Search results for " distance decay"

showing 3 items of 3 documents

Regional metacommunities in two coastal systems: spatial structure and drivers of plant assemblages

2014

Aim Biogeographical patterns in metacommunities are still poorly understood, and different processes are expected to occur in different habitats. We analysed the regional plant metacommunities of coastal habitats to test whether (1) the influence of space and climate differs between two habitats differentiated along the seashore–inland gradient, and (2) regional variation in species composition of these habitats can be ascribed to different metacommunity paradigms. Location The entire coast of the Iberian Peninsula, south-western Europe. Methods We collected data on the plant species composition of coastal sites on sand dunes across 3000 km of coastline. The sites were classified into two h…

vegetation databasesMetacommunityMediterranean climateDistance decaydune habitatsmetacommunityEcologyCommunity assemblyEcologydistance decaySpecies sortingenvironmental filtering15. Life on landdispersal limitationSand dune stabilizationGeographyHabitatSpatial ecologyOrdination14. Life underwaterspecies sortingCommunity assembly dispersal limitation distance decay dune habitats environmental filtering Iberian Peninsula metacommunity species sorting vegetation databasesEcology Evolution Behavior and SystematicsIberian PeninsulaJournal of Biogeography
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Gauging scale effects and biogeographical signals in similarity distance decay analyses: an Early Jurassic ammonite case study.

2016

17 pages; International audience; In biogeography, the similarity distance decay (SDD) relationship refers to the decrease in compositional similarity between communities with geographical distance. Although representing one of the most widely used relationships in biogeography, a review of the literature reveals that: (1) SDD is influenced by both spatial extent and sample size; (2) the potential effect of the phylogenetic level has yet to be tested; (3) the effect of a marked biogeographical structuring upon SDD patterns is largely unknown; and (4) the SDD relationship is usually explored with modern, mainly terrestrial organisms, whereas fossil taxa are seldom used in that perspective. U…

0106 biological sciences010506 paleontologyBiogeographyscale effectsContext (language use)Biology010603 evolutionary biology01 natural sciences[ SDE ] Environmental SciencesPaleontologySimilarity (network science)Geographical distanceprovincialismEcology Evolution Behavior and Systematicsbiogeography0105 earth and related environmental sciences[ SDU.STU.PG ] Sciences of the Universe [physics]/Earth Sciences/PaleontologyAmmoniteammonitesPhylogenetic treePaleontologyPliensbachianlanguage.human_languageTaxonsimilarity distance decay[SDE]Environmental ScienceslanguageBiological dispersal[SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology
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Data from: Gauging scale effects and biogeographical signals in similarity distance decay analyses: an Early Jurassic ammonite case study

2017

In biogeography, the similarity distance decay (SDD) relationship refers to the decrease in compositional similarity between communities with geographical distance. Although representing one of the most widely used relationships in biogeography, a review of the literature reveals that: (1) SDD is influenced by both spatial extent and sample size; (2) the potential effect of the phylogenetic level has yet to be tested; (3) the effect of a marked biogeographical structuring upon SDD patterns is largely unknown; and (4) the SDD relationship is usually explored with modern, mainly terrestrial organisms, whereas fossil taxa are seldom used in that perspective. Using this relationship, we explore…

medicine and health careSimilarity Distance DecayAmmonitesPliensbachianLife SciencesMedicineearly PliensbachianAmmonitida
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