Bhaskar, R., Dawson, T. E., Balvanera, P., 2014. Community assembly and functional diversity along succession post-management. Funct. Ecol. 28, 1256-1265. Blomberg, S. P., Garland, T., Ives, A. R., 2003. Testing for phylogenetic signal in comparative data:Behavioral traits are more labile. Evolution 57, 717-745. Carson, W. P., Schnitzer, S. A., 2008. Tropical forest community ecology. Blackwell Scientific, Oxford. Diaz, S., Noy-Meir, I., Cabido, M., 2001. Can grazing response of herbaceous plants be predicted from simple vegetative traits? J. Appl. Ecol. 38, 497-508. Jin, Y., Qian, H., 2019. V.PhyloMaker:an R package that can generate very large phylogenies for vascular plants. Ecography 42, 1353-1359. Kembel, S. W., Cowan, P. D., Helmus, M. R., et al., 2010. Picante:R tools for integrating phylogenies and ecology. Bioinformatics 26, 1463-1464. King, T. J., 1977. Plant ecology of ant-hills in calcareous grasslands:II. succession on mounds. J. Ecol. 65, 257-278. Lake, J. C., Leishman, M. R., 2004. Invasion success of exotic in natural ecosystems:the role of disturbance, plant attributes and freedom from herbivores. Biol. Conserv. 117, 215-226. Lebrija-Trejos, E., Perez-Garcia, E. A., Meave, J. A., et al., 2010. Functional traits and environmental filtering drive community assembly in a species-rich tropical system. Ecology 91, 386-398. Leibold, M. A., Holyoak, M., Mouquet, N., et al., 2004. The metacommunity concept:a framework for multi-scale community ecology. Ecol. Lett. 7, 601-613. Leps, J., de Bello, F., Lavorel, S., et al., 2006. Quantifying and interpreting functional diversity of natural communities:practical considerations matter. Preslia 78, 481-501. Lohbeck, M., Poorter, L., Martinez-Ramos, M., et al., 2014. Changing drivers of species dominance during tropical forest succession. Funct. Ecol. 28, 1052-1058. Maddison, W. P., Slatkin, M., 1991. Null models for the number of evolutionary steps in a character on a phylogenetic tree. Evolution 45, 1184-1197. McIntyre, S., Lavorel, S., Landsberg, J., et al., 1999. Disturbance response in vegetation towards a global perspective on functional traits. J. Veg. Sci. 10, 621-630. McIntyre, S., Lavorel, S., Tremont, R. M., 1995. Plant life-history attributes:their relationship to disturbance responses in herbaceous vegetation. J. Ecol. 83, 31-44. Meng, F. Q., Gao, X. M., Sun, S. C., 2011. Plant community succession on ant-hills of a sub-alpine meadow in northwestern Sichuan, China:species composition and diversity. Plant Divers. Resour. 33, 191-199. Norden, N., Letcher, S. G., Boukili, V., et al., 2012. Demographic drivers of successional changes in phylogenetic structure across life-history stages in plant communities. Ecology 93, S70-S82. Pei, N. C., 2012. Building a subtropical forest community phylogeny based on plant DNA barcodes from Dinghushan plot. Plant Divers. Resour. 34, 263-270. Prach, K., Walker, L. R., 2011. Four opportunities for studies of ecological succession. Trends Ecol. Evol. 26, 119-123. Prinzing, A., Durka, W., Klotz, S., et al., 2001. The niche of higher plants:evidence for phylogenetic conservatism. Proc. R. Soc. B-Biol. Sci. 268, 2383-2389. Prusinkiewicz, P., Erasmus, Y., Lane, B., et al., 2007. Evolution and development of inflorescence architectures. Science 316, 1452-1456. Qian, H., 2001. A comparison of generic endemism of vascular plants between East Asia and North America. Int. J. Plant Sci. 162, 191-199. Hong, Q., Yi, J., 2021. Are phylogenies resolved at the genus level appropriate for studies on phylogenetic structure of species assemblages? Plant Divers. in press. Doi:10.1016/j.pld.2020.11.005 R core Team, 2017. R:A language and environment for statistical computing. R Foundation for Statistical Computing. Vienna, Austria. URL https://www.R-project.org/. Shooner, S., Chisholm, C., Davies, T. J., 2015. The phylogenetics of succession can guide restoration:an example from abandoned mine sites in the subarctic. J. Appl. Ecol. 52, 1509-1517. Smith, S. A., Brown, J. W., 2018. Constructing a broadly inclusive seed plant phylogeny. Am. J. Bot. 105, 302-314. The Angiosperm Phylogeny Group, 2016. An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants:APG IV. Bot. J. Linn. Soc. 181, 1-20. Tucker, C. M., Cadotte, M. W., Carvalho, S. B., et al., 2016. A guide to phylogenetic metrics for conservation, community ecology and macroecology. Biol. Rev. 92, 698-715. Wang, G. H., Ni, J., 2005. Plant traits and environmental conditions along the Northeast China Transect. Ekologia-Bratislava 24, 170-185. Webb, C. O., 2000. Exploring the phylogenetic structure of ecological communities:an example for rain forest trees. Am. Nat. 156, 145-155. Webb, C. O., Ackerley, D. D., Kembel, S. W., 2011. "Software for the analysis of phylogenetic community structure and character evolution (with phylomatic and ecovolve)." User′s Manual Version 4.2. from http://phylodiversity.net/phylocom/. Webb, C. O., Ackerly, D. D., Kembel, S. W., 2008. Phylocom:software for the analysis of phylogenetic community structure and trait evolution. Bioinformatics 24, 2098-2100. Webb, C. O., Ackerly, D. D., McPeek, M. A., et al., 2002. Phylogenies and community ecology. Annu. Rev. Ecol. Syst. 33, 475-505. Wu, Z. Y., Raven, P. H., Hong, D. Y., 1994-2013. Flora of China. Science Press, Beijing; Missouri Botanical Garden Press, St. Louis. Zanne, A. E., Tank, D. C., Cornwell, W. K., et al., 2014. Three keys to the radiation of angiosperms into freezing environments. Nature 506, 89-92. |