Fish community reassembly after a coral mass mortality: higher trophic groups are subject to increased rates of extinction

Since Gleason and Clements, our understanding of community dynamics has been influenced by theories emphasising either dispersal or niche assembly as central to community structuring. Determining the relative importance of these processes in structuring real‐world communities remains a challenge. We...

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Published inEcology letters Vol. 18; no. 5; pp. 451 - 461
Main Authors Alonso, David, Pinyol-Gallemí, Aleix, Alcoverro, Teresa, Arthur, Rohan
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.05.2015
Subjects
Animals
Anthozoa
Archipelagoes
Biodiversity
Biogeography
community structure
Coral reef fish communities
Coral Reefs
corals
dispersal community assembly
Endangered & extinct species
Extinction
Extinction, Biological
fish communities
Fishes - classification
MacArthur and Wilson island biogeography
model validation
Models, Biological
Mortality
niche community assembly
Population Dynamics
post-disturbance community reassembly
Predators
Species extinction
stochastic extinction-colonisation models
Stochastic models
stochastic processes
trophic island biogeography
MacArthur and Wilson island biogeography
dispersal community assembly
stochastic extinction-colonisation models
post-disturbance community reassembly
trophic island biogeography
Coral reef fish communities
niche community assembly
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Abstract Since Gleason and Clements, our understanding of community dynamics has been influenced by theories emphasising either dispersal or niche assembly as central to community structuring. Determining the relative importance of these processes in structuring real‐world communities remains a challenge. We tracked reef fish community reassembly after a catastrophic coral mortality in a relatively unfished archipelago. We revisited the stochastic model underlying MacArthur and Wilson's Island Biogeography Theory, with a simple extension to account for trophic identity. Colonisation and extinction rates calculated from decadal presence‐absence data based on (1) species neutrality, (2) trophic identity and (3) site‐specificity were used to model post‐disturbance reassembly, and compared with empirical observations. Results indicate that species neutrality holds within trophic guilds, and trophic identity significantly increases overall model performance. Strikingly, extinction rates increased clearly with trophic position, indicating that fish communities may be inherently susceptible to trophic downgrading even without targeted fishing of top predators.
AbstractList Since Gleason and Clements, our understanding of community dynamics has been influenced by theories emphasising either dispersal or niche assembly as central to community structuring. Determining the relative importance of these processes in structuring real-world communities remains a challenge. We tracked reef fish community reassembly after a catastrophic coral mortality in a relatively unfished archipelago. We revisited the stochastic model underlying MacArthur and Wilson's Island Biogeography Theory, with a simple extension to account for trophic identity. Colonisation and extinction rates calculated from decadal presence-absence data based on (1) species neutrality, (2) trophic identity and (3) site-specificity were used to model post-disturbance reassembly, and compared with empirical observations. Results indicate that species neutrality holds within trophic guilds, and trophic identity significantly increases overall model performance. Strikingly, extinction rates increased clearly with trophic position, indicating that fish communities may be inherently susceptible to trophic downgrading even without targeted fishing of top predators.Since Gleason and Clements, our understanding of community dynamics has been influenced by theories emphasising either dispersal or niche assembly as central to community structuring. Determining the relative importance of these processes in structuring real-world communities remains a challenge. We tracked reef fish community reassembly after a catastrophic coral mortality in a relatively unfished archipelago. We revisited the stochastic model underlying MacArthur and Wilson's Island Biogeography Theory, with a simple extension to account for trophic identity. Colonisation and extinction rates calculated from decadal presence-absence data based on (1) species neutrality, (2) trophic identity and (3) site-specificity were used to model post-disturbance reassembly, and compared with empirical observations. Results indicate that species neutrality holds within trophic guilds, and trophic identity significantly increases overall model performance. Strikingly, extinction rates increased clearly with trophic position, indicating that fish communities may be inherently susceptible to trophic downgrading even without targeted fishing of top predators.
Since Gleason and Clements, our understanding of community dynamics has been influenced by theories emphasising either dispersal or niche assembly as central to community structuring. Determining the relative importance of these processes in structuring real‐world communities remains a challenge. We tracked reef fish community reassembly after a catastrophic coral mortality in a relatively unfished archipelago. We revisited the stochastic model underlying MacArthur and Wilson's Island Biogeography Theory, with a simple extension to account for trophic identity. Colonisation and extinction rates calculated from decadal presence‐absence data based on (1) species neutrality, (2) trophic identity and (3) site‐specificity were used to model post‐disturbance reassembly, and compared with empirical observations. Results indicate that species neutrality holds within trophic guilds, and trophic identity significantly increases overall model performance. Strikingly, extinction rates increased clearly with trophic position, indicating that fish communities may be inherently susceptible to trophic downgrading even without targeted fishing of top predators.
Author Pinyol-Gallemí, Aleix
Alonso, David
Arthur, Rohan
Alcoverro, Teresa
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  organization: Marine Benthic Ecology Group, Center for Advanced Studies (CEAB-CSIC), 17300, Blanes, Catalonia, Spain
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Keywords MacArthur and Wilson island biogeography
dispersal community assembly
stochastic extinction-colonisation models
post-disturbance community reassembly
trophic island biogeography
Coral reef fish communities
niche community assembly
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2007; 17
2011; 333
2010; 13
2010
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2008
2000; 174
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2002
2013; 340
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2000; 79
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2003; 84
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1967
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Snippet Since Gleason and Clements, our understanding of community dynamics has been influenced by theories emphasising either dispersal or niche assembly as central...
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SubjectTerms Animals
Anthozoa
Archipelagoes
Biodiversity
Biogeography
community structure
Coral reef fish communities
Coral Reefs
corals
dispersal community assembly
Endangered & extinct species
Extinction
Extinction, Biological
fish communities
Fishes - classification
MacArthur and Wilson island biogeography
model validation
Models, Biological
Mortality
niche community assembly
Population Dynamics
post-disturbance community reassembly
Predators
Species extinction
stochastic extinction-colonisation models
Stochastic models
stochastic processes
trophic island biogeography
Title Fish community reassembly after a coral mass mortality: higher trophic groups are subject to increased rates of extinction
URI https://api.istex.fr/ark:/67375/WNG-PBSVLRFX-B/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fele.12426
https://www.ncbi.nlm.nih.gov/pubmed/25782022
https://www.proquest.com/docview/1671934995
https://www.proquest.com/docview/1672610716
https://www.proquest.com/docview/1680444282
https://www.proquest.com/docview/1710234417
Volume 18
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