Mistaking geography for biology: inferring processes from species distributions.
about
Lineage range estimation method reveals fine-scale endemism linked to Pleistocene stability in Australian rainforest herpetofaunaInfluence of tree shape and evolutionary time-scale on phylogenetic diversity metricsLimitations of climatic data for inferring species boundaries: insights from speckled rattlesnakesGeomorphology Drives Amphibian Beta Diversity in Atlantic Forest Lowlands of Southeastern BrazilThriving in the Cold: Glacial Expansion and Post-Glacial Contraction of a Temperate Terrestrial Salamander (Plethodon serratus).Morphologically Cryptic Amphipod Species Are "Ecological Clones" at Regional but Not at Local Scale: A Case Study of Four Niphargus SpeciesStochastic distribution of small soil eukaryotes resulting from high dispersal and drift in a local environmentSpecies interactions regulate the collapse of biodiversity and ecosystem function in tropical forest fragments.Populations of aspen (Populus tremuloides Michx.) with different evolutionary histories differ in their climate occupancy.Niche conservatism in Gynandropaa frogs on the southeastern Qinghai-Tibetan PlateauSpatial Autocorrelation Can Generate Stronger Correlations between Range Size and Climatic Niches Than the Biological Signal - A Demonstration Using Bird and Mammal Range Maps.Species-free species distribution models describe macroecological properties of protected area networks.A new dynamic null model for phylogenetic community structure.Geography and major host evolutionary transitions shape the resource use of plant parasites.Closing the gap: avian lineage splits at a young, narrow seaway imply a protracted history of mixed population response.Bioclimatic transect networks: Powerful observatories of ecological change.A landscape-scale field experiment reveals the importance of dispersal in a resource-limited metacommunity.Evolutionary and demographic history of the Californian scrub white oak species complex: an integrative approach.History matters more when explaining genetic diversity within the context of the core-periphery hypothesis.The importance (or lack thereof) of niche divergence to the maintenance of a northern species complex: the case of the long-toed salamander (Ambystoma macrodactylum Baird).The role of environment, dispersal and competition in explaining reduced co-occurrence among related species.Environmental filtering by pH and soil nutrients drives community assembly in fungi at fine spatial scales.Reconstructing Ecological Niche Evolution When Niches Are Incompletely Characterized.Spatial phylogenetics of the native California flora.Smaller beaks for colder winters: Thermoregulation drives beak size evolution in Australasian songbirds.Macroevolution of perfume signalling in orchid bees.Three explanations for biodiversity hotspots: small range size, geographical overlap and time for species accumulation. An Australian case study.Isolation by distance, not incipient ecological speciation, explains genetic differentiation in an Andean songbird (Aves: Furnariidae: Cranioleuca antisiensis, Line-cheeked Spinetail) despite near threefold body size change across an environmental gPredicting community structure in snakes on Eastern Nearctic islands using ecological neutral theory and phylogenetic methods.Thermal niche evolution across replicated Anolis lizard adaptive radiations.Comparing spatial diversification and meta-population models in the Indo-Australian