Aquatic connectivity: challenges and solutions in a changing climate-Reference-Cited by-同舟云学术

Aquatic connectivity: challenges and solutions in a changing climate

Published:2024-04-07 Issue:2 Volume:105 Page:392-411
ISSN:0022-1112
Container-title:Journal of Fish Biology
language:en
Short-container-title:Journal of Fish Biology

Author:

Franklin Paul A.¹^ORCID,Bašić Tea²,Davison Phil I.²,Dunkley Katie³⁴,Ellis Jonathan⁵,Gangal Mayuresh⁶⁷,González‐Ferreras Alexia M.⁸⁹,Gutmann Roberts Catherine¹⁰,Hunt Georgina⁵,Joyce Domino¹¹,Klöcker C. Antonia¹²¹³,Mawer Rachel¹⁴,Rittweg Timo¹⁵¹⁶,Stoilova Velizara¹⁷,Gutowsky Lee Frank Gordon¹⁸

Affiliation:

1. National Institute of Water & Atmospheric Research Hamilton New Zealand

2. Centre for Environment, Fisheries and Aquaculture Science Lowestoft UK

3. Christ's College, University of Cambridge Cambridge UK

4. Department of Zoology University of Cambridge Cambridge UK

5. School of Biological Sciences, University of Aberdeen Aberdeen UK

6. Manipal Academy of Higher Education Manipal India

7. Nature Conservation Foundation Mysore India

8. IHCantabria ‐ Instituto de Hidráulica Ambiental de la Universidad de Cantabria. C/Isabel Torres 15 Santander Spain

9. School of Life Sciences, University of Essex Colchester UK

10. School of Geography, Earth and Environmental Science, University of Plymouth Plymouth UK

11. Biological Sciences, School of Natural Sciences University of Hull Hull UK

12. Institute of Marine Research Tromsø Norway

13. Department of Biosciences University of Oslo Oslo Norway

14. Department of Animal Sciences and Aquatic Ecology Ghent University Ghent Belgium

15. Leibniz Institute of Freshwater Ecology and Inland Fisheries Berlin Berlin Germany

16. Division of Integrative Fisheries Management Faculty of Life Sciences, Humboldt‐Universität zu Berlin, Unter den Linden Berlin Germany

17. Department of Environmental and Life Sciences Karlstad University Karlstad Sweden

18. Fisheries and Oceans Canada, Freshwater Institute Winnipeg Manitoba Canada

Abstract

AbstractThe challenge of managing aquatic connectivity in a changing climate is exacerbated in the presence of additional anthropogenic stressors, social factors, and economic drivers. Here we discuss these issues in the context of structural and functional connectivity for aquatic biodiversity, specifically fish, in both the freshwater and marine realms. We posit that adaptive management strategies that consider shifting baselines and the socio‐ecological implications of climate change will be required to achieve management objectives. The role of renewable energy expansion, particularly hydropower, is critically examined for its impact on connectivity. We advocate for strategic spatial planning that incorporates nature‐positive solutions, ensuring climate mitigation efforts are harmonized with biodiversity conservation. We underscore the urgency of integrating robust scientific modelling with stakeholder values to define clear, adaptive management objectives. Finally, we call for innovative monitoring and predictive decision‐making tools to navigate the uncertainties inherent in a changing climate, with the goal of ensuring the resilience and sustainability of aquatic ecosystems.

Funder

Christ's College, University of Cambridge

Fisheries and Oceans Canada

Deutsche Bundesstiftung Umwelt

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/jfb.15727

Reference268 articles.

1. Environmental flows for natural, hybrid, and novel riverine ecosystems in a changing world

2. Offshore marine renewable energy devices as stepping stones across biogeographical boundaries

3. The shifting baseline syndrome as a connective concept for more informed and just responses to global environmental change

4. Connectivity, biodiversity conservation and the design of marine reserve networks for coral reefs

5. Strategic planning of hydropower development: balancing benefits and socioenvironmental costs

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