Table S1. Raw data from the 1882 squamate species with their respective mean values for the 19 variables used in pPCA analysis. from The evolution of climatic niches in squamate reptiles Marcio R. Pie Leonardo L. F. Campos Andreas L. S. Meyer Andressa Duran 10.6084/m9.figshare.5143843.v1 https://rs.figshare.com/articles/dataset/Table_S1_Raw_data_from_the_1882_squamate_species_with_their_respective_mean_values_for_the_19_variables_used_in_pPCA_analysis_from_The_evolution_of_climatic_niches_in_squamate_reptiles/5143843 Despite the remarkable diversity found in squamate reptiles, most of their species tend to be found in warm/dry environments, suggesting that climatic requirements played a crucial role in their diversification, yet little is known about the evolution of their climatic niches. In this study, we integrate climatic information associated with the geographical distribution of 1882 squamate species and their phylogenetic relationships to investigate the tempo and mode of climatic niche evolution in squamates, both over time and among lineages. We found that changes in climatic niche dynamics were pronounced over their recent squamate evolutionary history, and we identified extensive evidence for rate heterogeneity in squamate climatic niche evolution. Most rate shifts involved accelerations, particularly over the past 50 Myr. Most squamates occupy similar regions of the climatic niche space, with only a few lineages diversifying into colder and humid climatic conditions. The changes from arid to mesic conditions in some regions of the globe may have provided opportunities for climatic niche evolution, although most lineages tended to remain near their ancestral niche. Variation in rates of climatic niche evolution seems common, particularly in response to the availability of new climatic conditions over evolutionary time. 2017-06-26 09:43:17 squamata diversification climatic niche evolution heterotachy motmot arbutus