Movement rules for juvenile steelhead: dynamic linking of movement behaviour to habitat and density |
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Authors: | Daniel B. Hayes Bradley E. Thompson |
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Affiliation: | Department of Fisheries and Wildlife, Michigan State University, , East Lansing, MI, USA |
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Abstract: | We incorporated explanatory factors including stream habitat type and fish density into individual‐based models with dynamic connections among adjacent habitat units to infer dispersal behaviour of juvenile steelhead Oncorhynchus mykiss in a Great Lakes watershed. We used mark–recapture data and an inverse modelling approach to estimate daily probability of steelhead moving out of a habitat unit, P(move), according to four competing models. The models used included (i) a null model where all fish had equal movement probability; (ii) a habitat‐dependent model where P(move) depended on the habitat type; (iii) a density‐dependent model of P(move); and (iv) a model where P(move) depended on both density and habitat type. The habitat‐dependent model provided the most parsimonious fit to the observed data according to Akaike's information criteria (AICc). In the null model, P(move) averaged 0.70, whereas P(move) averaged 0.75 in pools, 0.68 in riffles and 0.73 in runs in the habitat‐dependent model. |
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Keywords: | Behavioural modelling individual‐based modelling fish movement steelhead |
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