about
Why infectious disease research needs community ecologySpecies coexistence in a changing worldIncorporating the soil environment and microbial community into plant competition theorySpecies Interactions Among Larval Mosquitoes: Context Dependence Across Habitat GradientsPredicting the outcome of competition when fitness inequality is variableCommunity ecology in a changing environment: Perspectives from the QuaternaryBacterial community of cushion plant Thylacospermum ceaspitosum on elevational gradient in the Himalayan cold desertEvolutionary relatedness does not predict competition and co-occurrence in natural or experimental communities of green algaeCOEXISTENCE, EXCLUSION, OR NEUTRALITY? A META-ANALYSIS OF COMPETITION BETWEEN AEDES ALBOPICTUS AND RESIDENT MOSQUITOESCoexistence of insect species competing for a pulsed resource: toward a unified theory of biodiversity in fluctuating environmentsNeutrality and the response of rare species to environmental varianceNiche and Neutral Processes Together Determine Diversity Loss in Response to Fertilization in an Alpine Meadow Community.Transitions and invasion along a grazing gradient in experimental California grasslands.Thirty years of forest census at Barro Colorado and the importance of immigration in maintaining diversity.When can species abundance data reveal non-neutrality?Direct effects dominate responses to climate perturbations in grassland plant communitiesA neutral sampling formula for multiple samples and an 'exact' test of neutrality.Drought mediates the importance of stochastic community assembly.A nearly neutral model of biodiversity.Does niche overlap control relative abundance in French lacustrine fish communities? A new method incorporating functional traits.Spatial analysis of ectomycorrhizal fungi reveals that root tip communities are structured by competitive interactions.Janzen-Connell effects are widespread and strong enough to maintain diversity in grasslands.Functional traits and niche-based tree community assembly in an Amazonian forest.An integrative framework for stochastic, size-structured community assembly.Ecological equivalence: a realistic assumption for niche theory as a testable alternative to neutral theoryLocal immigration, competition from dominant guilds, and the ecological assembly of high-diversity pine savannas.Importance of neutral processes varies in time and space: Evidence from dryland stream ecosystemsNiche and neutral models predict asymptotically equivalent species abundance distributions in high-diversity ecological communities.Integrating the niche and neutral perspectives on community structure and dynamics.Turbulent dispersal promotes species coexistenceCan the life-history strategy explain the success of the exotic trees Ailanthus altissima and Robinia pseudoacacia in Iberian floodplain forests?Solving the conundrum of plant species coexistence: water in space and time matters most.Widespread density-dependent seedling mortality promotes species coexistence in a highly diverse Amazonian rain forest.Universal ecological patterns in college basketball communitiesFunctional Rarity: The Ecology of Outliers.A competitive network theory of species diversityThe spatial limitations of current neutral models of biodiversity.Phylogenetic patterns of colonization and extinction in experimentally assembled plant communitiesSignature of ecological partitioning in the maintenance of damselfly diversity.Seed arrival and ecological filters interact to assemble high-diversity plant communities.
P2860
Q24277673-D13198D5-9723-4310-A121-6B19B3F6B1D5Q26777169-E96DEF70-D26A-410F-8A96-A734C6E2766DQ26779237-90F9E5CF-144C-4BBE-B6F2-81E57D77059EQ27488283-75E33334-3BFD-4EB4-8E13-5C5254AF6568Q28608204-428240AD-03F8-40F1-9BF2-B7B0F183E62CQ28648261-4391AEC7-EF48-4475-B005-707709A19FDDQ28649616-3C1C1EA4-EF6E-4D12-B9AD-91739A832F19Q28652578-EACF912A-2BAF-43CE-BFB7-3D882315FA57Q28656247-7172135A-808D-42B7-ACCC-E96116E36E74Q28741750-3D6C134C-9148-4AD8-8DF7-691E450BBCDDQ28757618-B1CE6015-A5CC-4A75-832D-D4CFDDAB4C99Q30278846-491BAD91-33AD-49DF-941A-3E18BCA15753Q30313683-7C0CAA4F-6B83-447B-9D09-98EF87AB38D4Q30580902-99639CFE-3B85-4794-8400-314256A3DB95Q30913145-862F12C3-FA6F-4833-8E77-4FE4D13F70CBQ31106238-05809D82-E76C-4B3F-AE68-AD88DFF06160Q33286429-CD3C0EF4-F8CB-4888-AA24-04A2C11462B4Q33303012-CAC8EDCB-8412-40C8-9AA3-122EA406E681Q33326275-99CDA3A4-F416-4D1A-B39F-3E662E9DD3E5Q33327290-C6D3BC7C-DD1C-4B1D-A169-554C8A656C05Q33354302-C3A2AF49-D6F2-4E9F-95C2-51BEB810ACB9Q33373411-4D19F581-193F-484A-9B5E-743C582DCA24Q33379053-A44AB4D5-052D-4A3B-A8B1-1D1B4C6C6224Q33425132-2CBB08E9-775D-4E79-9591-4231FD5885C2Q33510693-DA3C4677-0FFA-4605-8D0D-5503C6CF77FFQ33514708-10B83C5A-A564-4D37-B2EE-906AF42E52EFQ33653020-8E34BF61-FF25-4FEF-AACD-67240CA51429Q33669952-F0D9D669-1ED4-4DC3-B74A-653C07AE815BQ33746528-86C5129B-7034-43B4-883C-062AA25E79BDQ33760101-78F30A19-F70C-4589-BB4C-B710A58077CEQ33769173-58799E3C-2F2D-4844-93A3-2D2605E1A208Q33774417-C28DA1F3-A061-4F85-9D98-8BF9A6747F0EQ33814635-70F7964D-867A-4B5C-ABCC-15F8626893FFQ33847218-A54962A5-3B73-4E33-ADBA-A450E14F6F41Q33848063-65AFA769-9B72-4F42-9853-E3DF85381EDAQ33849712-05C7AACC-B45F-4E1E-9C84-FEFBAC30A368Q33851576-66CBC717-AB96-4131-A800-A001BAA5F331Q33900574-871D51F9-1A7A-487A-A7A4-13284DD99298Q33905792-02C1A8B9-C2E4-4B40-B485-E21CE9B6633EQ33910266-1A442A8C-3882-4175-B9E3-DD58F140B46D
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
A niche for neutrality.
@en
A niche for neutrality.
@nl
type
label
A niche for neutrality.
@en
A niche for neutrality.
@nl
prefLabel
A niche for neutrality.
@en
A niche for neutrality.
@nl
P2860
P1433
P1476
A niche for neutrality.
@en
P2093
Janneke Hillerislambers
Peter B Adler
P2860
P304
P356
10.1111/J.1461-0248.2006.00996.X
P407
P577
2007-02-01T00:00:00Z