The dimensionality of niche space allows bounded and unbounded processes to jointly influence diversification
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[1] Stephen E. Fick,et al. WorldClim 2: new 1‐km spatial resolution climate surfaces for global land areas , 2017 .
[2] A. Farjon. A Handbook of the World's Conifers (2 Vols.): Revised and Updated Edition , 2017 .
[3] A. Farjon. A Handbook of the World's Conifers (2 vols.) , 2017 .
[4] Cory Merow,et al. Towards Process-based Range Modeling of Many Species. , 2016, Trends in ecology & evolution.
[5] E. Borer,et al. Addition of multiple limiting resources reduces grassland diversity , 2016, Nature.
[6] C. Marshall,et al. The uncertain role of diversity dependence in species diversification and the need to incorporate time-varying carrying capacities , 2016, Philosophical Transactions of the Royal Society B: Biological Sciences.
[7] D. Rabosky,et al. Species richness at continental scales is dominated by ecological limits. , 2015, The American naturalist.
[8] T. Price. The debate on determinants of species richness. , 2015, The American naturalist.
[9] Luke J Harmon,et al. Species diversity is dynamic and unbounded at local and continental scales. , 2015, The American naturalist.
[10] B. Freeman. Competitive Interactions upon Secondary Contact Drive Elevational Divergence in Tropical Birds , 2015, The American Naturalist.
[11] D. Silvestro,et al. The role of clade competition in the diversification of North American canids , 2015, Proceedings of the National Academy of Sciences.
[12] W. Jetz,et al. Relative roles of ecological and energetic constraints, diversification rates and region history on global species richness gradients. , 2015, Ecology letters.
[13] Pascal O. Title,et al. Rates of climatic niche evolution are correlated with species richness in a large and ecologically diverse radiation of songbirds. , 2015, Ecology letters.
[14] Sudhir Kumar,et al. Tree of Life Reveals Clock-Like Speciation and Diversification , 2014, Molecular biology and evolution.
[15] Guifen Liu,et al. Genetic variation and selection of introduced provenances of Siberian Pine (Pinus sibirica) in frigid regions of the Greater Xing’an Range, Northeast China , 2014, Journal of Forestry Research.
[16] S. Higgins,et al. Invasive plants have broader physiological niches , 2014, Proceedings of the National Academy of Sciences.
[17] Daniel L. Rabosky,et al. BAMMtools: an R package for the analysis of evolutionary dynamics on phylogenetic trees , 2014 .
[18] S. Gupta,et al. Niche filling slows the diversification of Himalayan songbirds , 2014, Nature.
[19] E. Timoshok,et al. Ecology of Siberian stone pine (Pinus sibirica Du Tour) and Siberian larch (Larix sibirica Ledeb.) in the Altai mountain glacial basins , 2014, Russian Journal of Ecology.
[20] Distribution of the genetic diversity of the Siberian stone pine, Pinus sibirica Du Tour, along the latitudinal and longitudinal profiles , 2014, Russian Journal of Genetics.
[21] Hélène Morlon,et al. Why does diversification slow down? , 2014, Trends in ecology & evolution.
[22] Alejandro Gonzalez-Voyer,et al. An Introduction to Phylogenetic Path Analysis , 2014 .
[23] D. Rabosky. Diversity-Dependence, Ecological Speciation, and the Role of Competition in Macroevolution , 2013 .
[24] A. Farjon,et al. An Atlas of the World's Conifers: An Analysis of Their Distribution, Biogeography, Diversity, and Conservation Status , 2013 .
[25] J. Tobias,et al. Species interactions constrain geographic range expansion over evolutionary time. , 2013, Ecology letters.
[26] H. Cornell. Is regional species diversity bounded or unbounded? , 2013, Biological reviews of the Cambridge Philosophical Society.
[27] Michael D. Cramer,et al. A physiological analogy of the niche for projecting the potential distribution of plants , 2012 .
[28] M. Donoghue,et al. Hemisphere-scale differences in conifer evolutionary dynamics , 2012, Proceedings of the National Academy of Sciences.
[29] Systematics and gene geography of Juniperus communis L. inferred from isoenzyme data , 2012, Russian Journal of Genetics.
[30] Daniel L. Rabosky,et al. Clade Age and Species Richness Are Decoupled Across the Eukaryotic Tree of Life , 2012, PLoS biology.
[31] F. Jiguet,et al. Selecting pseudo‐absences for species distribution models: how, where and how many? , 2012 .
[32] Liam J. Revell,et al. phytools: an R package for phylogenetic comparative biology (and other things) , 2012 .
[33] Luke J. Harmon,et al. Goldilocks Meets Santa Rosalia: An Ephemeral Speciation Model Explains Patterns of Diversification Across Time Scales , 2012, Evolutionary Biology.
