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van Opstal, Edward J. Bordenstein, Seth R. van Opstal, Edward J. Bordenstein, Seth R. |
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| author |
van Opstal, Edward J. Bordenstein, Seth R. |
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van Opstal, Edward J. Bordenstein, Seth R. mBio Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps Virology Microbiology |
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van opstal, edward j. |
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van Opstal, Edward J. Bordenstein, Seth R. 2161-2129 2150-7511 American Society for Microbiology Virology Microbiology http://dx.doi.org/10.1128/mbio.00887-19 <jats:p> Phylosymbiosis is an ecoevolutionary hypothesis and emerging pattern in animal-microbiota studies whereby the host phylogenetic relationships parallel the community relationships of the host-associated microbiota. A central prediction of phylosymbiosis is that closely related hosts exhibit a lower microbiota beta diversity than distantly related hosts. While phylosymbiosis has emerged as a widespread trend in a field often challenged to find trends across systems, two critical and understudied questions are whether or not phylosymbiosis is consequential to host biology and if adaptive evolutionary forces underpin the pattern. Here, using germfree rearing in the phylosymbiosis model <jats:italic>Nasonia</jats:italic> , we demonstrate that early life exposure to heat-inactivated microbiota from more distantly related species poses more severe developmental and survival costs than microbiota from closely related or the same species. This study advances a functional understanding of the consequences and potential selective pressures underpinning phylosymbiosis. </jats:p> Phylosymbiosis Impacts Adaptive Traits in <i>Nasonia</i> Wasps mBio |
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10.1128/mbio.00887-19 |
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American Society for Microbiology, 2019 |
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American Society for Microbiology, 2019 |
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2161-2129 2150-7511 |
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| title |
Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_unstemmed |
Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_full |
Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
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Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_full_unstemmed |
Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_short |
Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_sort |
phylosymbiosis impacts adaptive traits in
<i>nasonia</i>
wasps |
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Virology Microbiology |
| url |
http://dx.doi.org/10.1128/mbio.00887-19 |
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2019 |
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<jats:p>
Phylosymbiosis is an ecoevolutionary hypothesis and emerging pattern in animal-microbiota studies whereby the host phylogenetic relationships parallel the community relationships of the host-associated microbiota. A central prediction of phylosymbiosis is that closely related hosts exhibit a lower microbiota beta diversity than distantly related hosts. While phylosymbiosis has emerged as a widespread trend in a field often challenged to find trends across systems, two critical and understudied questions are whether or not phylosymbiosis is consequential to host biology and if adaptive evolutionary forces underpin the pattern. Here, using germfree rearing in the phylosymbiosis model
<jats:italic>Nasonia</jats:italic>
, we demonstrate that early life exposure to heat-inactivated microbiota from more distantly related species poses more severe developmental and survival costs than microbiota from closely related or the same species. This study advances a functional understanding of the consequences and potential selective pressures underpinning phylosymbiosis.
</jats:p> |
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| description | <jats:p> Phylosymbiosis is an ecoevolutionary hypothesis and emerging pattern in animal-microbiota studies whereby the host phylogenetic relationships parallel the community relationships of the host-associated microbiota. A central prediction of phylosymbiosis is that closely related hosts exhibit a lower microbiota beta diversity than distantly related hosts. While phylosymbiosis has emerged as a widespread trend in a field often challenged to find trends across systems, two critical and understudied questions are whether or not phylosymbiosis is consequential to host biology and if adaptive evolutionary forces underpin the pattern. Here, using germfree rearing in the phylosymbiosis model <jats:italic>Nasonia</jats:italic> , we demonstrate that early life exposure to heat-inactivated microbiota from more distantly related species poses more severe developmental and survival costs than microbiota from closely related or the same species. This study advances a functional understanding of the consequences and potential selective pressures underpinning phylosymbiosis. </jats:p> |
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| spelling | van Opstal, Edward J. Bordenstein, Seth R. 2161-2129 2150-7511 American Society for Microbiology Virology Microbiology http://dx.doi.org/10.1128/mbio.00887-19 <jats:p> Phylosymbiosis is an ecoevolutionary hypothesis and emerging pattern in animal-microbiota studies whereby the host phylogenetic relationships parallel the community relationships of the host-associated microbiota. A central prediction of phylosymbiosis is that closely related hosts exhibit a lower microbiota beta diversity than distantly related hosts. While phylosymbiosis has emerged as a widespread trend in a field often challenged to find trends across systems, two critical and understudied questions are whether or not phylosymbiosis is consequential to host biology and if adaptive evolutionary forces underpin the pattern. Here, using germfree rearing in the phylosymbiosis model <jats:italic>Nasonia</jats:italic> , we demonstrate that early life exposure to heat-inactivated microbiota from more distantly related species poses more severe developmental and survival costs than microbiota from closely related or the same species. This study advances a functional understanding of the consequences and potential selective pressures underpinning phylosymbiosis. </jats:p> Phylosymbiosis Impacts Adaptive Traits in <i>Nasonia</i> Wasps mBio |
| spellingShingle | van Opstal, Edward J., Bordenstein, Seth R., mBio, Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps, Virology, Microbiology |
| title | Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_full | Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_fullStr | Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_full_unstemmed | Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_short | Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| title_sort | phylosymbiosis impacts adaptive traits in <i>nasonia</i> wasps |
| title_unstemmed | Phylosymbiosis Impacts Adaptive Traits in Nasonia Wasps |
| topic | Virology, Microbiology |
| url | http://dx.doi.org/10.1128/mbio.00887-19 |