Journal
MARINE ENVIRONMENTAL RESEARCH
Volume 122, Issue -, Pages 46-58Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.marenvres.2016.09.006
Keywords
Aggregation; Bayesian mixing model; Cage aquaculture; Diet contribution; European storm-petrel; Fatty acids; Hydrobates pelagicus melitensis; Stable isotopes
Funding
- European Fisheries Fund (EFF) through Fundacion Biodiversidad (Spanish Ministry of Food, Agriculture and Environment) [20122054]
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Cage aquaculture aggregates wild fauna due to food provision. Several seabirds frequent fish farms, including the European storm-petrel (Hydrobates pelagicus melitensis). This work investigates the presence of storm-petrels around two aquaculture areas interspersed between breeding colonies in western Mediterranean Sea. Contribution of aquaculture-derived resources to their diet was assessed. Storm petrels were mist-netted at the colonies and marked by bleaching feathers. Density around aquaculture areas was estimated through visual counts. Marks recognition was conducted visually and by photo capture. Storm-petrel regurgitates were used as target tissue to estimate diet sources contribution. Contribution of surface zooplankton, ichthyoplankton and aquaculture wastes was estimated through Bayesian mixing modelling combining carbon and nitrogen stable isotopes and fatty acids as biomarkers. Storm-petrel density was high in open-sea aquaculture area, but not observed around near shore farms. Temporal variability of storm-petrels density during the breeding season was linked to their reproductive phenology. Within the open-sea aquaculture area, bluefin tuna farm was more attractive for storm petrels than seabream/seabass farms. Visual identification of bleaching marks was not useful. Photo capture showed that 8.3% of the storm-petrels watched around farms were firstly trapped in some of the nearby colonies, and 91.7% were unmarked. Qualitative evidence of aquaculture-derived wastes utilization was obtained. However, its estimated contribution was low (4.3%) when compared to ichthyoplankton (61.1%) or zooplankton (34.6%). The studied open-sea farms significantly aggregated storm petrels along their entire breeding season. Storm-petrels got a slight profit from aquaculture resources. Nevertheless, some concerns arise regarding the cost/benefit balance of the interaction. (C) 2016 Elsevier Ltd. All rights reserved.
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