Towards an integrated framework for assessing the vulnerability of species to climate change
about
Patterns of Genetic Variability in Island Populations of the Cane Toad (Rhinella marina) from the Mouth of the AmazonWill the Effects of Sea-Level Rise Create Ecological Traps for Pacific Island Seabirds?Mapping the Drivers of Climate Change Vulnerability for Australia's Threatened SpeciesA Geographic Mosaic of Climate Change Impacts on Terrestrial Vegetation: Which Areas Are Most at Risk?The vulnerability of threatened species: adaptive capability and adaptation opportunityA population accounting approach to assess tourism contributions to conservation of IUCN-redlisted mammal speciesDefining the limits of physiological plasticity: how gene expression can assess and predict the consequences of ocean changePredicting organismal vulnerability to climate warming: roles of behaviour, physiology and adaptationA climate change vulnerability assessment of California's at-risk birdsTheoretical perspectives on the statics and dynamics of species' borders in patchy environmentsElevational Distribution of Flightless Ground Beetles in the Tropical Rainforests of North-Eastern AustraliaBiodiversity redistribution under climate change: Impacts on ecosystems and human well-being.On the Use of a Simple Physical System Analogy to Study Robustness Features in Animal Sciences.Integrating phylogeography and physiology reveals divergence of thermal traits between central and peripheral lineages of tropical rainforest lizards.A risk-based approach to evaluating wildlife demographics for management in a changing climate: a case study of the Lewis's WoodpeckerTemperature-dependent shifts in herbivore performance and interactions drive nonlinear changes in crop damages.Foraging by forest ants under experimental climatic warming: a test at two sites.Assessing insect responses to climate change: What are we testing for? Where should we be heading?Plant response to climate change varies with topography, interactions with neighbors, and ecotype.Tracking climate change in a dispersal-limited species: reduced spatial and genetic connectivity in a montane salamander.Adaptive thermoregulation during summer in two populations of an arid-zone passerine.The future of species under climate change: resilience or decline?Identifying the world's most climate change vulnerable species: a systematic trait-based assessment of all birds, amphibians and coralsMicrohabitats reduce animal's exposure to climate extremes.Experimental manipulation of melanism demonstrates the plasticity of preferred temperature in an agricultural pest (Phaulacridium vittatum)Incorporating climate science in applications of the US endangered species act for aquatic species.Shifts in coral-assemblage composition do not ensure persistence of reef functionality.Avian community responses to variability in river hydrologyAssessing the exposure of lion tamarins (Leontopithecus spp.) to future climate change.Demographic consequences of climate change and land cover help explain a history of extirpations and range contraction in a declining snake species.Phenology research for natural resource management in the United States.Rapid evolution of quantitative traits: theoretical perspectives.Continental-scale assessment of risk to the Australian odonata from climate change.Cold truths: how winter drives responses of terrestrial organisms to climate change.Managing protected areas under climate change: challenges and priorities.Tree-hugging koalas demonstrate a novel thermoregulatory mechanism for arboreal mammals.A Drosophila laboratory evolution experiment points to low evolutionary potential under increased temperatures likely to be experienced in the future.Beyond a warming fingerprint: individualistic biogeographic responses to heterogeneous climate change in California.Species traits and phylogenetic conservatism of climate-induced range shifts in stream fishes.Stepping inside the niche: microclimate data are critical for accurate assessment of species' vulnerability to climate change.
