A Latitudinal Cline in the Taxonomic Structure of Eelgrass Epifaunal Communities is Associated With Plant Genetic Diversity

Collin P. Gross; J. Emmett Duffy; Kevin A. Hovel; Pamela L. Reynolds; Christoffer Boström; Katharyn E. Boyer; Mathieu Cusson; Johan Eklöf; Aschwin H. Engelen; Britas Klemens Eriksson; F. Joel Fodrie; John N. Griffin; Clara M. Hereu; Masakazu Hori; A. Randall Hughes; Mikhail V. Ivanov; Pablo Jorgensen; Melissa R. Kardish; Claudia Kruschel; Kun Seop Lee; Jonathan Lefcheck; Karen McGlathery; Per Olav Moksnes; Masahiro Nakaoka; Mary I. O'Connor; Nessa E. O'Connor; Jeanine L. Olsen; Robert J. Orth; Bradley J. Peterson; Henning Reiss; Francesca Rossi; Jennifer Ruesink; Erik E. Sotka; Jonas Thormar; Fiona Tomas; Richard Unsworth; Erin P. Voigt; Matthew A. Whalen; Shelby L. Ziegler; John J. Stachowicz

doi:10.1111/geb.13918

A Latitudinal Cline in the Taxonomic Structure of Eelgrass Epifaunal Communities is Associated With Plant Genetic Diversity

Collin P. Gross
, J. Emmett Duffy
, Kevin A. Hovel
, Pamela L. Reynolds
, Christoffer Boström
, Katharyn E. Boyer
, Mathieu Cusson
, Johan Eklöf
, Aschwin H. Engelen
, Britas Klemens Eriksson
, F. Joel Fodrie
, John N. Griffin
, Clara M. Hereu
, Masakazu Hori
, A. Randall Hughes
, Mikhail V. Ivanov
, Pablo Jorgensen
, Melissa R. Kardish
, Claudia Kruschel
, Kun Seop Lee

Jonathan Lefcheck, Karen McGlathery, Per Olav Moksnes, Masahiro Nakaoka, Mary I. O'Connor, Nessa E. O'Connor, Jeanine L. Olsen, Robert J. Orth, Bradley J. Peterson, Henning Reiss, Francesca Rossi, Jennifer Ruesink, Erik E. Sotka, Jonas Thormar, Fiona Tomas, Richard Unsworth, Erin P. Voigt, Matthew A. Whalen, Shelby L. Ziegler, John J. Stachowicz

University of California at Davis
Smithsonian Institution
San Diego State University
Åbo Akademi University
San Francisco State University
Université du Québec à Chicoutimi
Stockholm University
University of Algarve
University of Groningen
University of North Carolina at Chapel Hill
Swansea University
Centro de Investigacion Cientifica y de Educacion Superior de Ensenada
Fisheries Research and Education Agency
Northeastern University
St. Petersburg State University
Universidad Nacional de Mar del Plata
University of Zadar
Pusan National University
University of Maryland Center for Environmental Science
University of Virginia
University of Gothenburg
Hokkaido University
University of British Columbia
Trinity College Dublin
College of William and Mary
Nord University
Stazione Zoologica Anton Dohrn Napoli
University of Washington
College of Charleston
Institute of Marine Research
CSIC
North Carolina State University
Virginia State University
Villanova University

