A Pleistocene legacy structures variation in modern seagrass ecosystems

Distribution of Earth’s biomes is structured by the match between climate and plant traits, which in turn shape associated communities and ecosystem processes and services. However, that climate–trait match can be disrupted by historical events, with lasting ecosystem impacts. As Earth’s environment...

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Autores principales: Duffy, J. Emmett, Stachowicz, John J., Reynolds, Pamela L., Hovel, Kevin A., Jahnke, Marlene, Sotka, Erik E., Boström, Christoffer, Boyer, Katharyn E., Cusson, Mathieu, Eklöf, Johan, Engelen, Aschwin H., Eriksson, Britas Klemens, Fodrie, F. Joel, Griffin, John N., Hereu, Clara M., Hori, Masakazu, Hughes, A. Randall, Ivanov, Mikhail V., Jorgensen, Pablo, Kruschel, Claudia, Lee, Kun-Seop, Lefcheck, Jonathan S., Moksnes, Per-Olav, Nakaoka, Masahiro, O’Connor, Mary I., O’Connor, Nessa E., Orth, Robert J., Peterson, Bradley J., Reiss, Henning, Reiss, Katrin, Richardson, J. Paul, Rossi, Francesca, Ruesink, Jennifer L., Schultz, Stewart T., Thormar, Jonas, Tomas, Fiona, Unsworth, Richard, Voigt, Erin, Whalen, Matthew A., Ziegler, Shelby L., Olsen, Jeanine L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2022
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9371661/
https://www.ncbi.nlm.nih.gov/pubmed/35914147
http://dx.doi.org/10.1073/pnas.2121425119
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author Duffy, J. Emmett
Stachowicz, John J.
Reynolds, Pamela L.
Hovel, Kevin A.
Jahnke, Marlene
Sotka, Erik E.
Boström, Christoffer
Boyer, Katharyn E.
Cusson, Mathieu
Eklöf, Johan
Engelen, Aschwin H.
Eriksson, Britas Klemens
Fodrie, F. Joel
Griffin, John N.
Hereu, Clara M.
Hori, Masakazu
Hughes, A. Randall
Ivanov, Mikhail V.
Jorgensen, Pablo
Kruschel, Claudia
Lee, Kun-Seop
Lefcheck, Jonathan S.
Moksnes, Per-Olav
Nakaoka, Masahiro
O’Connor, Mary I.
O’Connor, Nessa E.
Orth, Robert J.
Peterson, Bradley J.
Reiss, Henning
Reiss, Katrin
Richardson, J. Paul
Rossi, Francesca
Ruesink, Jennifer L.
Schultz, Stewart T.
Thormar, Jonas
Tomas, Fiona
Unsworth, Richard
Voigt, Erin
Whalen, Matthew A.
Ziegler, Shelby L.
Olsen, Jeanine L.
author_facet Duffy, J. Emmett
Stachowicz, John J.
Reynolds, Pamela L.
Hovel, Kevin A.
Jahnke, Marlene
Sotka, Erik E.
Boström, Christoffer
Boyer, Katharyn E.
Cusson, Mathieu
Eklöf, Johan
Engelen, Aschwin H.
Eriksson, Britas Klemens
Fodrie, F. Joel
Griffin, John N.
Hereu, Clara M.
Hori, Masakazu
Hughes, A. Randall
Ivanov, Mikhail V.
Jorgensen, Pablo
Kruschel, Claudia
Lee, Kun-Seop
Lefcheck, Jonathan S.
Moksnes, Per-Olav
Nakaoka, Masahiro
O’Connor, Mary I.
O’Connor, Nessa E.
Orth, Robert J.
Peterson, Bradley J.
Reiss, Henning
Reiss, Katrin
Richardson, J. Paul
Rossi, Francesca
Ruesink, Jennifer L.
Schultz, Stewart T.
Thormar, Jonas
Tomas, Fiona
Unsworth, Richard
Voigt, Erin
Whalen, Matthew A.
Ziegler, Shelby L.
Olsen, Jeanine L.
author_sort Duffy, J. Emmett
collection PubMed
description Distribution of Earth’s biomes is structured by the match between climate and plant traits, which in turn shape associated communities and ecosystem processes and services. However, that climate–trait match can be disrupted by historical events, with lasting ecosystem impacts. As Earth’s environment changes faster than at any time in human history, critical questions are whether and how organismal traits and ecosystems can adjust to altered conditions. We quantified the relative importance of current environmental forcing versus evolutionary history in shaping the growth form (stature and biomass) and associated community of eelgrass (Zostera marina), a widespread foundation plant of marine ecosystems along Northern Hemisphere coastlines, which experienced major shifts in distribution and genetic composition during the Pleistocene. We found that eelgrass stature and biomass retain a legacy of the Pleistocene colonization of the Atlantic from the ancestral Pacific range and of more recent within-basin bottlenecks and genetic differentiation. This evolutionary legacy in turn influences the biomass of associated algae and invertebrates that fuel coastal food webs, with effects comparable to or stronger than effects of current environmental forcing. Such historical lags in phenotypic acclimatization may constrain ecosystem adjustments to rapid anthropogenic climate change, thus altering predictions about the future functioning of ecosystems.
