased leaf heat tolerance (T₅₀) in burned quaking aspen and ponderosa pine; and increased investment in leaf structural over photosynthetic components (leaf C:N isotopic ratio) in burned quaking aspen, subalpine fir, and Engelmann spruce.</p></list-item><list-item><p>In contrast to previous studies, our results suggest that wildfire positively impacts functional traits related to drought resistance and water movement in surviving burned trees. However, generally negative impacts of wildfire were found with respect to leaf physiological and photosynthetic traits, suggesting divergent water and carbon responses to fire.</p></list-item></list></p> <p>Read the free<ext-link href='https://fesummaries.wordpress.com/2026/02/10/fire-has-both-positive-and-negative-impacts-on-surviving-trees/'>Plain Language Summary</ext-link>for this article on the Journal blog.</p>Functional Ecology2026-04-0110677182Functional Ecology4041100 to 11170269-8463https://doi.org/10.1111/1365-2435.702822044937; 2003017; 2325700; 2519523; 2330582National Science Foundation