A climate-associated multispecies cryptic cline in the northwest Atlantic

Ryan R.E. Stanley; Claudio DiBacco; Ben Lowen; Robert G. Beiko; Nick W. Jeffery; Mallory Van Wyngaarden; Paul Bentzen; David Brickman; Laura Benestan; Louis Bernatchez; Catherine Johnson; Paul V.R. Snelgrove; Zeliang Wang; Brendan F. Wringe; Ian R. Bradbury

doi:10.1126/sciadv.aaq0929

A climate-associated multispecies cryptic cline in the northwest Atlantic

Ryan R.E. Stanley, Claudio DiBacco, Ben Lowen, Robert G. Beiko, Nick W. Jeffery, Mallory Van Wyngaarden, Paul Bentzen, David Brickman, Laura Benestan, Louis Bernatchez, Catherine Johnson, Paul V.R. Snelgrove, Zeliang Wang, Brendan F. Wringe, Ian R. Bradbury

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89 Citas (Scopus)

Resumen

The spatial genetic structure of most species in the open marine environment remains largely unresolved. This information gap creates uncertainty in the sustainable management, recovery, and associated resilience of marine communities and our capacity to extrapolate beyond the few species for which such information exists. We document a previously unidentified multispecies biogeographic break aligned with a steep climatic gradient and driven by seasonal temperature minima in the northwest Atlantic. The coherence of this genetic break across our five study species with contrasting life histories suggests a pervasive macroecological phenomenon. The integration of this genetic structure with habitat suitability models and climate forecasts predicts significant variation in northward distributional shifts among populations and availability of suitable habitat in future oceans. The results of our integrated approach provide new perspective on how cryptic intraspecific diversity associated with climatic variation influences species and community response to climate change beyond simple poleward shifts.

Idioma original	English
Número de artículo	aaq0929
Publicación	Science advances
Volumen	4
N.º	3
DOI	https://doi.org/10.1126/sciadv.aaq0929
Estado	Published - mar. 28 2018

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Publisher Copyright:
© 2018 The Authors.

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General

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Journal Article
Research Support, Non-U.S. Gov't

ODS de las Naciones Unidas

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Stanley, R. R. E., DiBacco, C., Lowen, B., Beiko, R. G., Jeffery, N. W., Van Wyngaarden, M., Bentzen, P., Brickman, D., Benestan, L., Bernatchez, L., Johnson, C., Snelgrove, P. V. R., Wang, Z., Wringe, B. F., & Bradbury, I. R. (2018). A climate-associated multispecies cryptic cline in the northwest Atlantic. Science advances, 4(3), Artículo aaq0929. https://doi.org/10.1126/sciadv.aaq0929

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abstract = "The spatial genetic structure of most species in the open marine environment remains largely unresolved. This information gap creates uncertainty in the sustainable management, recovery, and associated resilience of marine communities and our capacity to extrapolate beyond the few species for which such information exists. We document a previously unidentified multispecies biogeographic break aligned with a steep climatic gradient and driven by seasonal temperature minima in the northwest Atlantic. The coherence of this genetic break across our five study species with contrasting life histories suggests a pervasive macroecological phenomenon. The integration of this genetic structure with habitat suitability models and climate forecasts predicts significant variation in northward distributional shifts among populations and availability of suitable habitat in future oceans. The results of our integrated approach provide new perspective on how cryptic intraspecific diversity associated with climatic variation influences species and community response to climate change beyond simple poleward shifts.",

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AU - Bernatchez, Louis

AU - Johnson, Catherine

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AB - The spatial genetic structure of most species in the open marine environment remains largely unresolved. This information gap creates uncertainty in the sustainable management, recovery, and associated resilience of marine communities and our capacity to extrapolate beyond the few species for which such information exists. We document a previously unidentified multispecies biogeographic break aligned with a steep climatic gradient and driven by seasonal temperature minima in the northwest Atlantic. The coherence of this genetic break across our five study species with contrasting life histories suggests a pervasive macroecological phenomenon. The integration of this genetic structure with habitat suitability models and climate forecasts predicts significant variation in northward distributional shifts among populations and availability of suitable habitat in future oceans. The results of our integrated approach provide new perspective on how cryptic intraspecific diversity associated with climatic variation influences species and community response to climate change beyond simple poleward shifts.

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A climate-associated multispecies cryptic cline in the northwest Atlantic

Resumen

Nota bibliográfica

ASJC Scopus Subject Areas

PubMed: MeSH publication types

ODS de las Naciones Unidas

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