P2860
Q27207252-D8B8D02F-6638-4589-A49A-E39377361125Q28607338-4B29BFCD-57F1-41BF-A5F8-39760B7A2795Q28646986-E159AB08-90B7-4B31-B522-E8D4165BE4B4Q28647876-ACA93022-63DD-4087-B95D-6A724E08E120Q28657398-E2B85738-FC14-44F1-BE5E-D5A0D8E540C3Q28727871-6B8B5587-27BB-47B6-846C-41BA5CE5245FQ28730011-CAC840DB-093B-4610-89ED-CAE919F6F5F1Q28730012-9FB44D44-0818-460C-8EB6-D98AF2B56B0EQ28731581-5AFE120D-BAAF-4760-84B0-08A92B2295F4Q28831080-F1433EFF-9DCC-4D22-A8DF-EF5AB272FBFBQ28834016-41382C32-569B-466E-AA1F-7BACA062D808Q30061758-80C1C488-AAB9-42FD-9CB3-D6557BC368BDQ30387704-BA5A9FE7-08DF-4976-A685-C22362DC51E6Q30514037-B8D2932B-6336-4DFD-946C-4F3834992674Q30573541-E2C8B97A-7C79-487D-8341-9BD29B10F068Q30601722-689F72B5-0DE8-4243-97D0-160AA5811720Q30607516-9A746A64-1E5F-49E7-A018-39DAAF91BA5AQ30620851-B4F6D096-0C5F-401B-8C8E-77D2EE0CF300Q30629977-FF003DBB-3257-4139-8F0F-73015FE7FFD2Q30633984-0AD79683-BFE2-4FCF-BAD3-090D6B1783F2Q30655515-B815165E-8DB8-4180-B34C-088B413DA837Q30658798-3AE9E01B-B289-49AF-9DE5-CE517EAB675DQ30661810-8E68457F-4771-42A6-BBCC-B7F309D533C1Q30679155-38039E6B-BB3B-4B44-B618-BC034ED66AACQ30693843-898FAD9E-82F3-474C-8F6E-3C82AE5B91D9Q30706431-01B09EE3-1462-4A6A-8E98-D42B4D491577Q30714672-0B0D3AFA-F187-4E26-BB6E-2446EAE6150AQ30715905-CFAD1121-1A53-449E-8A13-3FDF59766056Q30717346-6E728B05-32FB-4249-AF70-EA8891D5F490Q30720131-7F809292-8B31-46CD-977F-6219554A044BQ30726137-DAE07DC8-605C-4B5B-A5BF-A28078972E64Q30740418-3489E180-8F4C-4669-92C4-1D0ADEFD1327Q30759880-B7F15389-9C09-4B4B-83D5-4EDF9A8ACFDFQ30797840-BA14A01F-A654-4069-9103-5D3F66C740ABQ30798616-FEAE3AD3-11B5-4605-A13F-89E392147152Q30829143-884BD29F-8890-45CC-8115-5AA00C299BE2Q30830866-C9E98FF9-11D6-4A00-9285-9AD8CDBCA579Q30831529-30CB6A04-7383-4D3B-9603-58C36A7896B4Q30854711-D4EBBDBD-91D6-4CFE-8C27-B49AE3693FBDQ30855025-92E0A228-9E20-4A45-8C63-B236274BC05F
P2860
Towards an integrated framework for assessing the vulnerability of species to climate change
description
2008 nî lūn-bûn
@nan
2008 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Towards an integrated framewor ...... y of species to climate change
@ast
Towards an integrated framewor ...... y of species to climate change
@en
Towards an integrated framewor ...... y of species to climate change
@en-gb
Towards an integrated framewor ...... y of species to climate change
@nl
type
label
Towards an integrated framewor ...... y of species to climate change
@ast
Towards an integrated framewor ...... y of species to climate change
@en
Towards an integrated framewor ...... y of species to climate change
@en-gb
Towards an integrated framewor ...... y of species to climate change
@nl
altLabel
Towards an Integrated Framewor ...... y of Species to Climate Change
@en
prefLabel
Towards an integrated framewor ...... y of species to climate change
@ast
Towards an integrated framewor ...... y of species to climate change
@en
Towards an integrated framewor ...... y of species to climate change
@en-gb
Towards an integrated framewor ...... y of species to climate change
@nl
P2093
P2860
P3181
P1433
P1476
Towards an integrated framewor ...... y of species to climate change
@en
P2093
Gary Langham
Joanne L Isaac
Luke P Shoo
Stephen E Williams
P2860
P304
P3181
P356
10.1371/JOURNAL.PBIO.0060325
P407
P577
2008-12-23T00:00:00Z