Search results for "climatic niche"

showing 6 items of 6 documents

Assessing sampling coverage of species distribution in biodiversity databases

2019

Abstract Aim Biodiversity databases are valuable resources for understanding plant species distributions and dynamics, but they may insufficiently represent the actual geographic distribution and climatic niches of species. Here we propose and test a method to assess sampling coverage of species distribution in biodiversity databases in geographic and climatic space. Location Europe. Methods Using a test selection of 808,794 vegetation plots from the European Vegetation Archive (EVA), we assessed the sampling coverage of 564 European vascular plant species across both their geographic ranges and realized climatic niches. Range maps from the Chorological Database Halle (CDH) were used as bac…

0106 biological sciencesChorological Database Halle (CDH)Range (biology)multi-scale[SDE.MCG]Environmental Sciences/Global Changesvegetation-plot databasesSpecies distributionPlant Science[SDV.BID]Life Sciences [q-bio]/Biodiversitycomputer.software_genre010603 evolutionary biology01 natural sciencesmacro-ecology333: Bodenwirtschaft und Ressourcen577: ÖkologieRealized niche widthMacroecologyEcological niche[SDV.EE]Life Sciences [q-bio]/Ecology environmentspatial scaleEcologyDatabaseNull modelvegetation plot databasesclimatic nichevascular plantSampling (statistics)species rangeVegetation15. Life on landDynamic Match Coefficient (DMC)sampling biasGeographyrealized niche1181 Ecology evolutionary biologymacroecology[SDE.BE]Environmental Sciences/Biodiversity and Ecologycomputer010606 plant biology & botanyEuropean Vegetation Archive (EVA)
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Testing macroecological abundance patterns:the relationship between local abundance and range size, range position and climatic suitability among Eur…

2020

Aim A fundamental question in macroecology centres around understanding the relationship between species' local abundance and their distribution in geographical and climatic space (i.e. the multi-dimensional climatic space or climatic niche). Here, we tested three macroecological hypotheses that link local abundance to the following range properties: (a) the abundance-range size relationship, (b) the abundance-range centre relationship and (c) the abundance-suitability relationship. Location Europe. Taxon Vascular plants. Methods Distribution range maps were extracted from the Chorological Database Halle to derive information on the range and niche sizes of 517 European vascular plant speci…

0106 biological sciencescommonness and rarityClimatic suitabilityRange (biology)[SDE.MCG]Environmental Sciences/Global ChangesCommonness and raritydistributionsRange size[SDV.BID]Life Sciences [q-bio]/Biodiversityshape010603 evolutionary biology01 natural sciencesVegetation-plot dataRealized climatic nichemodelsAbundanceniche breadthAbundance (ecology)577: ÖkologiePlant ecologyspecies distribution modelsEcology Evolution Behavior and Systematicsclimatic suitabilityrange size[SDV.EE]Life Sciences [q-bio]/Ecology environmentClimatology2. Zero hungerabundanceEcologyrealized climatic nicheEcologyEcologia vegetal010604 marine biology & hydrobiologyconservationresolutionSpecies distribution modeldynamics15. Life on landvegetation-plot data580: Pflanzen (Botanik)GeographyClimatologiacommunity[SDE.BE]Environmental Sciences/Biodiversity and EcologyResolutionVegetation‐plot data
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Climate change reshuffles northern species within their niches

2022

Climate change is a pervasive threat to biodiversity. While range shifts are a known consequence of climate warming contributing to regional community change, less is known about how species' positions shift within their climatic niches. Furthermore, whether the relative importance of different climatic variables prompting such shifts varies with changing climate remains unclear. Here we analysed four decades of data for 1,478 species of birds, mammals, butterflies, moths, plants and phytoplankton along a 1,200 km high latitudinal gradient. The relative importance of climatic drivers varied non-uniformly with progressing climate change. While species turnover among decades was limited, the …

