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dc.contributor.authorTecchio, Samuele-
dc.contributor.authorColl, Marta-
dc.contributor.authorChristensen, Villy-
dc.contributor.authorCompany, Joan B.-
dc.contributor.authorRamírez-Llodra, Eva-
dc.contributor.authorSardà, Francisco-
dc.identifierdoi: 10.1016/j.dsr.2013.01.003-
dc.identifierissn: 0967-0637-
dc.identifiere-issn: 1879-0119-
dc.identifier.citationDeep-Sea Research Part I: Oceanographic Research Papers 75: 1-15 (2013)-
dc.description15 pages, 6 figures, 3 tables, 1 appendix-
dc.description.abstractThere is increasing fishing pressure on the continental margins of the oceans, and this raises concerns about the vulnerability of the ecosystems thriving there. The current knowledge of the biology of deep-water fish species identifies potential reduced resilience to anthropogenic disturbance. However, there are extreme difficulties in sampling the deep sea, resulting in poorly resolved and indirectly obtained food-web relationships. Here, we modelled the flows and biomasses of a Mediterranean deep-sea ecosystem, the Catalan Sea continental slope at depths of 1000–1400 m. This is the first model of a deep-water ecosystem in the Mediterranean Sea. The objectives were to (a) quantitatively describe the food web structure of the ecosystem, (b) examine the role of key species in the ecosystem, and (c) explore the vulnerability of this deep-sea ecosystem to potential future fishing exploitation. We used the Ecopath with Ecosim (EwE) modelling approach and software to model the ecosystem. The trophic model included 18 consumers, a marine snow group, and a sediment detritus group. Trophic network analysis identified low levels of consumer biomass cycling and low system omnivory index when compared with expected values of marine ecosystems, and higher cycling and omnivory when compared with available EwE models of shallower areas of the Mediterranean Sea. The majority of flows in the ecosystem were concentrated at the trophic level of first-order consumers (TL 2). Benthic invertebrates and demersal sharks were identified to have key ecological roles in the ecosystem. We used the dynamic temporal model Ecosim to simulate expansion of the red-shrimp benthic trawl fishery that currently operates at shallower depths, down to 800 m depth. The simulations showed reductions in fish biomass and that the state of the deep continental slope ecosystem in the western Mediterranean seems to be the result of a long-term succession process, which has reached ecological stability, and is particularly vulnerable to human impact and, specifically, to fisheries exploitation. © 2013 Elsevier Ltd. All rights reserved-
dc.description.sponsorshipThis is a contribution of the BIOFUN (CTM2007-28739-E) and PROMETEO (CTM2007-66316-C02/MAR) projects, and of the European Community HERMIONE project (FP7-226354). ST was funded by a JAE-PRE-2008 Grant from CSIC, Spain, and co-financed by the European Union. MC was funded bya European Union Marie-Curie OIF fellowship to ECOFUN, and by the Spanish national program ‘‘Ramón y Cajal’’. VC acknowledges support through the Nippon Foundation—UBC Nereus Predicting the Future Ocean Program-
dc.publisherPergamon Press-
dc.subjectEcopath with Ecosim-
dc.subjectNW Mediterranean-
dc.subjectTrawl fishery-
dc.subjectFood web-
dc.subjectDeep sea-
dc.titleFood web structure and vulnerability of a deep-sea ecosystem in the NW Mediterranean Sea-
dc.description.versionPeer Reviewed-
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