Combining projected changes in species richness and composition reveals climate change impacts on coastal Mediterranean fish assemblages
Identifieur interne : 005707 ( Main/Exploration ); précédent : 005706; suivant : 005708Combining projected changes in species richness and composition reveals climate change impacts on coastal Mediterranean fish assemblages
Auteurs : Camille Albouy [France] ; François Guilhaumon [Portugal] ; Miguel B. Araújo [Portugal, Espagne, Danemark] ; David Mouillot [France, Australie] ; Fabien Leprieur [France]Source :
- Global Change Biology [ 1354-1013 ] ; 2012-10.
Descripteurs français
- Pascal (Inist)
- Wicri :
English descriptors
- KwdEn :
- Adriatic, Adriatic seas, Aegean seas, Animal community, Araujo, Assemblage, Assemblage composition, Assemblage moves, Baselga, Baseline time period, Beta, Beta diversity, Bioclimate, Bioclimatic envelope modelling, Bioclimatic envelope models, Biodiversity, Biodiversity chair, Bjac, Bjne, Bjtu, Blackwell publishing, Bratio, Bratio index, Bratio values, Case study, Climate change, Climate change impacts, Climate change scenarios, Climate warming, Coastal, Coastal mediterranean, Continental shelf, Development core team, Different processes, Different scenarios, Dissimilarity, Dissimilarity index, Eastern mediterranean, Ecological abundance, Ecology, Ecology evolution, Ecology letters, Ecoregions, Ecosystem, Ensemble forecasting, Environmental conditions, Fauna, Froese pauly, Full species replacement, Functional redundancy, Functional traits, Geographical ranges, Global, Global change, Global change biology, Global ecology, Global warming scenario, Joint exploration, Lasram, Local assemblages, Mapping strategy, Marine ecology progress series, Marine ecoregions, Marine environment, Marine science, Mediterranean, Mediterranean Sea, Mediterranean system, Models, National academy, Nested subset, Nestedness, Nestedness component, Nestedness components, Northern part, Occurrence maps, Phylogenetic diversity, Pisces, Potential effects, Potential future, Previous studies, Rais, Rais lasram, Relative contribution, Richness, Richness difference, Scenario, Second modelled periods, Second period, Several areas, Several regions, Sole driver, Spatial patterns, Species, Species assemblages, Species composition, Species distribution, Species distribution models, Species distributions, Species gain, Species gains, Species loss, Species replacement, Species replacement component, Species richness, Temporal turnover, Thuiller, Time periods, Time step, True skill statistic, Turnover, Turnover index.
- Teeft :
- Adriatic, Adriatic seas, Aegean seas, Araujo, Assemblage, Assemblage composition, Assemblage moves, Baselga, Baseline time period, Beta, Beta diversity, Bioclimatic envelope modelling, Bioclimatic envelope models, Biodiversity, Biodiversity chair, Bjac, Bjne, Bjtu, Blackwell publishing, Bratio, Bratio index, Bratio values, Case study, Climate change, Climate change impacts, Climate change scenarios, Climate warming, Coastal, Coastal mediterranean, Continental shelf, Development core team, Different processes, Different scenarios, Dissimilarity, Dissimilarity index, Eastern mediterranean, Ecology, Ecology evolution, Ecology letters, Ecoregions, Ecosystem, Ensemble forecasting, Environmental conditions, Fauna, Froese pauly, Full species replacement, Functional redundancy, Functional traits, Geographical ranges, Global, Global change, Global change biology, Global ecology, Global warming scenario, Joint exploration, Lasram, Local assemblages, Mapping strategy, Marine ecology progress series, Marine ecoregions, Marine science, Mediterranean, Mediterranean system, National academy, Nestedness, Nestedness component, Nestedness components, Northern part, Occurrence maps, Phylogenetic diversity, Potential effects, Potential future, Previous studies, Rais, Rais lasram, Relative contribution, Richness, Richness difference, Scenario, Second modelled periods, Second period, Several areas, Several regions, Sole driver, Spatial patterns, Species, Species assemblages, Species composition, Species distribution, Species distribution models, Species distributions, Species gain, Species gains, Species loss, Species replacement, Species replacement component, Species richness, Temporal turnover, Thuiller, Time periods, Time step, True skill statistic, Turnover, Turnover index.
