Limnology and Oceanography Letters (Feb 2023)
Lake salinization drives consistent losses of zooplankton abundance and diversity across coordinated mesocosm experiments
- Marie‐Pier Hébert,
- Celia C. Symons,
- Miguel Cañedo‐Argüelles,
- Shelley E. Arnott,
- Alison M. Derry,
- Vincent Fugère,
- William D. Hintz,
- Stephanie J. Melles,
- Louis Astorg,
- Henry K. Baker,
- Jennifer A. Brentrup,
- Amy L. Downing,
- Zeynep Ersoy,
- Carmen Espinosa,
- Jaclyn M. Franceschini,
- Angelina T. Giorgio,
- Norman Göbeler,
- Derek K. Gray,
- Danielle Greco,
- Emily Hassal,
- Mercedes Huynh,
- Samuel Hylander,
- Kacie L. Jonasen,
- Andrea Kirkwood,
- Silke Langenheder,
- Ola Langvall,
- Hjalmar Laudon,
- Lovisa Lind,
- Maria Lundgren,
- Alexandra McClymont,
- Lorenzo Proia,
- Rick A. Relyea,
- James A. Rusak,
- Matthew S. Schuler,
- Catherine L. Searle,
- Jonathan B. Shurin,
- Christopher F. Steiner,
- Maren Striebel,
- Simon Thibodeau,
- Pablo Urrutia Cordero,
- Lidia Vendrell‐Puigmitja,
- Gesa A. Weyhenmeyer,
- Beatrix E. Beisner
Affiliations
- Marie‐Pier Hébert
- Interuniversity Group in Limnology (GRIL) Montréal Québec Canada
- Celia C. Symons
- Department of Ecology and Evolutionary Biology University of California Irvine California USA
- Miguel Cañedo‐Argüelles
- Departament de Biologia Evolutiva, Ecologia i Ciències Ambientals (FEHM‐Lab) Institut de Recerca de l'Aigua, Universitat de Barcelona Barcelona Spain
- Shelley E. Arnott
- Department of Biology Queen's University Kingston Ontario Canada
- Alison M. Derry
- Interuniversity Group in Limnology (GRIL) Montréal Québec Canada
- Vincent Fugère
- Interuniversity Group in Limnology (GRIL) Montréal Québec Canada
- William D. Hintz
- Department of Environmental Sciences and Lake Erie Center The University of Toledo Toledo Ohio USA
- Stephanie J. Melles
- Department of Chemistry and Biology, Urban Water Research Centre Ryerson University Toronto Ontario Canada
- Louis Astorg
- Interuniversity Group in Limnology (GRIL) Montréal Québec Canada
- Henry K. Baker
- Section of Ecology, Behavior, and Evolution University of California San Diego La Jolla California USA
- Jennifer A. Brentrup
- Department of Biological Sciences Dartmouth College Hanover New Hampshire USA
- Amy L. Downing
- Department of Biology Ohio Wesleyan University Delaware Ohio USA
- Zeynep Ersoy
- 'Rui Nabeiro' Biodiversity Chair, MED‐Mediterranean Institute for Agriculture, Environment and Development, Universidade de Évora Évora Portugal
- Carmen Espinosa
- BETA Technological Center, TECNIO Network University of Vic–Central‐University of Catalonia (Uvic–UCC) Barcelona Spain
- Jaclyn M. Franceschini
- Department of Biology Wilfrid Laurier University Waterloo Ontario Canada
- Angelina T. Giorgio
- Department of Biological Sciences Rensselaer Polytechnic Institute Troy New York USA
- Norman Göbeler
- Tvärminne Zoological Station University of Helsinki Hanko Finland
- Derek K. Gray
- Department of Biology Wilfrid Laurier University Waterloo Ontario Canada
- Danielle Greco
- Department of Biology Queen's University Kingston Ontario Canada
- Emily Hassal
- Biological Science Ontario Tech University Oshawa Ontario Canada
- Mercedes Huynh
- Department of Biology Wilfrid Laurier University Waterloo Ontario Canada
- Samuel Hylander
- Centre for ecology and evolution in microbial model systems, Department of Biology and Environmental Science Linnaeus University Kalmar Sweden
- Kacie L. Jonasen
- Department of Biological Sciences Purdue University West Lafayette Indiana USA
