Abstract
Abstract We evaluated patterns of redd site selection in relation to physical habitat variables (depth, velocity, and gravel size) using logistic regression and developed spawning habitat suitability models for two populations of spring Chinook salmon Oncorhynchus tshawytscha in Idaho. Additionally, we evaluated the validity of published, generic spawning habitat suitability criteria relative to our stream-specific models. In Elk Creek, fish used sites with coarse gravel sizes and shallow water depths; there was no difference in velocity between used and unused sites in this stream. Salmon spawning in Sulphur Creek used sites with deeper and faster water irrespective of gravel size. Spawning habitat suitability in Elk Creek was best modeled as a quadratic function of gravel size; in Sulphur Creek, it was best modeled as a positive function of depth alone. The best model fit to a pooled data set was a hybrid of the two single-stream models. In all cases, models containing all of the habitat variables perfo...
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