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Aim: Biogenic structural complexity increases mobile animal richness and abundance at local, regional and global scales, yet animal taxa vary in their response to complexity. When these taxa also vary functionally, habitat structures favouring certain taxa may have consequences for ecosystem function. We characterised global patterns of epifaunal invertebrates in eelgrass (Zostera marina) beds that varied in structural and genetic composition. Location: North America, Europe and Asia. Time Period: 2014. Major Taxa Studied: Peracarid crustaceans and gastropod molluscs. Methods: We sampled epifaunal invertebrate communities in 49 eelgrass beds across 37° latitude in two ocean basins concurrently with measurements of eelgrass genetic diversity, structural complexity and other abiotic and biotic environmental variables. We examined how species richness, abundance and community composition varied with latitude and environmental predictors using a random forest approach. We also examined how functional trait composition varied along with community structure. Results: Total species richness decreased with latitude, but this was accompanied by a taxonomic shift in dominance from peracarid crustaceans to gastropods, which exhibited different sets of functional traits. Greater eelgrass genetic diversity was strongly correlated with both richness and abundance of peracarids, but less so for gastropods. Main Conclusions: Our results add to a growing body of literature that suggests genetic variation in plant traits influences their associated faunal assemblages via habitat structure. Because peracarids and gastropods exhibited distinct functional traits, our results suggest a tentative indirect link between broad-scale variation in plant genetic diversity and ecosystem function.

Original language	English
Article number	e13918
Journal	Global Ecology and Biogeography
Volume	33
Issue number	12
DOIs	https://doi.org/10.1111/geb.13918
State	Published - Dec 2024

Keywords

amphipod
eelgrass
epifauna
gastropod
genetic diversity
isopod
latitudinal gradients
structural complexity

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10.1111/geb.13918

Cite this

Gross, C. P., Duffy, J. E., Hovel, K. A., Reynolds, P. L., Boström, C., Boyer, K. E., Cusson, M., Eklöf, J., Engelen, A. H., Eriksson, B. K., Fodrie, F. J., Griffin, J. N., Hereu, C. M., Hori, M., Hughes, A. R., Ivanov, M. V., Jorgensen, P., Kardish, M. R., Kruschel, C., ... Stachowicz, J. J. (2024). A Latitudinal Cline in the Taxonomic Structure of Eelgrass Epifaunal Communities is Associated With Plant Genetic Diversity. Global Ecology and Biogeography, 33(12), Article e13918. https://doi.org/10.1111/geb.13918

@article{76f420abc26f4c18beb70e926f54bbbf,

title = "A Latitudinal Cline in the Taxonomic Structure of Eelgrass Epifaunal Communities is Associated With Plant Genetic Diversity",

abstract = "Aim: Biogenic structural complexity increases mobile animal richness and abundance at local, regional and global scales, yet animal taxa vary in their response to complexity. When these taxa also vary functionally, habitat structures favouring certain taxa may have consequences for ecosystem function. We characterised global patterns of epifaunal invertebrates in eelgrass (Zostera marina) beds that varied in structural and genetic composition. Location: North America, Europe and Asia. Time Period: 2014. Major Taxa Studied: Peracarid crustaceans and gastropod molluscs. Methods: We sampled epifaunal invertebrate communities in 49 eelgrass beds across 37° latitude in two ocean basins concurrently with measurements of eelgrass genetic diversity, structural complexity and other abiotic and biotic environmental variables. We examined how species richness, abundance and community composition varied with latitude and environmental predictors using a random forest approach. We also examined how functional trait composition varied along with community structure. Results: Total species richness decreased with latitude, but this was accompanied by a taxonomic shift in dominance from peracarid crustaceans to gastropods, which exhibited different sets of functional traits. Greater eelgrass genetic diversity was strongly correlated with both richness and abundance of peracarids, but less so for gastropods. Main Conclusions: Our results add to a growing body of literature that suggests genetic variation in plant traits influences their associated faunal assemblages via habitat structure. Because peracarids and gastropods exhibited distinct functional traits, our results suggest a tentative indirect link between broad-scale variation in plant genetic diversity and ecosystem function.",

keywords = "amphipod, eelgrass, epifauna, gastropod, genetic diversity, isopod, latitudinal gradients, structural complexity",