Climate ResearchRANGE SHIFTSvaikutuksetMODELSperhosetspeciesEnvironmental Science (miscellaneous)muutosnisäkkäätkasviteläimistölajit1172 Environmental sciencesbiodiversityclimatic changeplanktonclimatic nicheEnvironmental Sciences (social aspects to be 507)FINLANDilmastonmuutoksetEXTINCTION RISKTRENDSbiodiversiteettiekologinen lokero1181 Ecology evolutionary biologylinnutMARINESocial Sciences (miscellaneous)climate-change ecology
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Climate change fosters the decline of epiphytic Lobaria species in Italy

2016

Similarly to other Mediterranean regions, Italy is expected to experience dramatic climatic changes in the coming decades. Do to their poikilohydric nature, lichens are among the most sensitive organisms to climate change and species requiring temperate-humid conditions may rapidly decline in Italy, such in the case of the epiphytic Lobaria species that are confined to humid forests. Our study, based on ecological niche modelling of occurrence data of three Lobaria species, revealed that in the next decades climate change will impact their distribution range across Italy, predicting a steep gradient of increasing range loss across time slices. Lobaria species are therefore facing a high ext…

0106 biological sciencesEpiphytic lichen010504 meteorology & atmospheric sciencesRange (biology)EvolutionClimate changeClimatic niche; Epiphytic lichens; Global change; Habitat suitability; Niche modelling; Range loss; Ecology Evolution Behavior and Systematics; Nature and Landscape Conservation010603 evolutionary biology01 natural sciencesNiche modellingBehavior and SystematicsLobariaFlagship speciesLichenGlobal changeEcology Evolution Behavior and SystematicsClimatic niche0105 earth and related environmental sciencesNature and Landscape ConservationEcological nicheExtinctionbiologyEcologyEcologyClimatic niche Epiphytic lichens Global change Habitat suitability Niche modelling Range lossbiology.organism_classificationEcology Evolution Behavior and SystematicRange lossHabitatRange loHabitat suitabilityEpiphytic lichens
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Leaps and bounds: geographical and ecological distance constrained the colonisation of the Afrotemperate by Erica.

2018

Abstract Background The coincidence of long distance dispersal (LDD) and biome shift is assumed to be the result of a multifaceted interplay between geographical distance and ecological suitability of source and sink areas. Here, we test the influence of these factors on the dispersal history of the flowering plant genus Erica (Ericaceae) across the Afrotemperate. We quantify similarity of Erica climate niches per biogeographic area using direct observations of species, and test various colonisation scenarios while estimating ancestral areas for the Erica clade using parametric biogeographic model testing. Results We infer that the overall dispersal history of Erica across the Afrotemperate…

EvolutionClimateBiomeNicheBiologyHistorical biogeographyGeographical distanceQH359-425MadagascarAnimalsPhylogenetic biome conservatismCladeClimatic niche shiftEcology Evolution Behavior and SystematicsEcosystemPhylogenyEricaEcological nicheCape floristic regionSource–sink dynamicsEcologyGeographyEcologyModel testingEvolutionary radiationBiological EvolutionColonisationGeographyAfricaBiological dispersalAfrotemperateEricaceaeResearch ArticleBMC evolutionary biology
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Data from: How do cuticular hydrocarbons evolve? Physiological constraints and climatic and biotic selection pressures act on a complex functional tr…

2016

Cuticular hydrocarbons (CHCs) cover the cuticles of virtually all insects, serving as a waterproofing agent and as a communication signal. The causes for the high CHC variation between species, and the factors influencing CHC profiles, are scarcely understood. Here, we compare CHC profiles of ant species from seven biogeographic regions, searching for physiological constraints and for climatic and biotic selection pressures. Molecule length constrained CHC composition: long-chain profiles contained fewer linear alkanes, but more hydrocarbons with disruptive features in the molecule. This is probably owing to selection on the physiology to build a semi-fluid cuticular layer, which is necessa…

medicine and health careCamponotusphysiological constraintselection pressureviscosityfungiclimatic nicheMedicineCrematogasterwater loss rateLife sciences
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