about
Neutral theory: a historical perspectiveThe maximum entropy formalism and the idiosyncratic theory of biodiversityThe remarkable discreteness of beingNeutrality and the response of rare species to environmental varianceThirty years of forest census at Barro Colorado and the importance of immigration in maintaining diversity.Do spatially-implicit estimates of neutral migration comply with seed dispersal data in tropical forests?Species abundance distribution and population dynamics in a two-community model of neutral ecology.Community assembly rules affect the diversity of expanding communitiesWhen can species abundance data reveal non-neutrality?Inferring neutral biodiversity parameters using environmental DNA data sets.Density dependence explains tree species abundance and diversity in tropical forests.Theoretical biology: comparing models of species abundance.Empirical evaluation of neutral theory.Species-area relationships from a spatially explicit neutral model in an infinite landscape.A neutral sampling formula for multiple samples and an 'exact' test of neutrality.Virus movement maintains local virus population diversityEstimating parameters of neutral communities: from one single large to several small samples.A nearly neutral model of biodiversity.Improved estimation of neutral model parameters for multiple samples with different degrees of dispersal limitation.Species-area curves, neutral models, and long-distance dispersal.Self-consistent approach for neutral community models with speciation.Speciation and the neutral theory of biodiversity: Modes of speciation affect patterns of biodiversity in neutral communities.Niche and neutral models predict asymptotically equivalent species abundance distributions in high-diversity ecological communities.Biodiversity on island chains: neutral model simulations.The spatial limitations of current neutral models of biodiversity.Species coexistence in a variable world.Asymmetry in species regional dispersal ability and the neutral theoryContrasting relationships between species diversity and genetic diversity in natural and disturbed forest tree communities.Comment on "Global correlations in tropical tree species richness and abundance reject neutrality".Neutral theory and the species abundance distribution: recent developments and prospects for unifying niche and neutral perspectivesIs there an ecological basis for species abundance distributions?Phylogenetic diversity theory sheds light on the structure of microbial communities.Neutral theory predicts the relative abundance and diversity of genetic elements in a broad array of eukaryotic genomesHow do habitat filtering and niche conservatism affect community composition at different taxonomic resolutions?A neutral theory with environmental stochasticity explains static and dynamic properties of ecological communities.Understanding how biodiversity unfolds through time under neutral theory.Testing the Neutral Theory of Biodiversity with Human Microbiome Datasets.Solution of the spatial neutral model yields new bounds on the Amazonian species richnessOral microbial community assembly under the influence of periodontitis.Does colorectal cancer significantly influence the assembly of gut microbial communities?
P2860
Q22065683-6AFB581D-DE35-4BCB-87C7-B35EA757D0C8Q24670539-D6AA1A19-3102-411D-A81E-92BEF1CE04E0Q26824509-B677578E-D05B-4C12-844B-1BD5311343B3Q28757618-22E992CE-F15E-4FAC-A02E-62ED33B77123Q30580902-6545F74B-600E-45CA-8220-EB893575FE38Q30663472-6ADD88B9-F2D6-4484-84A6-9E32272FA0FBQ30829564-C6D599B1-8D8B-44B2-8FB1-ACEE23CF7FEFQ30878113-54639727-A986-4CA5-B541-84B8D047C9C8Q30913145-63875575-625C-4EAB-9C38-E2A50B2DFE2BQ31137996-C14DE173-FB23-4623-917F-90CF1D6E3C38Q33228238-B7892896-1AD1-4FE2-BFDD-01FDCFEFB50FQ33242167-5A6B8F15-E2D4-4CB1-B231-4E13D94D8CABQ33251805-07C7E94D-85B8-41BB-A0C5-F797AD64395BQ33286426-A30D00BA-A3B0-471C-8B25-B66C315B5167Q33286429-7F509E1A-54AC-4BDD-BF8C-00D120DD9D66Q33306337-B577AC23-E546-4C4A-A01C-D4746FE20F28Q33306550-24EB2222-04C8-41CD-AC31-4D29E4E2D275Q33326275-77D1B1A9-1C5D-4C7D-AA22-4AE43C4DB7ACQ33426017-36EB13E4-E9D7-47B5-9251-109B2F6CF5C2Q33495263-3BCB78B8-F9C9-49F2-BF9C-28C87E225049Q33549364-2C362775-9212-453E-B203-C0736594085CQ33619502-E140B441-C568-47B1-80A8-7745148DC790Q33669952-82140D68-ABE8-4073-9F2A-D7F8241690C8Q33792158-FD4F173E-2185-4448-A2F8-C9BD151E8CB0Q33851576-0D7C2928-D164-4B25-81F8-A96131EA99F2Q33935342-76C4A8F9-EB8F-4278-9C3B-375672CD93A4Q34013827-64C068F2-2E49-4311-86EE-39584B8066A2Q34080064-45392F32-2B53-4692-8582-800D26C0050DQ34320908-AC666204-E4B4-4073-9972-2AC39BD1D27AQ34361668-9EC5AE44-1DE3-424C-A75A-BFF2DD3485E5Q34419218-A8D9853C-4A34-4C42-9825-25AB4E22A39EQ34531166-5502130F-BDF1-4B46-9753-CF4EA0CCF93AQ34782633-E77D59C8-A588-4374-93F1-AF9DF1EA6B0AQ35259039-DD66ECE7-F201-44A1-A7A4-8548DC9C4287Q35611887-E61574D5-95D0-4FD8-A2B6-20B4DB1B3A14Q35957025-19365C9F-63EA-444B-959A-BD0EBA5705A0Q36104596-3C3CF72C-7C52-4C27-92CA-C66215B9C86AQ37648631-EC1311DA-DC24-4736-B271-EE25ECC2F414Q38622204-D047D363-3BE5-4FDF-ACA7-BD624E221580Q38663155-012B34F5-91BB-4411-859D-4AAE6AEF7CEF
P2860
description
article
@en
im Februar 2005 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 2005
@uk
name
A new sampling formula for neutral biodiversity
@en
A new sampling formula for neutral biodiversity
@nl
type
label
A new sampling formula for neutral biodiversity
@en
A new sampling formula for neutral biodiversity
@nl
prefLabel
A new sampling formula for neutral biodiversity
@en
A new sampling formula for neutral biodiversity
@nl
P1433
P1476
A new sampling formula for neutral biodiversity
@en
P2093
Rampal S. Etienne
P2860
P304
P356
10.1111/J.1461-0248.2004.00717.X
P407
P577
2005-02-03T00:00:00Z