Abstract
Species Temporal Turnover (STT) is one of the most familiar metrics to assess changes in assemblage composition as a consequence of climate change. However, STT mixes two components in one metric, changes in assemblage composition caused by a process of species loss or gain (i.e. the nestedness component) and changes in assemblage composition caused by a process of species replacement (i.e. the species replacement component). Drawing on previous studies investigating spatial patterns of beta diversity, we propose measures of STT that allow analysing each component (species replacement vs. nestedness), separately. We also present a mapping strategy to simultaneously visualize changes in species richness and assemblage composition. To illustrate our approach, we used the Mediterranean coastal fish fauna as a case study. Using Bioclimatic Envelope Models (BEMs) we first projected the potential future climatic niches of 288 coastal Mediterranean fish species based on a global warming scenario. We then aggregated geographically the species‐level projections to analyse the projected changes in species richness and composition. Our results show that projected changes in assemblage composition are caused by different processes (species replacement vs. nestedness) in several areas of the Mediterranean Sea. In addition, our mapping strategy highlights that the coastal fish fauna in several regions of the Mediterranean Sea could experience a ‘cul‐de‐sac’ effect if exposed to climate warming. Overall, the joint exploration of changes in species richness and composition coupled with the distinction between species replacement and nestedness bears important information for understanding the nature of climate change impacts on biodiversity. These methodological advances should help decision‐makers in prioritizing action in the areas facing the greatest vulnerability to climate.
Url:
DOI: 10.1111/j.1365-2486.2012.02772.x
Affiliations:
- Australie, Danemark, Espagne, France, Portugal
- Hovedstaden, Languedoc-Roussillon, Occitanie (région administrative)
- Copenhague, Montpellier
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Le document en format XML
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xml:lang="en"><term>Adriatic</term><term>Adriatic seas</term><term>Aegean seas</term><term>Animal community</term><term>Araujo</term><term>Assemblage</term><term>Assemblage composition</term><term>Assemblage moves</term><term>Baselga</term><term>Baseline time period</term><term>Beta</term><term>Beta diversity</term><term>Bioclimate</term><term>Bioclimatic envelope modelling</term><term>Bioclimatic envelope models</term><term>Biodiversity</term><term>Biodiversity chair</term><term>Bjac</term><term>Bjne</term><term>Bjtu</term><term>Blackwell publishing</term><term>Bratio</term><term>Bratio index</term><term>Bratio values</term><term>Case study</term><term>Climate change</term><term>Climate change impacts</term><term>Climate change scenarios</term><term>Climate warming</term><term>Coastal</term><term>Coastal mediterranean</term><term>Continental shelf</term><term>Development core team</term><term>Different processes</term><term>Different scenarios</term><term>Dissimilarity</term><term>Dissimilarity index</term><term>Eastern mediterranean</term><term>Ecological abundance</term><term>Ecology</term><term>Ecology evolution</term><term>Ecology letters</term><term>Ecoregions</term><term>Ecosystem</term><term>Ensemble forecasting</term><term>Environmental conditions</term><term>Fauna</term><term>Froese pauly</term><term>Full species replacement</term><term>Functional redundancy</term><term>Functional traits</term><term>Geographical ranges</term><term>Global</term><term>Global change</term><term>Global change biology</term><term>Global ecology</term><term>Global warming scenario</term><term>Joint exploration</term><term>Lasram</term><term>Local assemblages</term><term>Mapping strategy</term><term>Marine ecology progress series</term><term>Marine ecoregions</term><term>Marine environment</term><term>Marine science</term><term>Mediterranean</term><term>Mediterranean Sea</term><term>Mediterranean system</term><term>Models</term><term>National academy</term><term>Nested subset</term><term>Nestedness</term><term>Nestedness component</term><term>Nestedness