author = "Gross, \{Collin P.\} and Duffy, \{J. Emmett\} and Hovel, \{Kevin A.\} and Reynolds, \{Pamela L.\} and Christoffer Bostr{\"o}m and Boyer, \{Katharyn E.\} and Mathieu Cusson and Johan Ekl{\"o}f and Engelen, \{Aschwin H.\} and Eriksson, \{Britas Klemens\} and Fodrie, \{F. Joel\} and Griffin, \{John N.\} and Hereu, \{Clara M.\} and Masakazu Hori and Hughes, \{A. Randall\} and Ivanov, \{Mikhail V.\} and Pablo Jorgensen and Kardish, \{Melissa R.\} and Claudia Kruschel and Lee, \{Kun Seop\} and Jonathan Lefcheck and Karen McGlathery and Moksnes, \{Per Olav\} and Masahiro Nakaoka and O'Connor, \{Mary I.\} and O'Connor, \{Nessa E.\} and Olsen, \{Jeanine L.\} and Orth, \{Robert J.\} and Peterson, \{Bradley J.\} and Henning Reiss and Francesca Rossi and Jennifer Ruesink and Sotka, \{Erik E.\} and Jonas Thormar and Fiona Tomas and Richard Unsworth and Voigt, \{Erin P.\} and Whalen, \{Matthew A.\} and Ziegler, \{Shelby L.\} and Stachowicz, \{John J.\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). Global Ecology and Biogeography published by John Wiley \& Sons Ltd.",

year = "2024",

month = dec,

doi = "10.1111/geb.13918",

language = "English",

volume = "33",

journal = "Global Ecology and Biogeography",

issn = "1466-822X",

number = "12",

}

Gross, CP, Duffy, JE, Hovel, KA, Reynolds, PL, Boström, C, Boyer, KE, Cusson, M, Eklöf, J, Engelen, AH, Eriksson, BK, Fodrie, FJ, Griffin, JN, Hereu, CM, Hori, M, Hughes, AR, Ivanov, MV, Jorgensen, P, Kardish, MR, Kruschel, C, Lee, KS, Lefcheck, J, McGlathery, K, Moksnes, PO, Nakaoka, M, O'Connor, MI, O'Connor, NE, Olsen, JL, Orth, RJ, Peterson, BJ, Reiss, H, Rossi, F, Ruesink, J, Sotka, EE, Thormar, J, Tomas, F, Unsworth, R, Voigt, EP, Whalen, MA, Ziegler, SL & Stachowicz, JJ 2024, 'A Latitudinal Cline in the Taxonomic Structure of Eelgrass Epifaunal Communities is Associated With Plant Genetic Diversity', Global Ecology and Biogeography, vol. 33, no. 12, e13918. https://doi.org/10.1111/geb.13918

TY - JOUR

T1 - A Latitudinal Cline in the Taxonomic Structure of Eelgrass Epifaunal Communities is Associated With Plant Genetic Diversity

AU - Gross, Collin P.

AU - Duffy, J. Emmett

AU - Hovel, Kevin A.

AU - Reynolds, Pamela L.

AU - Boström, Christoffer

AU - Boyer, Katharyn E.

AU - Cusson, Mathieu

AU - Eklöf, Johan

AU - Engelen, Aschwin H.

AU - Eriksson, Britas Klemens

AU - Fodrie, F. Joel

AU - Griffin, John N.

AU - Hereu, Clara M.

AU - Hori, Masakazu

AU - Hughes, A. Randall

AU - Ivanov, Mikhail V.

AU - Jorgensen, Pablo

AU - Kardish, Melissa R.

AU - Kruschel, Claudia

AU - Lee, Kun Seop

AU - Lefcheck, Jonathan

AU - McGlathery, Karen

AU - Moksnes, Per Olav

AU - Nakaoka, Masahiro

AU - O'Connor, Mary I.

AU - O'Connor, Nessa E.

AU - Olsen, Jeanine L.

AU - Orth, Robert J.

AU - Peterson, Bradley J.

AU - Reiss, Henning

AU - Rossi, Francesca

AU - Ruesink, Jennifer

AU - Sotka, Erik E.

