The unified neutral theory of biodiversity and biogeography at age ten.
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[1] D. Berreby. Eating with integrity , 2011, Nature.
[2] B. Haegeman,et al. Independent species in independent niches behave neutrally , 2011 .
[3] Carlos J. Melián,et al. NEUTRAL BIODIVERSITY THEORY CAN EXPLAIN THE IMBALANCE OF PHYLOGENETIC TREES BUT NOT THE TEMPO OF THEIR DIVERSIFICATION , 2011, Evolution; international journal of organic evolution.
[4] James Rosindell,et al. A unified model of island biogeography sheds light on the zone of radiation. , 2011, Ecology letters.
[5] Evan P Economo,et al. Biodiversity Conservation in Metacommunity Networks: Linking Pattern and Persistence , 2011, The American Naturalist.
[6] Rampal S. Etienne,et al. The Spatial Limitations of Current Neutral Models of Biodiversity , 2011, PloS one.
[7] R. Ricklefs. Applying a regional community concept to forest birds of eastern North America , 2011, Proceedings of the National Academy of Sciences.
[8] Y. Iwasa,et al. Neutral theory as a predictor of avifaunal extinctions after habitat loss , 2011, Proceedings of the National Academy of Sciences.
[9] Rampal S. Etienne,et al. The neutral theory of biodiversity with random fission speciation , 2011, Theoretical Ecology.
[10] James Rosindell,et al. Unified neutral theory of biodiversity and biogeography , 2010, Scholarpedia.
[11] Lindsay A. Turnbull,et al. Different but equal: the implausible assumption at the heart of neutral theory , 2010, The Journal of animal ecology.
[12] A. Tomašových,et al. Predicting the effects of increasing temporal scale on species composition, diversity, and rank-abundance distributions , 2010, Paleobiology.
[13] B. Haegeman,et al. An analytical approach to spatio-temporal dynamics of neutral community models , 2010, Journal of mathematical biology.
[14] Ryan A Chisholm,et al. Niche and neutral models predict asymptotically equivalent species abundance distributions in high-diversity ecological communities , 2010, Proceedings of the National Academy of Sciences.
[15] D. Storch,et al. Predictions of Taylor's power law, density dependence and pink noise from a neutrally modeled time series. , 2010, Journal of theoretical biology.
[16] M. Kopp. Speciation and the neutral theory of biodiversity , 2010, BioEssays : news and reviews in molecular, cellular and developmental biology.
[17] Mark Vellend,et al. Conceptual Synthesis in Community Ecology , 2010, The Quarterly Review of Biology.
[18] Rampal S Etienne,et al. Protracted speciation revitalizes the neutral theory of biodiversity. , 2010, Ecology letters.
[19] B. McGill. Towards a unification of unified theories of biodiversity. , 2010, Ecology letters.
[20] P. B. Warren. Biodiversity on island chains: neutral model simulations. , 2010, Physical review. E, Statistical, nonlinear, and soft matter physics.
[21] B. Haegeman,et al. Self-consistent approach for neutral community models with speciation. , 2010, Physical review. E, Statistical, nonlinear, and soft matter physics.
[22] Hubbell's local abundance distribution: insights from a simple colonization rule , 2010 .
[23] James P O'Dwyer,et al. Field theory for biogeography: a spatially explicit model for predicting patterns of biodiversity , 2010, Ecology letters.
[24] David Alonso,et al. Frequency-Dependent Selection Predicts Patterns of Radiations and Biodiversity , 2009, PLoS Comput. Biol..
[25] Z. Néda,et al. A spatially explicit model for tropical tree diversity patterns. , 2008, Journal of theoretical biology.
[26] Ryan A Chisholm,et al. Linking dispersal, immigration and scale in the neutral theory of biodiversity. , 2009, Ecology letters.
[27] Omri Allouche,et al. A general framework for neutral models of community dynamics. , 2009, Ecology letters.
[28] G. Perry,et al. Dispersal, edaphic fidelity, and speciation in species-rich Western Australian shrublands: evaluating a neutral model of biodiversity. , 2009 .
[29] Y. Bar-Yam,et al. Global patterns of speciation and diversity , 2009, Nature.
[30] Stephen J Cornell,et al. Species-area curves, neutral models, and long-distance dispersal. , 2009, Ecology.
[31] Rampal S Etienne,et al. Maximum likelihood estimation of neutral model parameters for multiple samples with different degrees of dispersal limitation. , 2009, Journal of theoretical biology.
