10.3389/fevo.2020.00181.s002 Kangxin Li Kangxin Li Jinying Wang Jinying Wang Lu Qiao Lu Qiao Ruyi Zheng Ruyi Zheng Yiqun Ma Yiqun Ma Yuan Chen Yuan Chen Xiaobo Hou Xiaobo Hou Yanjun Du Yanjun Du Jianguo Gao Jianguo Gao Hui Liu Hui Liu Table_1_Diversity of Reproductive Phenology Among Subtropical Grasses Is Constrained by Evolution and Climatic Niche.XLSX Frontiers 2020 diversity flowering phenology geographic distribution climatic niche phylogenetic niche conservatism life history photosynthetic pathway 2020-06-30 11:36:01 Dataset https://frontiersin.figshare.com/articles/dataset/Table_1_Diversity_of_Reproductive_Phenology_Among_Subtropical_Grasses_Is_Constrained_by_Evolution_and_Climatic_Niche_XLSX/12588152 <p>Reproductive phenology is sensitive to climatic changes and is associated with species functional types, distribution ranges, and their corresponding climatic niches. Phylogenetic niche conservatism in reproductive phenology also constrains its diversity and the distribution of species. Therefore, we assessed the effects of photosynthetic pathway, life history, phylogeny, and climatic niche on reproductive phenology. For 190 Poaceae species in subtropical China, we compiled data on flowering onset and reproductive period, functional type (photosynthetic pathway and life history), and 18 climatic variables across the species’ global distributions and used phylogenetic models to determine associations. We found strong phylogenetic signals in flowering onset but not in reproductive period. Photosynthetic pathway and life history have significant interactive effects on both flowering onset and reproductive period, such that C<sub>3</sub> annual grasses flowered the earliest and had the longest reproductive period. We found that species with wider climatic niches would flower earlier and have longer reproductive periods. Specifically, species that experience wider ranges of mean annual precipitation and coldest-month temperatures would flower earlier, and species with higher mean annual temperature and wider ranges of wettest-quarter precipitation have a longer reproductive period. This study finds that the diversity of reproductive phenology among subtropical grasses is constrained by evolution and climatic niche and that photosynthetic pathway and life history have an interactive effect on the timing and the duration of reproduction.</p>