about
Combined niche and neutral effects in a microbial wastewater treatment community.Using citizen-science data to identify local hotspots of seabird occurrence.A neutral sampling formula for multiple samples and an 'exact' test of neutrality.Improved estimation of neutral model parameters for multiple samples with different degrees of dispersal limitation.Speciation and the neutral theory of biodiversity: Modes of speciation affect patterns of biodiversity in neutral communities.Null model analysis of species associations using abundance data.Species richness and range size of the terrestrial mammals of the world: biological signal within mathematical constraints.Biological diversity of fish communities: pattern and process.Neutral theory and the species abundance distribution: recent developments and prospects for unifying niche and neutral perspectivesUsing landscape history to predict biodiversity patterns in fragmented landscapesAnthropogenic modification disrupts species co-occurrence in stream invertebrates.Fundamental factors determining the nature of parasite aggregation in hostsDrawing ecological inferences from coincident patterns of population- and community-level biodiversity.Small-scale spatial variability in phylogenetic community structure during early plant succession depends on soil properties.Local-global overlap in diversity informs mechanisms of bacterial biogeography.A new dynamic null model for phylogenetic community structure.The co-occurrence of species and the co-diversity of sites in neutral models of biodiversity.Reinterpreting maximum entropy in ecology: a null hypothesis constrained by ecological mechanism.Adding energy gradients and long-distance dispersal to a neutral model improves predictions of Madagascan bird diversity.Compositional divergence and convergence in arbuscular mycorrhizal fungal communities.Partitioning the factors of spatial variation in regeneration density of shade-tolerant tree species.Community assembly in epiphytic lichens in early stages of colonization.An information-theoretic approach to evaluating the size and temperature dependence of metabolic rate.Processes entangling interactions in communities: forbidden links are more important than abundance in a hummingbird-plant network.A hierarchical framework for investigating epiphyte assemblages: networks, meta-communities, and scale.The implicit assumption of symmetry and the species abundance distribution.Environmental heterogeneity affects the location of modelled communities along the niche-neutrality continuum.The presence-absence matrix reloaded: the use and interpretation of range-diversity plotsShared environmental responses drive co-occurrence patterns in river bird communitiesDoes species richness drive speciation? A reassessment with the Hawaiian biotaStrong influences of a dominant, ground-nesting ant on recruitment, and establishment of ant colonies and communities
P2860
Q30496399-D24FECDC-65B9-4720-ADB5-345CF3029650Q30887893-43D67B6F-C78D-4674-834C-988EB9D4F2A9Q33286429-48A3E44C-11A4-46C1-AE3F-D61067AEDF72Q33426017-9B232687-B603-4CA4-A06C-BC657048EDF1Q33619502-C15AD003-610A-44FC-AC95-CF26E051A2A1Q33765810-0703EAA3-B57E-434A-AA3C-ED1029C62335Q33900563-D1F0B681-EA48-4B4D-87A3-7C002262CD78Q34089432-AF2D1035-C281-4319-A7A2-57AAEDC440FAQ34361668-4C4123AA-97F0-4D16-A833-F202A9F85EE4Q34507252-0C3CFA2C-1A4F-4EEF-B3A8-2CB78D7D8B07Q34957494-DF70B14A-4BBA-48FA-832F-DF912890C265Q35090887-A9272761-54B3-488E-9B9E-464B0C1D3C85Q35153569-97A79A55-F84E-47C0-810A-08DC1744231DQ35165421-AD3A6EA9-081F-4E87-9B7C-0B8547FB0BEAQ35596161-48BAC58F-CA53-4BD5-99ED-368304E59705Q36361489-125B9FDF-4336-43EB-8620-A219B68E82E9Q37296732-E841F0BD-4E80-4BFE-A423-C6A927482EDCQ38716104-9DCB7C74-0EC2-494E-8F01-F6BE44C92C7DQ41033715-8CA317EB-C285-4C0B-90F8-7C3B234B6FFFQ43585933-983F5080-25C3-4A3B-B5EF-FC230AA92230Q46286722-5855795E-B847-4E5A-8944-94F20D043DFFQ47632767-AEA89BE2-0F68-44F7-8070-6A0B834DB03FQ51358224-9D296292-451D-47F0-92C5-8A4CA0D126BDQ51468019-1BD8A817-3519-4A3F-8EB1-D8CB66EBB05CQ51633040-07F914C1-8CDA-4F18-AD27-8A9A90D6C2F8Q51698725-3F89476B-EB95-42FE-BE68-3C1E85E07594Q53589179-2DC93089-243A-4F1E-A7B4-5F84621A942FQ57197593-4AC69FB5-379A-408F-B8FF-C29694CBE3CEQ57247843-3ED9F009-01B5-4E93-BF5F-61328D5A433BQ57262041-8BD37F43-C87A-4FAF-ADDE-90B6D131949CQ58709650-F643AE1D-4812-4493-9AE3-FD8FEB0FA843
P2860
description
article
@en
im Oktober 2006 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 2006
@uk
name
Null Versus Neutral Models: What's The Difference?
@en
Null Versus Neutral Models: What's The Difference?
@nl
type
label
Null Versus Neutral Models: What's The Difference?
@en
Null Versus Neutral Models: What's The Difference?
@nl
prefLabel
Null Versus Neutral Models: What's The Difference?
@en
Null Versus Neutral Models: What's The Difference?
@nl
P1433
P1476
Null Versus Neutral Models: What's The Difference?
@en
P2093
Brian J. McGill
N. J. Gotelli
P304
P356
10.1111/J.2006.0906-7590.04714.X
P577
2006-10-01T00:00:00Z