Growth, survival and migration of juvenile brown trout (Salmo trutta) in six tributaries to river Verdalselva : connectivity and source sink dynamics

Brown trout (Salmo trutta L.) in dendritic river systems mainly use smaller tributaries as spawning- and nursery grounds. The juveniles exhibit territorial behavior and compete over resources of food and shelter. Interactions between density-dependent and density-independent factors influence their life-history traits in intricate ways. Owing to the possibility for inter-tributary movement and inter-tributary variation in habitat quality in such dendritic river systems, survival, growth and migration can be investigated with a metapopulation approach. Differences in habitat quality and juvenile brown trout density among the tributaries may induce migratory behavior and source-sink dynamics. The aim of this thesis was to provide evidence of density-dependent and density-independent differences in growth, survival and migration and reveal source-sink dynamics processes in brown trout inhabiting the river Verdalselva tributaries. Data was collected by electric fishing and capture-mark-recapture analysis was used to investigate growth, survival and migration within and among six neighboring tributaries to Verdalelva, at four occasions; May, August and October 2018 and in January 2019. Altogether, 1685 juvenile brown trout was caught, out of which 582 were PIT-tagged, 35 recaptured and 101 redetected. Based on previous data, high and low juvenile brown trout densities assigned three tributaries as source and three as sink sub-populations. Recapture probabilities were generally low, most probably due to difficult fishing conditions (water turbidity, dense vegetation) and due to undetected migration, but there was some variation among the tributaries. As expected, comparing habitat characteristics among tributaries showed significant differences between the source and sink groups. Source tributaries had higher water current velocity and were wider whereas sink tributaries had smaller substrate size and less woody debris. Density estimates of both 0+ and >0+ age classes of juvenile brown trout supported these results and the pre-classification into source and sink groups as the density was significantly lower in sink than in source tributaries. Sink 0+ individuals were on average larger than source individuals in both August and October, but individuals from source tributaries had higher growth rates (though not significantly so) over the same time span. The estimated monthly survival was negatively associated with juvenile density in the source group but not in t