Extensions of Island Biogeography Theory predict the scaling of functional trait composition with habitat area and isolation.
Identifieur interne : 001095 ( PubMed/Curation ); précédent : 001094; suivant : 001096Extensions of Island Biogeography Theory predict the scaling of functional trait composition with habitat area and isolation.
Auteurs : Claire Jacquet [France] ; David Mouillot [France] ; Michel Kulbicki [France] ; Dominique Gravel [Canada]Source :
- Ecology letters [ 1461-0248 ] ; 2017.
Descripteurs français
- KwdFr :
- MESH :
- physiologie : Poissons.
- Animaux, Biodiversité, Dynamique des populations, Iles, Modèles biologiques, Récifs de corail, Répartition des animaux, Écosystème.
English descriptors
- KwdEn :
- MESH :
- physiology : Fishes.
- Animal Distribution, Animals, Biodiversity, Coral Reefs, Ecosystem, Islands, Models, Biological, Population Dynamics.
Abstract
The Theory of Island Biogeography (TIB) predicts how area and isolation influence species richness equilibrium on insular habitats. However, the TIB remains silent about functional trait composition and provides no information on the scaling of functional diversity with area, an observation that is now documented in many systems. To fill this gap, we develop a probabilistic approach to predict the distribution of a trait as a function of habitat area and isolation, extending the TIB beyond the traditional species-area relationship. We compare model predictions to the body-size distribution of piscivorous and herbivorous fishes found on tropical reefs worldwide. We find that small and isolated reefs have a higher proportion of large-sized species than large and connected reefs. We also find that knowledge of species body-size and trophic position improves the predictions of fish occupancy on tropical reefs, supporting both the allometric and trophic theory of island biogeography. The integration of functional ecology to island biogeography is broadly applicable to any functional traits and provides a general probabilistic approach to study the scaling of trait distribution with habitat area and isolation.
DOI: 10.1111/ele.12716
PubMed: 28000368
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pubmed:28000368Le document en format XML
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<front><div type="abstract" xml:lang="en">The Theory of Island Biogeography (TIB) predicts how area and isolation influence species richness equilibrium on insular habitats. However, the TIB remains silent about functional trait composition and provides no information on the scaling of functional diversity with area, an observation that is now documented in many systems. To fill this gap, we develop a probabilistic approach to predict the distribution of a trait as a function of habitat area and isolation, extending the TIB beyond the traditional species-area relationship. We compare model predictions to the body-size distribution of piscivorous and herbivorous fishes found on tropical reefs worldwide. We find that small and isolated reefs have a higher proportion of large-sized species than large and connected reefs. We also find that knowledge of species body-size and trophic position improves the predictions of fish occupancy on tropical reefs, supporting both the allometric and trophic theory of island biogeography. The integration of functional ecology to island biogeography is broadly applicable to any functional traits and provides a general probabilistic approach to study the scaling of trait distribution with habitat area and isolation.</div>
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<Abstract><AbstractText>The Theory of Island Biogeography (TIB) predicts how area and isolation influence species richness equilibrium on insular habitats. However, the TIB remains silent about functional trait composition and provides no information on the scaling of functional diversity with area, an observation that is now documented in many systems. To fill this gap, we develop a probabilistic approach to predict the distribution of a trait as a function of habitat area and isolation, extending the TIB beyond the traditional species-area relationship. We compare model predictions to the body-size distribution of piscivorous and herbivorous fishes found on tropical reefs worldwide. We find that small and isolated reefs have a higher proportion of large-sized species than large and connected reefs. We also find that knowledge of species body-size and trophic position improves the predictions of fish occupancy on tropical reefs, supporting both the allometric and trophic theory of island biogeography. The integration of functional ecology to island biogeography is broadly applicable to any functional traits and provides a general probabilistic approach to study the scaling of trait distribution with habitat area and isolation.</AbstractText>
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