components</term><term>Northern part</term><term>Occurrence maps</term><term>Phylogenetic diversity</term><term>Pisces</term><term>Potential effects</term><term>Potential future</term><term>Previous studies</term><term>Rais</term><term>Rais lasram</term><term>Relative contribution</term><term>Richness</term><term>Richness difference</term><term>Scenario</term><term>Second modelled periods</term><term>Second period</term><term>Several areas</term><term>Several regions</term><term>Sole driver</term><term>Spatial patterns</term><term>Species</term><term>Species assemblages</term><term>Species composition</term><term>Species distribution</term><term>Species distribution models</term><term>Species distributions</term><term>Species gain</term><term>Species gains</term><term>Species loss</term><term>Species replacement</term><term>Species replacement component</term><term>Species richness</term><term>Temporal turnover</term><term>Thuiller</term><term>Time periods</term><term>Time step</term><term>True skill statistic</term><term>Turnover</term><term>Turnover index</term></keywords><keywords scheme="Pascal" xml:lang="fr"><term>Abondance écologique</term><term>Bioclimat</term><term>Changement climatique</term><term>Communauté animale</term><term>Diversité bêta</term><term>Mer Méditerranée</term><term>Milieu marin</term><term>Modèle</term><term>Pisces</term><term>Richesse spécifique</term><term>Série emboîtée</term><term>Turnover</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Adriatic</term><term>Adriatic seas</term><term>Aegean seas</term><term>Araujo</term><term>Assemblage</term><term>Assemblage composition</term><term>Assemblage moves</term><term>Baselga</term><term>Baseline time period</term><term>Beta</term><term>Beta diversity</term><term>Bioclimatic envelope modelling</term><term>Bioclimatic envelope models</term><term>Biodiversity</term><term>Biodiversity chair</term><term>Bjac</term><term>Bjne</term><term>Bjtu</term><term>Blackwell publishing</term><term>Bratio</term><term>Bratio index</term><term>Bratio values</term><term>Case study</term><term>Climate change</term><term>Climate change impacts</term><term>Climate change scenarios</term><term>Climate warming</term><term>Coastal</term><term>Coastal mediterranean</term><term>Continental shelf</term><term>Development core team</term><term>Different processes</term><term>Different scenarios</term><term>Dissimilarity</term><term>Dissimilarity index</term><term>Eastern mediterranean</term><term>Ecology</term><term>Ecology evolution</term><term>Ecology letters</term><term>Ecoregions</term><term>Ecosystem</term><term>Ensemble forecasting</term><term>Environmental conditions</term><term>Fauna</term><term>Froese pauly</term><term>Full species replacement</term><term>Functional redundancy</term><term>Functional traits</term><term>Geographical ranges</term><term>Global</term><term>Global change</term><term>Global change biology</term><term>Global ecology</term><term>Global warming scenario</term><term>Joint exploration</term><term>Lasram</term><term>Local assemblages</term><term>Mapping strategy</term><term>Marine ecology progress series</term><term>Marine ecoregions</term><term>Marine science</term><term>Mediterranean</term><term>Mediterranean system</term><term>National academy</term><term>Nestedness</term><term>Nestedness component</term><term>Nestedness components</term><term>Northern part</term><term>Occurrence maps</term><term>Phylogenetic diversity</term><term>Potential effects</term><term>Potential future</term><term>Previous studies</term><term>Rais</term><term>Rais lasram</term><term>Relative contribution</term><term>Richness</term><term>Richness difference</term><term>Scenario</term><term>Second modelled periods</term><term>Second period</term><term>Several areas</term><term>Several regions</term><term>Sole driver</term><term>Spatial patterns</term><term>Species</term><term>Species assemblages</term><term>Species composition</term><term>Species distribution</term><term>Species distribution models</term><term>Species distributions</term><term>Species gain</term><term>Species gains</term><term>Species loss</term><term>Species replacement</term><term>Species replacement component</term><term>Species richness</term><term>Temporal turnover</term><term>Thuiller</term><term>Time