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Library Predicting Brook Trout Occurrence in Stream Reaches throughout their Native Range in the Eastern United States

Predicting Brook Trout Occurrence in Stream Reaches throughout their Native Range in the Eastern United States

Predicting Brook Trout Occurrence in Stream Reaches throughout their Native Range in the Eastern United States

Resource information

Date of publication
декабря 2015
Resource Language
ISBN / Resource ID
AGRIS:US201600103013
Pages
11-24

The Brook Trout Salvelinus fontinalis is an important species of conservation concern in the eastern USA. We developed a model to predict Brook Trout population status within individual stream reaches throughout the species’ native range in the eastern USA. We utilized hierarchical logistic regression with Bayesian estimation to predict Brook Trout occurrence probability, and we allowed slopes and intercepts to vary among ecological drainage units (EDUs). Model performance was similar for 7,327 training samples and 1,832 validation samples based on the area under the receiver operating curve (∼0.78) and Cohen's kappa statistic (0.44). Predicted water temperature had a strong negative effect on Brook Trout occurrence probability at the stream reach scale and was also negatively associated with the EDU average probability of Brook Trout occurrence (i.e., EDU-specific intercepts). The effect of soil permeability was positive but decreased as EDU mean soil permeability increased. Brook Trout were less likely to occur in stream reaches surrounded by agricultural or developed land cover, and an interaction suggested that agricultural land cover also resulted in an increased sensitivity to water temperature. Our model provides a further understanding of how Brook Trout are shaped by habitat characteristics in the region and yields maps of stream-reach-scale predictions, which together can be used to support ongoing conservation and management efforts. These decision support tools can be used to identify the extent of potentially suitable habitat, estimate historic habitat losses, and prioritize conservation efforts by selecting suitable stream reaches for a given action. Future work could extend the model to account for additional landscape or habitat characteristics, include biotic interactions, or estimate potential Brook Trout responses to climate and land use changes. Received May 9, 2014; accepted August 26, 2014

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Authors and Publishers

Author(s), editor(s), contributor(s)

DeWeber, Jefferson T.
Wagner, Tyler

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Geographical focus