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spelling pubmed-93716612022-08-12 A Pleistocene legacy structures variation in modern seagrass ecosystems Duffy, J. Emmett Stachowicz, John J. Reynolds, Pamela L. Hovel, Kevin A. Jahnke, Marlene Sotka, Erik E. Boström, Christoffer Boyer, Katharyn E. Cusson, Mathieu Eklöf, Johan Engelen, Aschwin H. Eriksson, Britas Klemens Fodrie, F. Joel Griffin, John N. Hereu, Clara M. Hori, Masakazu Hughes, A. Randall Ivanov, Mikhail V. Jorgensen, Pablo Kruschel, Claudia Lee, Kun-Seop Lefcheck, Jonathan S. Moksnes, Per-Olav Nakaoka, Masahiro O’Connor, Mary I. O’Connor, Nessa E. Orth, Robert J. Peterson, Bradley J. Reiss, Henning Reiss, Katrin Richardson, J. Paul Rossi, Francesca Ruesink, Jennifer L. Schultz, Stewart T. Thormar, Jonas Tomas, Fiona Unsworth, Richard Voigt, Erin Whalen, Matthew A. Ziegler, Shelby L. Olsen, Jeanine L. Proc Natl Acad Sci U S A Biological Sciences Distribution of Earth’s biomes is structured by the match between climate and plant traits, which in turn shape associated communities and ecosystem processes and services. However, that climate–trait match can be disrupted by historical events, with lasting ecosystem impacts. As Earth’s environment changes faster than at any time in human history, critical questions are whether and how organismal traits and ecosystems can adjust to altered conditions. We quantified the relative importance of current environmental forcing versus evolutionary history in shaping the growth form (stature and biomass) and associated community of eelgrass (Zostera marina), a widespread foundation plant of marine ecosystems along Northern Hemisphere coastlines, which experienced major shifts in distribution and genetic composition during the Pleistocene. We found that eelgrass stature and biomass retain a legacy of the Pleistocene colonization of the Atlantic from the ancestral Pacific range and of more recent within-basin bottlenecks and genetic differentiation. This evolutionary legacy in turn influences the biomass of associated algae and invertebrates that fuel coastal food webs, with effects comparable to or stronger than effects of current environmental forcing. Such historical lags in phenotypic acclimatization may constrain ecosystem adjustments to rapid anthropogenic climate change, thus altering predictions about the future functioning of ecosystems. National Academy of Sciences 2022-08-01 2022-08-09 /pmc/articles/PMC9371661/ /pubmed/35914147 http://dx.doi.org/10.1073/pnas.2121425119 Text en Copyright © 2022 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Duffy, J. Emmett
Stachowicz, John J.
Reynolds, Pamela L.
Hovel, Kevin A.
Jahnke, Marlene
Sotka, Erik E.
Boström, Christoffer
Boyer, Katharyn E.
Cusson, Mathieu
Eklöf, Johan
Engelen, Aschwin H.
Eriksson, Britas Klemens
Fodrie, F. Joel
Griffin, John N.
Hereu, Clara M.
Hori, Masakazu
Hughes, A. Randall
Ivanov, Mikhail V.
Jorgensen, Pablo
Kruschel, Claudia
Lee, Kun-Seop
Lefcheck, Jonathan S.
Moksnes, Per-Olav
Nakaoka, Masahiro
O’Connor, Mary I.
O’Connor, Nessa E.
Orth, Robert J.
Peterson, Bradley J.
Reiss, Henning
Reiss, Katrin
Richardson, J. Paul
Rossi, Francesca
Ruesink, Jennifer L.
Schultz, Stewart T.
Thormar, Jonas
Tomas, Fiona
Unsworth, Richard
Voigt, Erin
Whalen, Matthew A.
Ziegler, Shelby L.
Olsen, Jeanine L.
A Pleistocene legacy structures variation in modern seagrass ecosystems
title A Pleistocene legacy structures variation in modern seagrass ecosystems
title_full A Pleistocene legacy structures variation in modern seagrass ecosystems
title_fullStr A Pleistocene legacy structures variation in modern seagrass ecosystems
title_full_unstemmed A Pleistocene legacy structures variation in modern seagrass ecosystems
title_short A Pleistocene legacy structures variation in modern seagrass ecosystems
title_sort pleistocene legacy structures variation in modern seagrass ecosystems
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9371661/
https://www.ncbi.nlm.nih.gov/pubmed/35914147
http://dx.doi.org/10.1073/pnas.2121425119
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