[32] Rampal S Etienne,et al. Neutral Models with Generalised Speciation , 2009, Bulletin of mathematical biology.
[33] Franck Jabot,et al. Inferring the parameters of the neutral theory of biodiversity using phylogenetic information and implications for tropical forests. , 2009, Ecology letters.
[34] M. Cencini,et al. Speciation-rate dependence in species-area relationships. , 2009, Journal of theoretical biology.
[35] S. Hubbell. Neutral Theory and the Theory of Island Biogeography , 2009 .
[36] R. Ricklefs,et al. The Theory of Island Biogeography Revisited , 2009 .
[37] James S Clark,et al. Beyond neutral science. , 2009, Trends in ecology & evolution.
[38] S. Hubbell,et al. How many tree species are there in the Amazon and how many of them will go extinct? , 2008, Proceedings of the National Academy of Sciences.
[39] Yan Wong,et al. A coalescence approach to spatial neutral ecology , 2008, Ecol. Informatics.
[40] Rampal S Etienne,et al. Relaxing the zero-sum assumption in neutral biodiversity theory. , 2008, Journal of theoretical biology.
[41] R. Muneepeerakul,et al. Neutral metacommunity models predict fish diversity patterns in Mississippi–Missouri basin , 2008, Nature.
[42] B. Haegeman,et al. Dynamics of neutral biodiversity. , 2008, Mathematical biosciences.
[43] Timothy H Keitt,et al. Species diversity in neutral metacommunities: a network approach. , 2007, Ecology letters.
[44] W. Sloan,et al. Neutral assembly of bacterial communities. , 2007, FEMS microbiology ecology.
[45] E. Leigh,et al. Neutral theory: a historical perspective , 2007, Journal of evolutionary biology.
[46] Amos Maritan,et al. Patterns of relative species abundance in rainforests and coral reefs , 2007, Nature.
[47] Rampal S Etienne,et al. The zero-sum assumption in neutral biodiversity theory. , 2007, Journal of theoretical biology.
[48] Rampal S Etienne,et al. Estimating parameters of neutral communities: from one single large to several small samples. , 2007, Ecology.
[49] Rampal S Etienne,et al. A neutral sampling formula for multiple samples and an 'exact' test of neutrality. , 2007, Ecology letters.
[50] Stephen J Cornell,et al. Species-area relationships from a spatially explicit neutral model in an infinite landscape. , 2007, Ecology letters.
[51] V. Savage,et al. Setting the absolute tempo of biodiversity dynamics. , 2007, Ecology letters.
[52] Rampal S. Etienne,et al. Neutral Community Theory: How Stochasticity and Dispersal-Limitation Can Explain Species Coexistence , 2007 .
[53] Richard Condit,et al. The impact of neutrality, niche differentiation and species input on diversity and abundance distributions , 2007 .
[54] Franz J. Weissing,et al. Modes of speciation and the neutral theory of biodiversity , 2007 .
[55] Peter B Adler,et al. A niche for neutrality. , 2007, Ecology letters.
[56] Olivier Gascuel,et al. Reconstructing evolution : new mathematical and computational advances , 2007 .
[57] Amos Maritan,et al. Dynamical evolution of ecosystems , 2006, Nature.
[58] Ran Nathan. Long-Distance Dispersal of Plants , 2006, Science.
[59] W. Laurance,et al. Can Neutral Theory Predict the Responses of Amazonian Tree Communities to Forest Fragmentation?* , 2006, The American Naturalist.
[60] Rampal S Etienne,et al. The merits of neutral theory. , 2006, Trends in ecology & evolution.
[61] M. D. Weiser,et al. Empirical evaluation of neutral theory. , 2006, Ecology.
[62] R. Ricklefs. The unified neutral theory of biodiversity: do the numbers add up? , 2006, Ecology.
[63] Luke J. Harmon,et al. SOME MODELS OF PHYLOGENETIC TREE SHAPE , 2006 .
[64] S. Hubbell,et al. Density dependence explains tree species abundance and diversity in tropical forests , 2005, Nature.
[65] Rampal S Etienne,et al. A dispersal-limited sampling theory for species and alleles. , 2005, Ecology letters.
[66] Jayanth R Banavar,et al. Spatial scaling in model plant communities. , 2005, Physical review letters.
[67] S. Hubbell. The neutral theory of biodiversity and biogeography and Stephen Jay Gould , 2005, Paleobiology.