Archipelago.Cutting the Gordian Knot: Phylogenetic and ecological diversification of the Mesalina brevirostris species complex (Squamata, Lacertidae)The community ecology of invasive species: where are we and what's next?Is phylogeography helpful for invasive species risk assessment? The case study of the bark beetle genus DendroctonusAnalysing patterns of spatial and niche overlap among species at multiple resolutionsClimate niche conservatism does not explain restricted distribution patterns inTynanthus(Bignonieae, Bignoniaceae)Differences between microhabitat and broad-scale patterns of niche evolution in terrestrial salamandersThe conservation status of African vertebrates is unrelated to environmental and spatial patterns in their geographic rangesControls on Mountain Plant Diversity in Northern California: A 14,000-Year Overview
P2860
Q28646915-7793076B-F4EE-4D31-A0D5-399B50E162E6Q28822542-B74B8C6B-894B-494A-BAB4-4D965491F69FQ30000065-C71E6489-58F6-4EC9-BE6C-ED3F2E32EFB5Q30383055-663ECFB5-C4D2-40F8-988F-62A44939CC4BQ35679783-59BCFCD7-6A6B-41C1-8713-A9356003CE7DQ35726853-69BC1191-E7CB-4CEF-A04D-BD4CB95E2EB2Q35783416-26842182-1189-43CE-9884-4258D5EF8DF6Q35864003-29B3F669-6699-4194-90C2-8E4F8B32B372Q36027672-3AC75839-D31F-4A1F-9D19-CAB65DCCF2B4Q36124749-3863F446-41ED-48A5-8AD1-754247EA2A1BQ36195153-C3B2F891-78F1-4677-B9C3-BE4FA2D3E66AQ36310451-015C54FA-6EE3-441E-966F-E0D64D7E2FD0Q36361489-63FAC46A-97B1-489C-B351-7411F5BF4C17Q37258621-1BBD53C1-E467-4107-AB9F-F7F6A335C2E0Q38368225-ACDDD717-CB90-4D21-AB75-A69B380166D6Q38660580-5263AEA8-D14D-442F-878B-C66A24A62D9AQ39155044-65DC7035-6FFB-443F-AFF1-B84F8F8025ABQ40345005-4AF19D6E-CB52-434C-8E09-4C03FB2DAB0EQ40736107-C5D61BB6-7857-44EB-82CC-3AE93730D1A2Q41208615-7B29058E-FBC4-4904-9F75-1EF5AD2F6AAAQ45374276-8BBA73B1-651B-47DB-922C-3FB19DAE407EQ46266593-E3C39EDF-E071-4E84-81C7-D3E3F75565E7Q46271463-800B43F0-98B9-4CEA-B993-1FCF13AA06A2Q46273983-9E64F503-36F3-42F5-851E-32F517000B46Q46337127-270CF384-1CDC-4C84-A00A-CD5EF227413FQ46494921-A19F7F49-3745-4327-ACB2-67A7F11DD452Q46807954-0D35F7AE-09C2-4CF2-BE07-2B4885BC0A0AQ47176571-83916FE7-D4B2-4AEE-99C8-F699DEF90DD8Q51155184-CD66C09B-8AB8-4134-9407-AF73B012BEA0Q53701680-97E5EA9A-6DF4-46B3-A4AF-E1396400DFC8Q53830115-2AE5FB41-C7CC-43E4-B15F-16250FE7F753Q54800925-075158DD-066C-407E-8B39-5159EE401C67Q56341083-3C308F72-5610-483C-8859-BD024C59EDD7Q56376463-07ACC5F2-B867-4A53-B4D4-09A1C80F9D22Q57003033-E63DEE05-D263-4A9C-9860-3AFE7B852DC8Q57013829-E3AF75FF-56A7-4384-B27E-367A1969099BQ57062638-0E863A9F-E768-41A1-B129-D309BB4A5CF0Q58043648-053B1500-424A-49ED-801E-ECBDC606F904Q58137608-0DE26B9B-6762-4BA6-AB9B-12A7EFBF69AD
P2860
Mistaking geography for biology: inferring processes from species distributions.
description
2014 nî lūn-bûn
@nan
2014 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Mistaking geography for biology: inferring processes from species distributions.
@ast
Mistaking geography for biology: inferring processes from species distributions.
@en
type
label
Mistaking geography for biology: inferring processes from species distributions.
@ast
Mistaking geography for biology: inferring processes from species distributions.
@en
prefLabel
Mistaking geography for biology: inferring processes from species distributions.
@ast
Mistaking geography for biology: inferring processes from species distributions.
@en
P50
P1476
Mistaking geography for biology: inferring processes from species distributions.
@en
P304
P356
10.1016/J.TREE.2014.08.003
P577
2014-08-26T00:00:00Z