Abstract

We housed offspring from northern (70° N) and southern (60° N) coastal cod (Gadus morhua) together in a ‘common garden’ rearing experiment at a temperature and light regime representative of the southern population. Through a more active feeding behaviour and a higher success, the northern cod achieved a larger food share and a higher growth rate and condition than their southern conspecifics. This is contrary to what was demonstrated by field data of fish from their natural habitats. The northern cod also allocated more energy to the liver throughout the experiment. Our results agree with the theory of countergradient variation, suggesting that genetic influences on growth and condition have been opposed by environmental constraints in their natural habitat. The observation that the offspring from these populations differ in behavior and growth when housed together support the idea that the growth response to selection would be through a behavioral response.The field data suggest that density‐dependent population process and high juvenile density relative to prey limit the growth and condition in the wild and not necessarily the length of the growth season per se as assumed in the literature. The topographic distance (over 2000 km) limit mixing of early life stages of cod from the northern and southern population, and the different environmental stimuli (seasonality, temperature, food‐web interactions and habitat heterogeneity) in north and south are likely to evolve genetic differences.

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