[68] Rampal S. Etienne,et al. A new sampling formula for neutral biodiversity , 2005 .
[69] S. Nee. The neutral theory of biodiversity: do the numbers add up? , 2005 .
[70] H. F.,et al. Deriving a neutral model of species abundance from fundamental mechanisms of population dynamics , 2005 .
[71] E. Leigh,et al. The decline of tree diversity on newly isolated tropical islands: A test of a null hypothesis and some implications , 2005, Evolutionary Ecology.
[72] J. Terborgh,et al. Why Do Some Tropical Forests Have So Many Species of Trees? , 2004 .
[73] A. McKane,et al. Sampling Hubbell's neutral theory of biodiversity , 2004 .
[74] Peter B. Adler,et al. NEUTRAL MODELS FAIL TO REPRODUCE OBSERVED SPECIES–AREA AND SPECIES–TIME RELATIONSHIPS IN KANSAS GRASSLANDS , 2004 .
[75] Han Olff,et al. A novel genealogical approach to neutral biodiversity theory , 2004 .
[76] B. Houchmandzadeh,et al. Analytical solution of a neutral model of biodiversity. , 2003, Physical review. E, Statistical, nonlinear, and soft matter physics.
[77] S. Hubbell,et al. Neutral theory and relative species abundance in ecology , 2003, Nature.
[78] R. Lande,et al. Stochastic Population Dynamics in Ecology and Conservation , 2003 .
[79] R. Ricklefs,et al. A comment on Hubbell's zero‐sum ecological drift model , 2003 .
[80] S. Hubbell. Modes of speciation and the lifespans of species under neutrality: a response to the comment of robe , 2003 .
[81] Jérôme Chave,et al. A Spatially Explicit Neutral Model of β-Diversity in Tropical Forests , 2002 .
[82] Stephen P. Hubbell,et al. Beta-Diversity in Tropical Forest Trees , 2002, Science.
[83] S. Levin,et al. Comparing Classical Community Models: Theoretical Consequences for Patterns of Diversity , 2002, The American Naturalist.
[84] Jérôme Chave,et al. A spatially explicit neutral model of beta-diversity in tropical forests. , 2002, Theoretical population biology.
[85] Peter A. Abrams,et al. A world without competition , 2001, Nature.
[86] Graham Bell,et al. The Distribution of Abundance in Neutral Communities , 2000, The American Naturalist.
[87] J. T. Cox,et al. A SPATIAL MODEL FOR THE ABUNDANCE OF SPECIES , 1998 .
[88] S. Hubbell,et al. A unified theory of biogeography and relative species abundance and its application to tropical rain forests and coral reefs , 1997, Coral Reefs.
[89] Rick Durrett,et al. Spatial Models for Species-Area Curves , 1996 .
[90] Zengo Furukawa,et al. A General Framework for , 1991 .
[91] J. Kingman. On the genealogy of large populations , 1982, Journal of Applied Probability.
[92] E. Leigh,et al. The average lifetime of a population in a varying environment. , 1981, Journal of theoretical biology.
[93] Stephen P. Hubbell,et al. Tree Dispersion, Abundance, and Diversity in a Tropical Dry Forest , 1979, Science.
[94] Hal Caswell,et al. Community Structure: A Neutral Model Analysis , 1976 .
[95] R. Holley,et al. Ergodic Theorems for Weakly Interacting Infinite Systems and the Voter Model , 1975 .
[96] Stephen Jay Gould,et al. Stochastic Models of Phylogeny and the Evolution of Diversity , 1973, The Journal of Geology.
[97] W. Ewens. The sampling theory of selectively neutral alleles. , 1972, Theoretical population biology.
[98] R. Levins. Some Demographic and Genetic Consequences of Environmental Heterogeneity for Biological Control , 1969 .
[99] J. Crow,et al. THE NUMBER OF ALLELES THAT CAN BE MAINTAINED IN A FINITE POPULATION. , 1964, Genetics.
[100] G. F. Gause. The struggle for existence , 1971 .
[101] R. Macarthur,et al. AN EQUILIBRIUM THEORY OF INSULAR ZOOGEOGRAPHY , 1963 .
[102] F. W. Preston. The Canonical Distribution of Commonness and Rarity: Part I , 1962 .
[103] R. Macarthur. ON THE RELATIVE ABUNDANCE OF BIRD SPECIES. , 1957, Proceedings of the National Academy of Sciences of the United States of America.