Fallon, BethCavender-Bares, Jeannine2018-02-142018-02-142018-02-14https://hdl.handle.net/11299/193529The zip file contains folders, scripts, and data necessary to reproduce the analysis and figures. Once unzipped, all scripts and data can be opened and run in RStudio with the "RStudio Project Leaf-level tradeoffs oaks AZ.Rproj" file. All folders with data (folders proceeded by “input_”, the “gen_data” folder, and the “hipp_etal” folder) contain separate readme files that document the individual files in that folder. See the primary README.txt for more information.This dataset and RStudio project includes all processed data, most raw data, and R scripts needed for analysis and figure construction included in the manuscript Fallon and J. Cavender-Bares 2018 (Fallon B. and J. Cavender-Bares. 2018. Leaf-level trade-offs between drought avoidance and desiccation recovery drive elevation stratification in arid oaks. Ecosphere. in press). We investigated whether oak species in the Chiricahua Mountains were 1) elevationally stratified, 2) whether that stratification was correlated with temperature minima, maxima, and water availability, 3) if physiological tolerances to freezing or drought stress correlated with elevation ranges, and 4) if traits important to local (elevation) distributions were correlated with climatic values of the wider species ranges. Data were collected at field sites from wild, adult trees in the Chiricahua Mountains, Arizona, USA from 2014-2015.This research was done with funding to B. Fallon from the Southwestern Research Station (SWRS, American Museum of Natural History), the University of Minnesota Charles J. Brand, Carolyn Crosby, and Dayton Bell Fellowships, and the Department of Plant and Microbial Biology. Additional funding was provided by NSF Award 1146380 (J. Cavender-Bares PI). We performed all data collection under permit with the Coronado National Forest, Douglas Ranger District, managed by the United States Forest Service (USDA).CC0 1.0 Universalrange limitscommunity assemblydrought resistancefreezing resistanceniche partitioningecophysiologyclimate limitationsDatasethttps://doi.org/10.13020/D6NH40