Publication: Eutrophication-induced shifts in fish assemblages from a Mediterranean coastal lagoon
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Date
2025-10-24
Authors
Zamora López, Antonio ; Guerrero Gómez, Adrián ; Torralva Forero, María del Mar ; Zamora Marín, José Manuel ; Oliva Paterna, Francisco José
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Facultad de Biología
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Publisher
Elsevier
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DOI
https://doi.org/10.1016/j.scitotenv.2025.180765
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info:eu-repo/semantics/article
Description
Abstract
Eutrophication remains a critical threat affecting estuarine and coastal lagoon ecosystems, largely driven by intensified anthropogenic pressures and exacerbated by climate change. Understanding the impacts of eutrophic processes on biological communities is essential to ensure effective conservation and management of these vulnerable environments. This study investigates the ecological consequences of eutrophication-induced algal blooms and hypoxia-mediated mass mortality events on fish communities in the Mar Menor coastal lagoon (Western Mediterranean Sea). We assessed temporal changes in fish assemblage structure and composition across three different periods: a baseline reference period (2002–2004), an algal bloom period (2018–2019), and a mass mortalities period (2020–2021). For that purpose, multiple community metrics were assessed, including species richness, abundance, biomass, β-diversity, functional guilds, and species dominance. Significant disturbances in fish abundance and biomass in response to critical eutrophic events were found, though species richness remained stable. Community similarity decreased during warmer seasons of eutrophic periods, but β-diversity values remained constant. Species-specific responses highlighted a marked decline of benthic taxa closely associated with bottom habitats, while zooplanktivores and planktivores became dominant, suggesting the emergence of top-down trophic control mechanisms. Additionally, during hypoxic events, large macrobenthivorous species appeared to seek refuge in shallow and more oxygenated areas, thus leading to evident shifts in fish assemblage composition. These findings provide robust evidence of structural and functional disruption in fish assemblages under eutrophic stress conditions. Our study underscores the relevance of long-term biological monitoring and adaptive management strategies in transitional systems, particularly under future climate and nutrient enrichment scenarios.
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Citation
Science of the Total Environment 1004 (2025) 180765
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