Primary production and depth drive different trophic structure and functioning of fish assemblages in French marine ecosystems

Primary production and depth drive different trophic structure and functioning of fish assemblages in French marine ecosystems

[Display omitted] •Fish assemblage trophic structure was compared between French marine ecosystems.•2 pelagic dominated ecosystems 1 with similar benthic/pelagic contributions.•Bentho-demersal species’ biomass was higher when both sources contribute.•Differences in the nature and intensity of fluxes...

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Veröffentlicht in:Progress in oceanography 2020-07, Vol.186, p.102343, Article 102343
Hauptverfasser: Cresson, Pierre, Chouvelon, Tiphaine, Bustamante, Paco, Bănaru, Daniela, Baudrier, Jérome, Le Loc'h, François, Mauffret, Aourell, Mialet, Benoit, Spitz, Jérome, Wessel, Nathalie, Briand, Marine J., Denamiel, Margaux, Doray, Matthieu, Guillou, Gaël, Jadaud, Angélique, Lazard, Coline, Prieur, Solène, Rouquette, Manuel, Saraux, Claire, Serre, Sandrine, Timmerman, Charles-André, Verin, Yves, Harmelin-Vivien, Mireille
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Sprache:eng
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Benthic-pelagic coupling
Biodiversity and Ecology
Environmental Sciences
Fish community
Food webs
Trophodynamics
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container_issue
container_start_page 102343
container_title Progress in oceanography
container_volume 186
creator Cresson, Pierre
Chouvelon, Tiphaine
Bustamante, Paco
Bănaru, Daniela
Baudrier, Jérome
Le Loc'h, François
Mauffret, Aourell
Mialet, Benoit
Spitz, Jérome
Wessel, Nathalie
Briand, Marine J.
Denamiel, Margaux
Doray, Matthieu
Guillou, Gaël
Jadaud, Angélique
Lazard, Coline
Prieur, Solène
Rouquette, Manuel
Saraux, Claire
Serre, Sandrine
Timmerman, Charles-André
Verin, Yves
Harmelin-Vivien, Mireille
description [Display omitted] •Fish assemblage trophic structure was compared between French marine ecosystems.•2 pelagic dominated ecosystems 1 with similar benthic/pelagic contributions.•Bentho-demersal species’ biomass was higher when both sources contribute.•Differences in the nature and intensity of fluxes drive changes in assemblage composition. Investigating the drivers of fish assemblage trophic structure is a critical question, in order to better understand ecosystem functioning, predict the effects of perturbations and implement integrated management of exploited marine ecosystems. Ecosystemic surveys enabled the determination of the trophic structure of the fish assemblages in three French marine ecosystems, namely the Eastern English Channel, the Bay of Biscay and the Gulf of Lions, through the simultaneous collection of qualitative (stable isotopes and energy content) and quantitative (biomass) data. In the Bay of Biscay and in the Gulf of Lions, pelagic primary production supported at least 80% of the fish biomass production, and explained the dominance of pelagic species, but with differences resulting from the different productivity. The lower productivity in the oligotrophic Gulf of Lions led to a lower total biomass, energy density as well as the predominance of zooplankton-feeders. In contrast, fluxes in the Bay of Biscay were sufficient to support a higher biomass of pelagic piscivores, and of species with higher energy content. In the shallow Eastern English Channel, the respective contributions of pelagic and benthic sources were similar. Bentho-demersal species of higher trophic level dominated this assemblage, because of their ability to exploit both pathways. Results of the present study confirmed that fisheries-focused surveys can be used as efficient platforms to address questions about ecosystem functioning. Here, it confirmed the expected differences between ecosystems and the importance of primary production and environment as drivers of fish assemblage structure and functioning. Future studies should nevertheless develop new methods to better assess the paramount role of low trophic level consumers.
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Investigating the drivers of fish assemblage trophic structure is a critical question, in order to better understand ecosystem functioning, predict the effects of perturbations and implement integrated management of exploited marine ecosystems. Ecosystemic surveys enabled the determination of the trophic structure of the fish assemblages in three French marine ecosystems, namely the Eastern English Channel, the Bay of Biscay and the Gulf of Lions, through the simultaneous collection of qualitative (stable isotopes and energy content) and quantitative (biomass) data. In the Bay of Biscay and in the Gulf of Lions, pelagic primary production supported at least 80% of the fish biomass production, and explained the dominance of pelagic species, but with differences resulting from the different productivity. The lower productivity in the oligotrophic Gulf of Lions led to a lower total biomass, energy density as well as the predominance of zooplankton-feeders. 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subjects Benthic-pelagic coupling
Biodiversity and Ecology
Environmental Sciences
Fish community
Food webs
Trophodynamics
title Primary production and depth drive different trophic structure and functioning of fish assemblages in French marine ecosystems
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