Omnivory in birds is a macroevolutionary sink

Diet is commonly assumed to affect the evolution of species, but few studies have directly tested its effect at macroevolutionary scales. Here we use Bayesian models of trait-dependent diversification and a comprehensive dietary database of all birds worldwide to assess speciation and extinction dyn...

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Published in	Nature communications Vol. 7; no. 1; pp. 11250 - 10
Main Authors	Burin, Gustavo, Kissling, W. Daniel, Guimarães, Paulo R., Şekercioğlu, Çağan H., Quental, Tiago B.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 07.04.2016 Nature Publishing Group Nature Portfolio
Subjects	631/158/853 631/158/857 Animals Birds Birds - classification Birds - genetics Carnivores Carnivory - physiology Diet Extinction, Biological Fishes Food Chain Food resources Genetic Speciation Herbivores Herbivory - genetics Humanities and Social Sciences Insecta Insectivores Models, Statistical multidisciplinary Omnivores Phylogeny Plant Nectar Poaceae Science Science (multidisciplinary) Speciation Species extinction
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Abstract	Diet is commonly assumed to affect the evolution of species, but few studies have directly tested its effect at macroevolutionary scales. Here we use Bayesian models of trait-dependent diversification and a comprehensive dietary database of all birds worldwide to assess speciation and extinction dynamics of avian dietary guilds (carnivores, frugivores, granivores, herbivores, insectivores, nectarivores, omnivores and piscivores). Our results suggest that omnivory is associated with higher extinction rates and lower speciation rates than other guilds, and that overall net diversification is negative. Trait-dependent models, dietary similarity and network analyses show that transitions into omnivory occur at higher rates than into any other guild. We suggest that omnivory acts as macroevolutionary sink, where its ephemeral nature is retrieved through transitions from other guilds rather than from omnivore speciation. We propose that these dynamics result from competition within and among dietary guilds, influenced by the deep-time availability and predictability of food resources. Diet is known to influence speciation, but much less is known about how this process operates at macroevolutionary scales. Using a global dietary database of birds, Burin et al . show that omnivory is associated with higher extinction and lower speciation rates compared to other guilds.
AbstractList	Diet is commonly assumed to affect the evolution of species, but few studies have directly tested its effect at macroevolutionary scales. Here we use Bayesian models of trait-dependent diversification and a comprehensive dietary database of all birds worldwide to assess speciation and extinction dynamics of avian dietary guilds (carnivores, frugivores, granivores, herbivores, insectivores, nectarivores, omnivores and piscivores). Our results suggest that omnivory is associated with higher extinction rates and lower speciation rates than other guilds, and that overall net diversification is negative. Trait-dependent models, dietary similarity and network analyses show that transitions into omnivory occur at higher rates than into any other guild. We suggest that omnivory acts as macroevolutionary sink, where its ephemeral nature is retrieved through transitions from other guilds rather than from omnivore speciation. We propose that these dynamics result from competition within and among dietary guilds, influenced by the deep-time availability and predictability of food resources. Diet is known to influence speciation, but much less is known about how this process operates at macroevolutionary scales. Using a global dietary database of birds, Burin et al . show that omnivory is associated with higher extinction and lower speciation rates compared to other guilds. Diet is commonly assumed to affect the evolution of species, but few studies have directly tested its effect at macroevolutionary scales. Here we use Bayesian models of trait-dependent diversification and a comprehensive dietary database of all birds worldwide to assess speciation and extinction dynamics of avian dietary guilds (carnivores, frugivores, granivores, herbivores, insectivores, nectarivores, omnivores and piscivores). Our results suggest that omnivory is associated with higher extinction rates and lower speciation rates than other guilds, and that overall net diversification is negative. Trait-dependent models, dietary similarity and network analyses show that transitions into omnivory occur at higher rates than into any other guild. We suggest that omnivory acts as macroevolutionary sink, where its ephemeral nature is retrieved through