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FOAM, a new simple benthic degradative module for the LAMP3D model: an application to a Mediterranean fish farm |
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| Authors: | Patrizia De Gaetano rea M Doglioli Marcello G Magaldi Paolo Vassallo & Mauro Fabiano |
| Institution: | DIFI, Dipartimento di Fisica, Universita di Genova, Genoa, Italy; Laboratoire d' Océanographie Physique et Biogéochimique, LOPB-UMR 6535, CNRS, OSU/Centre d' Oceanologie de Marseille, Aix-Marselle Universite, Marseille, France; Division of Meteorology and Physical Oceanography (MPO), Rosenstiel School of Marine and Atmospheric Science (RSMAS), University of Miami, FL, USA; DIPTERIS, Dipartimento per lo Studio del Territorio e delle sue Risorse, Universita di Genova, Genoa, Italy |
| Abstract: | The modelling framework already introduced by Doglioli, Magaldi, Vezzulli and Tucci to predict the potential impact of a marine fish farm is improved following different directions, namely (1) real historic current-metre data are used to force the simulations, (2) settling velocity values specifically targeting Mediterranean fish species are used, and (3) a new benthic degradative module, the Finite Organic Accumulation Module, is added to the modelling framework. The Finite Organic Accumulation Module uses the output of the other functional units of the modelling framework to calculate the organic load on the seabed. The Finite Organic Accumulation Module considers the natural capability of the seafloor in absorbing part of the organic load. Different remineralization rates reflect the sediment stress level according to the work of Findlay and Watling. Organic degradation for both uneaten feed and faeces is evaluated by changing the release modality (continuous and periodical) and by varying the settling velocities. It is found that the maximum impact on the benthic community is observed either for quickly sinking uneaten feed released twice a day, or for less intense near-bottom current conditions. If both the above-mentioned scenarios coexist, a high stress level is established in the sediment. The model also suggests that the use of self-feeders in cages can reduce farm impacts significantly. These results show how the new and more complete modelling framework presented here is able to improve the objectivity in the decision-making processes and how it may be successfully used for planning and monitoring purposes. |
| Keywords: | biodegradation modelling aquaculture impact Mediterranean Sea husbandry net-pen organic matter |