Recursos Marinos y Pesquerías

Groundfish species associations with distinct oceanographic habitats in the Northern California Current

15/02/09 ,

Juan-Jorda, MJ, Barth, JA, Clarke, ME and Wakefield, WW, 2009. Groundfish species associations with distinct oceanographic habitats in the Northern California Current. Fisheries Oceanography, doi:10.1111/j.1365-2419.2008.00489.x

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MARIA JOSE JUAN-JORDA 1*, JOHN A. BARTH 1, M. E. CLARKE2 AND W. W. WAKEFIELD3

1College of Oceanic and Atmospheric Sciences, Oregon State University, 104 COAS Admin Bldg, Corvallis, OR 97331-5503, USA

2National Oceanic and Atmospheric Administration, Northwest Fisheries Science Center, 2725 Montlake Blvd. East, Seattle, WA 98112-2097, USA

3National Oceanic and Atmospheric Administration, Northwest Fisheries Science Center, 2032 SE OSU Drive Newport, OR 97365, USA

*Present address: M. J. Juan-Jorda´, Recursos Marinos y Pesquer?as, Facultad de Ciencias, Universidad de A Coruna, Alejandro de la Sota 1, 15008, A Corun˜ a, Spain

ABSTRACT

Ecosystem-based management places a strong emphasis on habitat, but little work has been done to examine how water column properties may influence the distribution, abundances and structure of groundfish assemblages. We identified and described oceanographic habitats in the northern California Current based on temperature, salinity, chlorophyll-a and the inherent variability in these factors. We then examined the distribution and the abundance of groundfishes in relation to these oceanographic habitats and conditions with the long-term goal of improving science for ecosystem-based management of the groundfish fishery of the west coast of the USA. Five summertime oceanographic habitats with distinct physical and biological characteristics were identified in the northeast Pacific Ocean off the northwest Coast of the USA: Offshore Habitat, Upwelling Habitat,majority of the associations were weak due to overlap of species distributions in the nearshore oceanographic habitats. In contrast, groundfish species showed strong associations with individual oceanographic factors, primarily depth, surface chlorophyll-a, and bottom salinity and temperature. In addition, latitudinal variations in upwelling intensity, river discharge and productivity led to the identification of three regions where high chlorophyll-a concentrations were associated with large abundances of specific groundfish species. The combined oceanographic datasets and data products that we produced have the potential to be a powerful tool for improving our knowledge of the west coast ecosystem.