Can niche-based distribution models outperform spatial interpolation?
about
Filling in the GAPS: evaluating completeness and coverage of open-access biodiversity databases in the United StatesExploring Climate Niches of Ponderosa Pine (Pinus ponderosa Douglas ex Lawson) Haplotypes in the Western United States: Implications for Evolutionary History and ConservationIncorporating spatial autocorrelation into species distribution models alters forecasts of climate-mediated range shifts.From pest data to abundance-based risk maps combining eco-physiological knowledge, weather, and habitat variability.Spatial congruency of benthic diatom, invertebrate, macrophyte, and fish assemblages in European streams.Does including physiology improve species distribution model predictions of responses to recent climate change?Historical legacies in world amphibian diversity revealed by the turnover and nestedness components of Beta diversitySpatio-temporal patterns of key exploited marine species in the Northwestern Mediterranean SeaPredicting the potential invasion suitability of regions to cassava lacebug pests (Heteroptera: Tingidae: Vatiga spp.).Spatial 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.The ecological forecast horizon, and examples of its uses and determinantsThe climate envelope may not be empty.Spatial analysis improves species distribution modelling during range expansion.Habitat-independent spatial structure in populations of some forest birds in eastern North America.Detecting the potential sympatric range and niche divergence between Asian endemic ungulates of Procapra.Downscaling species occupancy from coarse spatial scales.Using dispersal information to model the species-environment relationship of spreading non-native speciesPredicting worldwide invasiveness for four major problematic decapods: an evaluation of using different calibration setsPredicting alpha diversity of African rain forests: models based on climate and satellite-derived data do not perform better than a purely spatial modelLandscape effects on large scale abundance patterns of turtle doves Streptopelia turtur in PortugalIn search of relevant predictors for marine species distribution modelling using the MarineSPEED benchmark datasetRange structure analysis: unveiling the internal structure of species’ rangesDispersal ability modulates the strength of the latitudinal richness gradient in European beetlesSeasonality drives global-scale diversity patterns in waterfowl (Anseriformes) via temporal niche exploitationPartitioning the variation in African vertebrate distributions into environmental and spatial components - exploring the link between ecology and biogeographyCommentary on Ditch, Stitch and Pitch: the niche is here to stayEmpirical evidence for the scale dependence of biotic interactionsTesting the predictive performance of distribution modelsFactors influencing large-scale distribution of two sister species of pine voles (Microtus lusitanicus and Microtus duodecimcostatus): the importance of spatial autocorrelationAssociations between climate stress and coral reef diversity in the western Indian OceanModelling and mapping the suitability of European forest formations at 1-km resolutionShould species distribution models account for spatial autocorrelation? A test of model projections across eight millennia of climate changeModel-based inference for estimating shifts in species distribution, area occupied and centre of gravityJoint dynamic species distribution models: a tool for community ordination and spatio-temporal monitoringSpatial factor analysis: a new tool for estimating joint species distributions and correlations in species rangeImplications of community concordance for assessing stream integrity at three nested spatial scales in Minnesota, U.S.A
P2860
Q28598025-F59E2ADD-FDD8-4942-AA9F-870EAFEBD3D3Q28602487-B93328E9-F7E7-4CC6-8DCC-37BF10F8B771Q30824931-2D460744-B511-4FCA-BE12-B7E769B66440Q31143057-33FB3804-391D-40B6-8431-1B7E6C749D63Q33623927-B08ED553-0692-4C8B-92A8-26BEC6FD2BA6Q34165144-727D33BE-C815-41F0-84F3-1D8D799C3B10Q34182568-696AE4DC-743E-4FCB-B15D-35BB5BC80F1BQ34289120-7DD4ED6A-D527-4BA0-9F3F-FB31C0B1AEC3Q35530247-EFFDFA3C-D0FD-4284-8ACA-AF875F970C6DQ36195153-AA571350-A331-426E-9476-6E1B2337371EQ36310451-C6E675BC-7635-4C22-A47A-D2CBE81D44CEQ36364648-E4D5C566-FA75-49F2-9AAA-CF112502F309Q43142130-7205DA64-2E92-445F-8435-30D52C5DADF0Q43218583-0BF58B83-690B-4CFC-8B75-8D7141BCCDB1Q44617026-323FABC0-F808-4DD8-BBDD-523D52C852C4Q51558113-C8316E0A-6352-4FA7-9F78-40DEEB9F14B4Q51561228-18D309EB-2BA8-460F-A827-A64C3A15EB08Q56542840-B4A9352E-2E16-4945-A763-06F3AE0EEEDAQ56752601-CF0603C8-0213-4FA1-9EE8-05569ECE6E9FQ56832544-04698621-DC73-4893-A848-FB2046667401Q56946670-D178AD70-F35C-4003-8A62-FFC8219D8770Q56975742-318C9458-83E2-4DA6-AB5D-FA01769EEB3BQ57014629-E19BCCE8-84EB-48BC-A53B-0D8832A42662Q57021135-405B3CC5-E51D-4E31-90AB-EB164FDBB303Q57068176-56D52CC8-1844-48DD-8C2C-85B3CE66E2D0Q57191274-0610C12A-A891-4935-8DF6-D442816257D4Q57197579-BA5B9B82-E7E2-4357-8B62-D0D5C2D4ADC2Q57199434-825555BD-611E-478E-B489-4D45769F2A93Q57205139-5CD8C011-478A-4819-9A72-4983EDB52C8BQ57209521-9036046A-FD21-4843-8E40-766238DDC93DQ57509181-90530EDB-A583-4B82-9B57-254DB40D18D0Q57921943-FCF5397D-CA2F-4BF8-82CB-BD7D8426146CQ58042420-7DF600F6-C780-4BE9-94F0-DB8E27626B50Q58239051-944431D9-6F3A-4E6B-BA34-316F2DC64924Q58240313-8B041E30-3A14-49C4-B24B-E0E058B328D4Q58240315-6579B9C8-1778-4B40-A603-EE58A515BC1BQ58898009-F55B9FED-16F5-4912-B627-1D5D47655F84
P2860
Can niche-based distribution models outperform spatial interpolation?
description
article
@en
im November 2007 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в листопаді 2007
@uk
name
Can niche-based distribution models outperform spatial interpolation?
@en
Can niche-based distribution models outperform spatial interpolation?
@nl
type
label
Can niche-based distribution models outperform spatial interpolation?
@en
Can niche-based distribution models outperform spatial interpolation?
@nl
prefLabel
Can niche-based distribution models outperform spatial interpolation?
@en
Can niche-based distribution models outperform spatial interpolation?
@nl
P2860
P1476
Can niche-based distribution models outperform spatial interpolation?
@en
P2093
Brian J. McGill
Volker Bahn
P2860
P304
P356
10.1111/J.1466-8238.2007.00331.X
P577
2007-11-01T00:00:00Z