- Andrea Kirkwood
- Biological Science Ontario Tech University Oshawa Ontario Canada
- Silke Langenheder
- Department of Ecology and Genetics/Limnology Uppsala University Uppsala Sweden
- Ola Langvall
- Unit for Field‐based Forest Research, Siljansfors Research Station Swedish University of Agricultural Science Mora Sweden
- Hjalmar Laudon
- Department of Forest Ecology Swedish University of Agricultural Science Umeå Sweden
- Lovisa Lind
- Department of Environmental and Life Sciences Karlstads University Karlstad Sweden
- Maria Lundgren
- Centre for ecology and evolution in microbial model systems, Department of Biology and Environmental Science Linnaeus University Kalmar Sweden
- Alexandra McClymont
- Department of Biology Queen's University Kingston Ontario Canada
- Lorenzo Proia
- BETA Technological Center, TECNIO Network University of Vic–Central‐University of Catalonia (Uvic–UCC) Barcelona Spain
- Rick A. Relyea
- Department of Biological Sciences, Darrin Fresh Water Institute Rensselaer Polytechnic Institute Troy New York USA
- James A. Rusak
- Department of Biology Queen's University Kingston Ontario Canada
- Matthew S. Schuler
- Department of Biology Montclair State University Montclair New Jersey USA
- Catherine L. Searle
- Department of Biological Sciences Purdue University West Lafayette Indiana USA
- Jonathan B. Shurin
- Section of Ecology, Behavior, and Evolution University of California San Diego La Jolla California USA
- Christopher F. Steiner
- Department of Biological Sciences Wayne State University Detroit Michigan USA
- Maren Striebel
- Institute for Chemistry and Biology of Marine Environment (ICBM), Carl‐von‐Ossietzky University Oldenburg Wilhelmshaven Germany
- Simon Thibodeau
- Interuniversity Group in Limnology (GRIL) Montréal Québec Canada
- Pablo Urrutia Cordero
- Department of Biology/Aquatic Ecology Lund University Lund Sweden
- Lidia Vendrell‐Puigmitja
- BETA Technological Center, TECNIO Network University of Vic–Central‐University of Catalonia (Uvic–UCC) Barcelona Spain
- Gesa A. Weyhenmeyer
- Department of Ecology and Genetics/Limnology Uppsala University Uppsala Sweden
- Beatrix E. Beisner
- Interuniversity Group in Limnology (GRIL) Montréal Québec Canada
- DOI
- https://doi.org/10.1002/lol2.10239
- Journal volume & issue
-
Vol. 8,
no. 1
pp. 19 – 29
Abstract
Abstract Human‐induced salinization increasingly threatens inland waters; yet we know little about the multifaceted response of lake communities to salt contamination. By conducting a coordinated mesocosm experiment of lake salinization across 16 sites in North America and Europe, we quantified the response of zooplankton abundance and (taxonomic and functional) community structure to a broad gradient of environmentally relevant chloride concentrations, ranging from 4 to ca. 1400 mg Cl− L−1. We found that crustaceans were distinctly more sensitive to elevated chloride than rotifers; yet, rotifers did not show compensatory abundance increases in response to crustacean declines. For crustaceans, our among‐site comparisons indicate: (1) highly consistent decreases in abundance and taxon richness with salinity; (2) widespread chloride sensitivity across major taxonomic groups (Cladocera, Cyclopoida, and Calanoida); and (3) weaker loss of functional than taxonomic diversity. Overall, our study demonstrates that aggregate properties of zooplankton communities can be adversely affected at chloride concentrations relevant to anthropogenic salinization in lakes.
