Brief overview of operational fishe

Brief overview of operational fisheries oceanography in
pelagic fisheries
Operational oceanography has been defined as the branch of
marine sciences that routinely provides high-quality observational
and modelled data for practical applications (Pinardi and Coppini,
2010). These applications include inter alia the provision of services
that minimize search time by directing fleets and fishing
vessels to areas of optimum availability of targeted species, based
on the knowledge of their behaviour under different environmental
conditions (Petit et al., 1994). SRS measurements of sea
surface temperature (SST), ocean colour, sea surface height
anomaly (SSHA), currents, and winds are the most important
datastreams that shape operational oceanography. Previous
reviews of the application of SRS information in marine fisheries
were provided by Simpson (1992, 1993) and Santos (2000), and
they include a detailed discussion of data types, operational
systems, and fisheries applications. The scope here precludes
such detail, but much has changed during the past decade
(Barale et al., 2010).
In pelagic fisheries, two themes stand out in operational application
of SRS: (i) identification of potential fishing zones (PFZs),
which takes advantage of the relationships between target species
and environmental factors, and (ii) development of management
measures, particularly minimizing the bycatch of endangered
species. Modelling fish habitat (Valavanis et al., 2008) used
fishery and SRS environmental datasets to demonstrate that the
identification of oceanographic features such as PFZs is feasible
in different ocean basins, including the Atlantic Ocean (Zagaglia
et al., 2004), the western Pacific Ocean (Zainuddin et al., 2008;
Mugo et al., 2010), and the Arabian Sea (Solanki et al., 2010).
Integration of electronic tags and SRS data to study behaviour
and habitat utilization has added an interesting dimension to
operational fisheries oceanography (Teo et al., 2007; Weng et al.,