A global assessment of environmental and climate influences on wetland macroinvertebrate community structure and function-Reference-Cited by-同舟云学术

A global assessment of environmental and climate influences on wetland macroinvertebrate community structure and function

Published:2024-02 Issue:2 Volume:30 Page:
ISSN:1354-1013
Container-title:Global Change Biology
language:en
Short-container-title:Global Change Biology

Author:

Epele Luis B.¹^ORCID,Williams‐Subiza Emilio A.¹,Bird Matthew S.²,Boissezon Aurelie³,Boix Dani⁴,Demierre Eliane³,Fair Conor G.⁵,García Patricia E.⁶,Gascón Stephanie⁴,Grech Marta G.¹,Greig Hamish S.⁷⁸,Jeffries Michael⁹,Kneitel Jamie M.¹⁰,Loskutova Olga¹¹^ORCID,Maltchik Leonardo¹²,Manzo Luz M.¹,Mataloni Gabriela¹³,McLean Kyle¹⁴,Mlambo Musa C.¹⁵¹⁶,Oertli Beat³,Pires Mateus Marques¹⁷^ORCID,Sala Jordi⁴,Scheibler Erica E.¹⁸,Stenert Cristina¹²^ORCID,Wu Haitao¹⁹,Wissinger Scott A.⁸²⁰²¹,Batzer Darold P.⁵

Affiliation:

1. Centro de Investigación Esquel de Montaña y Estepa Patagónica (CONICET‐UNPSJB) Esquel Chubut Argentina

2. Department of Zoology University of Johannesburg Auckland Park South Africa

3. University of Applied Sciences and Arts Western Switzerland, HEPIA Geneva Switzerland

4. GRECO, Institute of Aquatic Ecology University of Girona Girona Spain

5. Department of Entomology University of Georgia Athens Georgia USA

6. Grupo de Ecología de Sistemas Acuáticos a escala de Paisaje (GESAP) INIBIOMA, Universidad Nacional del Comahue, CONICET San Carlos de Bariloche Argentina

7. School of Biology and Ecology University of Maine Orono Maine USA

8. Rocky Mountain Biological Laboratory Gothic Colorado USA

9. Department of Geography and Environmental Sciences Northumbria University Newcastle upon Tyne UK

10. Department of Biological Sciences California State University‐Sacramento Sacramento California USA

11. Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences Syktyvkar Russia

12. Programa de Pós‐Graduação em Biologia de Ambientes Aquáticos Continentais Universidade Federal do Rio Grande, FURG Rio Grande Brazil

13. Instituto de Investigación e Ingeniería Ambiental ‐IIIA, UNSAM, CONICET Buenos Aires Argentina

14. U.S. Geological Survey Northern Prairie Wildlife Research Center Jamestown North Dakota USA

15. Department of Freshwater Invertebrates Albany Museum Makhanda (Grahamstown) South Africa

16. Department of Zoology and Entomology Rhodes University Makhanda (Grahamstown) South Africa

17. Programa de Pós‐graduação em Ambiente e Desenvolvimento Universidade do Vale do Taquari (UNIVATES) Lajeado Brazil

18. Entomology Laboratory, IADIZA CCT Mendoza CONICET National University of Cuyo Mendoza Argentina

19. Key Laboratory of Wetland Ecology and Environment, Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences Changchun China

20. Biology Department Allegheny College Meadville Pennsylvania USA

21. Environmental Science Department Allegheny College Meadville Pennsylvania USA

Abstract

AbstractEstimating organisms' responses to environmental variables and taxon associations across broad spatial scales is vital for predicting their responses to climate change. Macroinvertebrates play a major role in wetland processes, but studies simultaneously exploring both community structure and community trait responses to environmental gradients are still lacking. We compiled a global dataset (six continents) from 756 depressional wetlands, including the occurrence of 96 macroinvertebrate families, their phylogenetic tree, and 19 biological traits. Using Bayesian hierarchical joint species distribution models (JSDMs), we estimated macroinvertebrate associations and compared the influences of local and climatic predictors on both individual macroinvertebrate families and their traits. While macroinvertebrate families were mainly related to broad‐scale factors (maximum temperature and precipitation seasonality), macroinvertebrate traits were strongly related to local wetland hydroperiod. Interestingly, macroinvertebrate families and traits both showed positive and negative associations to the same environmental variables. As expected, many macroinvertebrate family occurrences were positively associated with temperature, but a few showed the opposite pattern and were found in cooler or montane regions. We also found that wetland macroinvertebrate communities would likely be affected by changing climates through alterations in traits related to precipitation seasonality, temperature seasonality, and wetland area. Temperature increases may negatively affect collector and shredder functional groups. A decrease in precipitation could lead to reductions in wetland area benefiting drought‐tolerant macroinvertebrates, but it may negatively affect macroinvertebrates lacking those adaptations. Wetland processes may be compromised through broad‐scale environmental changes altering macroinvertebrate family distributions and local hydroperiod shifts altering organism traits. Our complementary family‐based and trait‐based approaches elucidate the complex effects that climate change may produce on wetland ecosystems.

Funder

Consejo Nacional de Investigaciones Científicas y Técnicas

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/gcb.17173

Reference101 articles.

1. Invertebrates in Freshwater Wetlands

2. Ecology of Insect Communities in Nontidal Wetlands

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