Mitigation of underwater radiated noise related to shipping and its impact on marine life: A practical approach developed in the scope of AQUO project

Christian Audoly, Tomaso Gaggero, Eric Baudin, Thomas Folegot, Enrico Rizzuto, Raúl Salinas Mullor, Michel André, Céline Rousset, Paula Kellett

Résultats de recherche: Contribution à un journalArticle 'review'Revue par des pairs

45 Citations (Scopus)

Résumé

There is increasing concern within the scientific community about the underwater noise due to anthropogenic activity and its impact on marine life, with negative consequences on biodiversity and sea resources. In that context, the European Marine Strategy Framework Directive stated in 2008 that the anthropogenic noise due to shipping was to be mitigated. To address this issue, the European Union (EU) project "Achieve QUieter Oceans by shipping noise footprint reduction" (AQUO) (www.aquo.eu) started in October 2012 with a duration of four years. The project brought together experts from shipbuilding, underwater acoustics, and bioacoustics, with a multidisciplinary approach. In this paper, after giving a brief overview of the project structure, the methodology proposed by the AQUO project to set guidelines for controlling the underwater noise from commercial shipping is presented in more detail. Such a methodology is aimed at identifying the most promising strategies for the mitigation of the impact of shipping noise on marine fauna. Different technical as well as operational solutions are evaluated by taking into account the impact on marine life, the feasibility in terms of ship design, and the cost effectiveness, also considering fuel efficiency. While technical solutions are usually more effective at the design stage both in terms of costs and performance, operational solutions can potentially be adopted without any modification to the existing fleet. Furthermore, operational prescriptions can be set by national/local authorities who cannot directly intervene on ship configurations. The different solutions have been evaluated by means of numerical modeling carried out by using a Noise Footprint AssessmentModel derived from the Quonops tool.

langue originaleAnglais
Numéro d'article2673938
Pages (de - à)373-387
Nombre de pages15
journalIEEE Journal of Oceanic Engineering
Volume42
Numéro de publication2
Les DOIs
étatPublié - 1 avr. 2017
Modification externeOui

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