Abstract

AbstractUnderstanding the processes governing population dynamics is important for effective conservation and environmental management. Disentangling the relative role of density‐dependent versus density‐independent processes on population dynamics is often made difficult by the inability to control for abiotic or biotic factors, but long‐term datasets are invaluable in this pursuit. We used a 14‐year dataset from the Logan River, Utah, to assess long‐term trends in abundance and evidence of density‐dependent and density‐independent effects on population dynamics of Paiute sculpin (Cottus beldingii) across six sites. Additionally, we evaluated the feeding ecology of sculpin over 4 years. Sculpin densities generally increased from upstream to downstream, and the annual per capita rate of increase was negatively and significantly correlated with sculpin density at four of six sites. We observed a negative relationship between total gut content and sculpin density but did not observe a negative relationship between relative condition and density. Sculpin displayed a generalist feeding strategy, and interannual differences in diet composition appeared to be influenced by interannual differences in flow, particularly years with higher magnitude flow. The observed spatial patterns in sculpin abundance throughout the watershed matched those of invasive brown trout (Salmo trutta), the top piscivore in the Logan River, and likely represent affinities for the suite of ecological conditions associated with downstream sections of the Logan River. Our results suggest that sculpin populations are regulated largely by density‐dependent processes and match those from other studies on sculpin population dynamics including a range of species and habitats that differ vastly in abiotic conditions.

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