AU - Thormar, Jonas

AU - Tomas, Fiona

AU - Unsworth, Richard

AU - Voigt, Erin P.

AU - Whalen, Matthew A.

AU - Ziegler, Shelby L.

AU - Stachowicz, John J.

PY - 2024/12

Y1 - 2024/12

N2 - Aim: Biogenic structural complexity increases mobile animal richness and abundance at local, regional and global scales, yet animal taxa vary in their response to complexity. When these taxa also vary functionally, habitat structures favouring certain taxa may have consequences for ecosystem function. We characterised global patterns of epifaunal invertebrates in eelgrass (Zostera marina) beds that varied in structural and genetic composition. Location: North America, Europe and Asia. Time Period: 2014. Major Taxa Studied: Peracarid crustaceans and gastropod molluscs. Methods: We sampled epifaunal invertebrate communities in 49 eelgrass beds across 37° latitude in two ocean basins concurrently with measurements of eelgrass genetic diversity, structural complexity and other abiotic and biotic environmental variables. We examined how species richness, abundance and community composition varied with latitude and environmental predictors using a random forest approach. We also examined how functional trait composition varied along with community structure. Results: Total species richness decreased with latitude, but this was accompanied by a taxonomic shift in dominance from peracarid crustaceans to gastropods, which exhibited different sets of functional traits. Greater eelgrass genetic diversity was strongly correlated with both richness and abundance of peracarids, but less so for gastropods. Main Conclusions: Our results add to a growing body of literature that suggests genetic variation in plant traits influences their associated faunal assemblages via habitat structure. Because peracarids and gastropods exhibited distinct functional traits, our results suggest a tentative indirect link between broad-scale variation in plant genetic diversity and ecosystem function.

AB - Aim: Biogenic structural complexity increases mobile animal richness and abundance at local, regional and global scales, yet animal taxa vary in their response to complexity. When these taxa also vary functionally, habitat structures favouring certain taxa may have consequences for ecosystem function. We characterised global patterns of epifaunal invertebrates in eelgrass (Zostera marina) beds that varied in structural and genetic composition. Location: North America, Europe and Asia. Time Period: 2014. Major Taxa Studied: Peracarid crustaceans and gastropod molluscs. Methods: We sampled epifaunal invertebrate communities in 49 eelgrass beds across 37° latitude in two ocean basins concurrently with measurements of eelgrass genetic diversity, structural complexity and other abiotic and biotic environmental variables. We examined how species richness, abundance and community composition varied with latitude and environmental predictors using a random forest approach. We also examined how functional trait composition varied along with community structure. Results: Total species richness decreased with latitude, but this was accompanied by a taxonomic shift in dominance from peracarid crustaceans to gastropods, which exhibited different sets of functional traits. Greater eelgrass genetic diversity was strongly correlated with both richness and abundance of peracarids, but less so for gastropods. Main Conclusions: Our results add to a growing body of literature that suggests genetic variation in plant traits influences their associated faunal assemblages via habitat structure. Because peracarids and gastropods exhibited distinct functional traits, our results suggest a tentative indirect link between broad-scale variation in plant genetic diversity and ecosystem function.

KW - amphipod

KW - eelgrass

KW - epifauna

KW - gastropod

KW - genetic diversity

KW - isopod

KW - latitudinal gradients

KW - structural complexity

UR - https://www.scopus.com/pages/publications/85205479957

U2 - 10.1111/geb.13918

DO - 10.1111/geb.13918

M3 - Article

AN - SCOPUS:85205479957

SN - 1466-822X

VL - 33

JO - Global Ecology and Biogeography

JF - Global Ecology and Biogeography

IS - 12

M1 - e13918

ER -

A Latitudinal Cline in the Taxonomic Structure of Eelgrass Epifaunal Communities is Associated With Plant Genetic Diversity

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Keywords

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