Conifers growing at high elevations need to optimize their stomatal conductance (gs ) for maximizing photosynthetic yield while minimizing water loss under less favourable thermal conditions. Yet the ability of high-elevation conifers to adjust their gs sensitivity to environmental drivers remains largely unexplored. We used 4 years of sap flow measurements to elucidate intraspecific and interspecific variability of gs in Larix decidua Mill. and Picea abies (L.) Karst along an elevational gradient and contrasting soil moisture conditions. Site- and species-specific gs response to main environmental drivers were examined, including vapour pressure deficit, air temperature, solar irradiance, and soil water potential. Our results indicate that maximum gs of L. decidua is >2 times higher, shows a more plastic response to temperature, and down-regulates gs stronger during atmospheric drought compared to P. abies. These differences allow L. decidua to exert more efficient water use, adjust to site-specific thermal conditions, and reduce water loss during drought episodes. The stronger plasticity of gs sensitivity to temperature and higher conductance of L. decidua compared to P. abies provide new insights into species-specific water use strategies, which affect species' performance and should be considered when predicting terrestrial water dynamics under future climatic change.

Département de géographie and Centre d'études nordiques Université de Montréal Montréal Quebec Canada Faculty of Environmental Sciences Czech University of Life Sciences Prague Prague Czech Republic

Department of Environmental Sciences Botany Basel University Basel CH 4056 Switzerland

Forest Dynamics Landscape Dynamics and Forest Soils and Biogeochemistry Swiss Federal Research Institute for Forest Snow and Landscape Research WSL Birmensdorf CH 8903 Switzerland

Forest Dynamics Landscape Dynamics and Forest Soils and Biogeochemistry Swiss Federal Research Institute for Forest Snow and Landscape Research WSL Birmensdorf CH 8903 Switzerland Department of Environmental Sciences Botany Basel University Basel CH 4056 Switzerland

Forest Dynamics Landscape Dynamics and Forest Soils and Biogeochemistry Swiss Federal Research Institute for Forest Snow and Landscape Research WSL Birmensdorf CH 8903 Switzerland Department of Environmental Systems Science ETH Zurich Zurich CH 8092 Switzerland

Institute for Landscape and Spatial Development Planning of Landscape and Urban Systems ETH Zurich Zürich CH 8093 Switzerland

Laboratory of Plant Ecology Department of Plants and Crops Faculty of Bioscience Engineering Ghent University Ghent B 9000 Belgium

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