Add to ORKGAim Assessing the consequences of a future increase in non-native species introductions and native species extirpations on taxonomic similarity among fish faunas. Location World-wide. Methods We designed 42 scenarios of future species introductions and extirpations to simulate future fish composition for 1054 river basins. Using these simulated future compositions, we computed the change in taxonomic similarity among pairs of fish faunas from historical to future situation at the river basin, biogeographic realm and world scales. Results According to all our scenarios, taxonomic similarity among fish faunas will strongly increase in the future at the three spatial scales considered. Fish faunas from the Southern Hemisphere, which are curren...
Aim To define the major biogeographical regions and transition zones for freshwater fish species. Ta...
Global spread of non-native species profoundly changed the world biodiversity patterns, but how it t...
International audienceA growing interest is devoted to global-scale approaches in ecology and evolut...
International audienceAim Assessing the consequences of a future increase in non-native species intr...
The world is currently undergoing an unprecedented decline in biodiversity, which is mainly attribut...
International audienceIntroduction of non-native species have changed the composition of freshwater ...
AimHuman-mediated species introductions and extirpations have resulted in the homogenization of biot...
The introduction of exotic species is a key global threat to biodiversity. Beyond an increased risk ...
Aim Taxonomic dissimilarity between assemblages can result from two processes - the replacement of s...
The aim of the present study was to predict future changes in biodiversity attributes (richness, rar...
Aim To define the major biogeographical regions and transition zones for freshwater fish species. Ta...
Global spread of non-native species profoundly changed the world biodiversity patterns, but how it t...
International audienceA growing interest is devoted to global-scale approaches in ecology and evolut...
International audienceAim Assessing the consequences of a future increase in non-native species intr...
The world is currently undergoing an unprecedented decline in biodiversity, which is mainly attribut...
International audienceIntroduction of non-native species have changed the composition of freshwater ...
AimHuman-mediated species introductions and extirpations have resulted in the homogenization of biot...
The introduction of exotic species is a key global threat to biodiversity. Beyond an increased risk ...
Aim Taxonomic dissimilarity between assemblages can result from two processes - the replacement of s...
The aim of the present study was to predict future changes in biodiversity attributes (richness, rar...
Aim To define the major biogeographical regions and transition zones for freshwater fish species. Ta...
Global spread of non-native species profoundly changed the world biodiversity patterns, but how it t...
International audienceA growing interest is devoted to global-scale approaches in ecology and evolut...