0000000000240696

AUTHOR

Vasilis Dakos

showing 3 related works from this author

Biotic homogenisation in bird communities leads to large‐scale changes in species associations

2021

The impact of global change on biodiversity is commonly assessed in terms of changes in species distributions, community richness and community composition. Whether and how much associations between species are also changing is much less documented. In this study, we quantify changes in large-scale patterns of species associations in bird communities in relation to changes in species composition. We use network approaches to build three community-aggregated indices reflecting complementary aspects of species association networks. We characterise the spatio–temporal dynamics of these indices using a large-scale and high-resolution dataset of bird co-abundances of 109 species monitored for 17…

[SDV.EE]Life Sciences [q-bio]/Ecology environmentekologiset verkostothomogenisationinteraction networklinnustolintukannatbiodiversiteettiβ-diversity[SDV.EE.ECO]Life Sciences [q-bio]/Ecology environment/EcosystemsAvifaunaspecies association[SDE]Environmental Sciencesavifaunacommunitysense organs[SDE.BE]Environmental Sciences/Biodiversity and EcologyEcology Evolution Behavior and Systematics
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Social–ecological connections across land, water, and sea demand a reprioritization of environmental management

2022

International audience; Despite many sectors of society striving for sustainability in environmental management, humans often fail to identify and act on the connections and processes responsible for social-ecological tipping points. Part of the problem is the fracturing of environmental management and social-ecological research into ecosystem domains (land, freshwater, and sea), each with different scales and resolution of data acquisition and distinct management approaches. We present a perspective on the social-ecological connections across ecosystem domains that emphasize the need for management reprioritization to effectively connect these domains. We identify critical nexus points rel…

Atmospheric ScienceEnvironmental Engineeringcumulative effectsNEW-ZEALANDympäristönhoitoCross-domainALLOCHTHONOUS INPUTEcosystem-based managementOceanographyympäristön tilaTipping pointsecosystem-based managementECOSYSTEMShilltops to oceanSCALE1172 Environmental sciencesCumulative effectsWETLAND MANAGEMENTCLIMATE-CHANGEFRESH-WATEREcologyREGIME SHIFTSGeologyRESILIENCEGeotechnical Engineering and Engineering Geologyympäristökuormitus[SDE.ES]Environmental Sciences/Environmental and Societyekosysteemit (ekologia)priorisointitipping points1181 Ecology evolutionary biologyekologinen kestävyys[SDE.BE]Environmental Sciences/Biodiversity and Ecologycross-domainHilltops to oceanMARINEsosiaaliset vaikutuksetElementa: Science of the Anthropocene
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Biotic homogenisation in bird communities leads to large-scale changes in species associations

2020

AbstractAimThe impact of global change on biodiversity is commonly assessed in terms of changes in species distributions, community richness and community composition. Whether and how much associations between species, i.e. the degree of correlation in their spatial co-occurrence, are also changing is much less documented and mostly limited to local studies of ecological networks. In this study, we quantify changes in large-scale patterns of species associations in bird communities in relation to changes in species composition.LocationFrance.Time period2001-2017.Major taxa studiedCommon breeding birds.MethodsWe use network approaches to build three community-aggregated indices reflecting co…

homogenisationbeta-diversityinteraction networkEcologyCommunity structureBiodiversityWoodlandGeneralist and specialist speciesEcological networkGeographyTaxonHabitatAvifaunaspecies associationcommunitysense organsSpecies richness
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