A Field Evaluation of an External and Neutrally Buoyant Acoustic Transmitter for Juvenile Salmon: Implications for Estimating Hydroturbine Passage Survival |
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Authors: | Richard S. Brown Z. Daniel Deng Katrina V. Cook Brett D. Pflugrath Xinya Li Tao Fu Jayson J. Martinez Huidong Li Bradly A. Trumbo Martin L. Ahmann Adam G. Seaburg |
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Affiliation: | 1. Pacific Northwest National Laboratory, Ecology Group, Richland, Washington, United States of America.; 2. Pacific Northwest National Laboratory, Hydrology Group, Richland, Washington, United States of America.; 3. US Army Corps of Engineers, Walla Walla District, Walla Walla, Washington, United States of America.; 4. University of Washington, School of Aquatic and Fishery Sciences, Seattle, Washington, United States of America.; Manchester University, United Kingdom, |
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Abstract: | Turbine-passed fish are exposed to rapid decreases in pressure which can cause barotrauma. The presence of an implanted telemetry tag increases the likelihood of injury or death from exposure to pressure changes, thus potentially biasing studies evaluating survival of turbine-passed fish. Therefore, a neutrally buoyant externally attached tag was developed to eliminate this bias in turbine passage studies. This new tag was designed not to add excess mass in water or take up space in the coelom, having an effective tag burden of zero with the goal of reducing pressure related biases to turbine survival studies. To determine if this new tag affects fish performance or susceptibility to predation, it was evaluated in the field relative to internally implanted acoustic transmitters (JSATS; Juvenile Salmon Acoustic Telemetry System) used widely for survival studies of juvenile salmonids. Survival and travel time through the study reach was compared between fish with either tag type in an area of high predation in the Snake and Columbia rivers, Washington. An additional group of fish affixed with neutrally-buoyant dummy external tags were implanted with passive integrated transponder (PIT) tags and recovered further downstream to assess external tag retention and injury. There were no significant differences in survival to the first detection site, 12 river kilometers (rkm) downstream of release. Travel times were also similar between groups. Conversely, externally-tagged fish had reduced survival (or elevated tag loss) to the second detection site, 65 rkm downstream. In addition, the retention study revealed that tag loss was first observed in fish recaptured approximately 9 days after release. Results suggest that this new tag may be viable for short term (<8 days) single-dam turbine-passage studies and under these situations, may alleviate the turbine passage-related bias encountered when using internal tags, however further research is needed to confirm this. |
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