Relationships Between Spawning Ground Identity, Latitude and Early Life Thermal Exposure in Northeast Arctic Cod

The Northeast Arctic cod (Gadus morhua), is well known for extensive upstream migrations from its feeding grounds in the Barents Sea to various spawning banks along the Norwegian coast. Prior to the 1990s these banks were located on a wide latitudinal range from Finnmark (~71º N) to Møre (~63º N), o...

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Bibliographic Details
Main Authors: A. F. Opdal, F. B. Vikebø, Ø. Fiksen
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
Arctic
Barents Sea
Lofoten
Norway
Arctic cod
Finnmark
Gadus morhua
Northeast Arctic cod
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.500.2568
http://www.bio.uib.no/modelling/papers/Opdal_2008_Relationships_between.pdf
Description
Summary:The Northeast Arctic cod (Gadus morhua), is well known for extensive upstream migrations from its feeding grounds in the Barents Sea to various spawning banks along the Norwegian coast. Prior to the 1990s these banks were located on a wide latitudinal range from Finnmark (~71º N) to Møre (~63º N), or even to the south-western parts of Norway (~60º N), with the highest densities around Lofoten (~69º N). The migration is energetically costly, but may be profitable if offspring experience warmer water, higher growth rates and lower mortality. To investigate if such a tempera-ture-benefit-hypothesis is plausible, we utilize a regional oceanographic model system (ROMS) and a particle tracking model to trace the drift of particles (virtual cod larvae) released at six important spawning grounds along a north-south gradient. We did this for two years with contrasting oceano-graphic conditions, and we assume the integrated ambient temperature of each particle determines growth potential during the northbound drift. In the model, particles released at the most southerly bank generally do experience significantly higher temperatures than particles released at more north-ern spawning grounds. This is caused by a combination of higher sea-temperatures and higher reten-tion above and around the southern spawning ground. However, particles released at the important

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