[34] M. Crisp,et al. Cenozoic extinctions account for the low diversity of extant gymnosperms compared with angiosperms. , 2011, The New phytologist.
[35] J. Cracraft,et al. LINEAGE DIVERSIFICATION AND MORPHOLOGICAL EVOLUTION IN A LARGE‐SCALE CONTINENTAL RADIATION: THE NEOTROPICAL OVENBIRDS AND WOODCREEPERS (AVES: FURNARIIDAE) , 2011, Evolution; international journal of organic evolution.
[36] J. Wiens. The niche, biogeography and species interactions , 2011, Philosophical Transactions of the Royal Society B: Biological Sciences.
[37] J. Wiens,et al. The Causes Of Species Richness Patterns Across Space, Time, And Clades And The Role Of “Ecological Limits” , 2011, The Quarterly Review of Biology.
[38] Tracy Aze,et al. Interplay Between Changing Climate and Species’ Ecology Drives Macroevolutionary Dynamics , 2011, Science.
[39] David Ardia,et al. Differential Evolution with DEoptim: An Application to Non-Convex Portfolio Optimization , 2010, R J..
[40] L. H. Liow,et al. When can decreasing diversification rates be detected with molecular phylogenies and the fossil record? , 2010, Systematic biology.
[41] Jianquan Liu,et al. Diversification and biogeography of Juniperus (Cupressaceae): variable diversification rates and multiple intercontinental dispersals. , 2010, The New phytologist.
[42] J. Alroy. The Shifting Balance of Diversity Among Major Marine Animal Groups , 2010, Science.
[43] D. Rabosky. Ecological limits and diversification rate: alternative paradigms to explain the variation in species richness among clades and regions. , 2009, Ecology letters.
[44] D. Rabosky. Ecological Limits on Clade Diversification in Higher Taxa , 2009, The American Naturalist.
[45] I. Lovette,et al. Density-dependent diversification in North American wood warblers , 2008, Proceedings of the Royal Society B: Biological Sciences.
[46] Mark A McPeek,et al. The Ecological Dynamics of Clade Diversification and Community Assembly , 2008, The American Naturalist.
[47] A. K. Ekart,et al. Genetic Diversity and Population Structure of Siberian fir (Abies sibirica LEDEB.) in Middle Siberia, Russia , 2007 .
[48] E. Paradis. Analysis of Phylogenetics and Evolution with R , 2006 .
[49] M. Plummer,et al. CODA: convergence diagnosis and output analysis for MCMC , 2006 .
[50] A. King,et al. Phylogenetic Comparative Analysis: A Modeling Approach for Adaptive Evolution , 2004, The American Naturalist.
[51] Korbinian Strimmer,et al. APE: Analyses of Phylogenetics and Evolution in R language , 2004, Bioinform..
[52] T. Garland,et al. TESTING FOR PHYLOGENETIC SIGNAL IN COMPARATIVE DATA: BEHAVIORAL TRAITS ARE MORE LABILE , 2003, Evolution; international journal of organic evolution.
[53] Martyn Plummer,et al. JAGS: A program for analysis of Bayesian graphical models using Gibbs sampling , 2003 .
[54] N. Gotelli. Null model analysis of species co-occurrence patterns , 2000 .
[55] M. Pagel. Inferring the historical patterns of biological evolution , 1999, Nature.
[56] J. Thornley,et al. Modelling Shoot:Root Relations: the Only Way Forward? , 1998 .
[57] Richard G. Lomax,et al. A Beginner's Guide to Structural Equation Modeling , 2022 .
[58] Peter J. Rousseeuw,et al. Finding Groups in Data: An Introduction to Cluster Analysis , 1990 .
[59] J. Felsenstein. Phylogenies and the Comparative Method , 1985, The American Naturalist.
[60] J. Sepkoski,et al. A kinetic model of Phanerozoic taxonomic diversity. III. Post-Paleozoic families and mass extinctions , 1984, Paleobiology.
[61] J. Sepkoski,et al. A kinetic model of Phanerozoic taxonomic diversity II. Early Phanerozoic families and multiple equilibria , 1979, Paleobiology.
[62] Thomas W. Schoener,et al. Nonsynchronous Spatial Overlap of Lizards in Patchy Habitats , 1970 .
[63] J. W. Valentine. Niche diversity and niche size patterns in marine fossils , 1969 .
[64] C. Darwin. On the Origin of Species by Means of Natural Selection: Or, The Preservation of Favoured Races in the Struggle for Life , 2019 .
[65] C. Stern. CONCLUDING REMARKS OF THE CHAIRMAN , 1950 .
[66] 藤木 幸夫,et al. THE COLD SPRING HARBOR SYMPOSIUM ON QUANTITATIVE BIOLOGY. , 1996, Science.