transitions from other guilds rather than from omnivore speciation. We propose that these dynamics result from competition within and among dietary guilds, influenced by the deep-time availability and predictability of food resources. Diet is known to influence speciation, but much less is known about how this process operates at macroevolutionary scales. Using a global dietary database of birds, Burin et al. show that omnivory is associated with higher extinction and lower speciation rates compared to other guilds. Diet is commonly assumed to affect the evolution of species, but few studies have directly tested its effect at macroevolutionary scales. Here we use Bayesian models of trait-dependent diversification and a comprehensive dietary database of all birds worldwide to assess speciation and extinction dynamics of avian dietary guilds (carnivores, frugivores, granivores, herbivores, insectivores, nectarivores, omnivores and piscivores). Our results suggest that omnivory is associated with higher extinction rates and lower speciation rates than other guilds, and that overall net diversification is negative. Trait-dependent models, dietary similarity and network analyses show that transitions into omnivory occur at higher rates than into any other guild. We suggest that omnivory acts as macroevolutionary sink, where its ephemeral nature is retrieved through transitions from other guilds rather than from omnivore speciation. We propose that these dynamics result from competition within and among dietary guilds, influenced by the deep-time availability and predictability of food resources.Diet is commonly assumed to affect the evolution of species, but few studies have directly tested its effect at macroevolutionary scales. Here we use Bayesian models of trait-dependent diversification and a comprehensive dietary database of all birds worldwide to assess speciation and extinction dynamics of avian dietary guilds (carnivores, frugivores, granivores, herbivores, insectivores, nectarivores, omnivores and piscivores). Our results suggest that omnivory is associated with higher extinction rates and lower speciation rates than other guilds, and that overall net diversification is negative. Trait-dependent models, dietary similarity and network analyses show that transitions into omnivory occur at higher rates than into any other guild. We suggest that omnivory acts as macroevolutionary sink, where its ephemeral nature is retrieved through transitions from other guilds rather than from omnivore speciation. We propose that these dynamics result from competition within and among dietary guilds, influenced by the deep-time availability and predictability of food resources.
ArticleNumber	11250
Author	Quental, Tiago B. Kissling, W. Daniel Şekercioğlu, Çağan H. Guimarães, Paulo R. Burin, Gustavo
Author_xml	– sequence: 1 givenname: Gustavo orcidid: 0000-0001-7851-0666 surname: Burin fullname: Burin, Gustavo email: gustavoburin@usp.br organization: Departamento de Ecologia, Instituto de Biociências, Universidade de São Paulo – sequence: 2 givenname: W. Daniel surname: Kissling fullname: Kissling, W. Daniel organization: Institute for Biodiversity and Ecosystem Dynamics (IBED), University of Amsterdam – sequence: 3 givenname: Paulo R. surname: Guimarães fullname: Guimarães, Paulo R. organization: Departamento de Ecologia, Instituto de Biociências, Universidade de São Paulo – sequence: 4 givenname: Çağan H. surname: Şekercioğlu fullname: Şekercioğlu, Çağan H. organization: Department of Biology, University of Utah, College of Sciences, Koç University – sequence: 5 givenname: Tiago B. surname: Quental fullname: Quental, Tiago B. email: tbquental@usp.br organization: Departamento de Ecologia, Instituto de Biociências, Universidade de São Paulo
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Snippet	Diet is commonly assumed to affect the evolution of species, but few studies have directly tested its effect at macroevolutionary scales. Here we use Bayesian... Diet is known to influence speciation, but much less is known about how this process operates at macroevolutionary scales. Using a global dietary database of...
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SubjectTerms	631/158/853 631/158/857 Animals Birds Birds - classification Birds - genetics Carnivores Carnivory - physiology Diet Extinction, Biological Fishes Food Chain Food resources Genetic Speciation Herbivores Herbivory - genetics Humanities and Social Sciences Insecta Insectivores Models, Statistical multidisciplinary Omnivores Phylogeny Plant Nectar Poaceae Science Science (multidisciplinary) Speciation Species extinction
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Title	Omnivory in birds is a macroevolutionary sink
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