Movement Patterns and Habitat Selection of Lahontan Cutthroat Trout in a Great Basin Stream
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Authors
Flynn, Keane
Issue Date
2024
Type
Thesis
Language
Keywords
Climatic Variation , Habitat Selection , Lahontan Cutthroat Trout , Movement Ecology , Streamflow Recession , Telemetry
Alternative Title
Abstract
Understanding the movement of organisms is critical for species conservation in the context of changing landscapes and climate. As climatic extremes impact the United States Great Basin, quantifying the movements of native fishes like Lahontan cutthroat trout ( Oncorhynchus clarkii henshawi ) will be vital in facilitating their persistence. These climatic extremes are projected to alter flow regimes thereby reducing hydrologic connectivity needed to maintain populations. By studying fish movement patterns during streamflow recession and baseflow conditions, we can identify factors responsible for movement and habitat selection to better manage these factors in a changing world. In this study, we tagged 57 Lahontan cutthroat trout from early summer to fall in 2021 and 2022 in the Summit Lake watershed (NV, USA). The location of each fish was associated with local hydraulic, physical habitat, invertebrate drift concentration, and water quality data to assess which factors impact habitat selection, abandonment, and overall movement. Multiple linear regression models were used to assess which factors were associated with trout movement and a two-sample permutation test was used to identify factors associated with habitat selection or abandonment. Stream-resident trout displayed little movement during streamflow recession and baseflow conditions with median daily movements of 0.3m/day and a median home range of 10.2m; these results suggest even less movement than those reported by previous studies. Abrupt declines in riffle crest thalweg depth were the primary factor driving increases in distance traveled, yet there were only four observed movements below RCT depths of 5cm and no observations below 4cm. The only factor that impacted trout habitat selection or abandonment was fork length and weight, with smaller individuals abandoning habitat more often than larger, dominant individuals. The findings from this study suggest that trout movement occurs when absolutely necessary such as escaping desiccating stream reaches or being displaced due to dominance hierarchies. We suggest that watershed managers implement low-flow hydrologic monitoring to identify vulnerable stream reaches with an emphasis on preserving streamflow connectivity for stream-rearing salmonids. Additionally, this emphasizes the importance of tracking movements for species of interest as a strategy to identify factors potentially reducing population fitness.