periods</term><term>Time step</term><term>True skill statistic</term><term>Turnover</term><term>Turnover index</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Biodiversité</term><term>Changement climatique</term><term>Mer Méditerranée</term><term>Milieu marin</term><term>étude de cas</term><term>Changement climatique</term><term>Plateau continental</term><term>écologie</term><term>écosystème</term><term>Chiffre d'affaires</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">Species Temporal Turnover (STT) is one of the most familiar metrics to assess changes in assemblage composition as a consequence of climate change. However, STT mixes two components in one metric, changes in assemblage composition caused by a process of species loss or gain (i.e. the nestedness component) and changes in assemblage composition caused by a process of species replacement (i.e. the species replacement component). Drawing on previous studies investigating spatial patterns of beta diversity, we propose measures of STT that allow analysing each component (species replacement vs. nestedness), separately. We also present a mapping strategy to simultaneously visualize changes in species richness and assemblage composition. To illustrate our approach, we used the Mediterranean coastal fish fauna as a case study. Using Bioclimatic Envelope Models (BEMs) we first projected the potential future climatic niches of 288 coastal Mediterranean fish species based on a global warming scenario. We then aggregated geographically the species‐level projections to analyse the projected changes in species richness and composition. Our results show that projected changes in assemblage composition are caused by different processes (species replacement vs. nestedness) in several areas of the Mediterranean Sea. In addition, our mapping strategy highlights that the coastal fish fauna in several regions of the Mediterranean Sea could experience a ‘cul‐de‐sac’ effect if exposed to climate warming. Overall, the joint exploration of changes in species richness and composition coupled with the distinction between species replacement and nestedness bears important information for understanding the nature of climate change impacts on biodiversity. These methodological advances should help decision‐makers in prioritizing action in the areas facing the greatest vulnerability to climate.</div></front></TEI><affiliations><list><country><li>Australie</li><li>Danemark</li><li>Espagne</li><li>France</li><li>Portugal</li></country><region><li>Hovedstaden</li><li>Languedoc-Roussillon</li><li>Occitanie (région administrative)</li></region><settlement><li>Copenhague</li><li>Montpellier</li></settlement></list><tree><country name="France"><region name="Occitanie (région administrative)"><name sortKey="Albouy, Camille" sort="Albouy, Camille" uniqKey="Albouy C" first="Camille" last="Albouy">Camille Albouy</name></region><name sortKey="Albouy, Camille" sort="Albouy, Camille" uniqKey="Albouy C" first="Camille" last="Albouy">Camille Albouy</name><name sortKey="Leprieur, Fabien" sort="Leprieur, Fabien" uniqKey="Leprieur F" first="Fabien" last="Leprieur">Fabien Leprieur</name><name sortKey="Mouillot, David" sort="Mouillot, David" uniqKey="Mouillot D" first="David" last="Mouillot">David Mouillot</name></country><country name="Portugal"><noRegion><name sortKey="Guilhaumon, Francois" sort="Guilhaumon, Francois" uniqKey="Guilhaumon F" first="François" last="Guilhaumon">François Guilhaumon</name></noRegion><name sortKey="Araujo, Miguel B" sort="Araujo, Miguel B" uniqKey="Araujo M" first="Miguel B." last="Araújo">Miguel B. Araújo</name></country><country name="Espagne"><noRegion><name sortKey="Araujo, Miguel B" sort="Araujo, Miguel B" uniqKey="Araujo M" first="Miguel B." last="Araújo">Miguel B. Araújo</name></noRegion></country><country name="Danemark"><region name="Hovedstaden"><name sortKey="Araujo, Miguel B" sort="Araujo, Miguel B" uniqKey="Araujo M" first="Miguel B." last="Araújo">Miguel B. Araújo</name></region></country><country name="Australie"><noRegion><name sortKey="Mouillot, David" sort="Mouillot, David" uniqKey="Mouillot D" first="David" last="Mouillot">David Mouillot</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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