This study deployed acoustic telemetry at the Fox River Navigational System Authority (FRNSA) in lock #2 and the upstream and downstream pools in Kaukauna, WI to document movements and behavior of telemetered fish species in response to injection of carbon dioxide. Telemetry equipment was setup in the test area for approximately 2 months during the summer of 2019. CSV metadata includes telemetry data with position estimates for fish during this time.

This study deployed acoustic telemetry at the Fox River Navigational System Authority (FRNSA) in lock #2 and the upstream and downstream pools in Kaukauna, WI to document movements and behavior of telemetered fish species in response to injection of carbon dioxide. Telemetry equipment was setup in the test area for approximately 2 months during the summer of 2019. CSV metadata includes telemetry data with position estimates for fish during this time.

Acoustic telemetry is an effective tool for the study of fish survivorship and habitat use. Fish are tagged with acoustic tags and presence data is collected with stationary receivers. This data set contains a total of 69 hatchery tagged juvenile Lake Sturgeon released into the Genesee River, NY in the Fall of 2019 and 2020, along with data for 30 sub-adult Lake Sturgeon field tagged in the summer of 2019 and fall 2020. The juvenile Lake Sturgeon data includes release date, location, PIT tag number, acoustic tag number, length, weight, year class, and sex. The sub-adult Lake Sturgeon data includes capture date, location, PIT Tag, acoustic tag, length, weight, girth, year class, and sex. Telemetry detection data was funded and collected by the U.S. Fish and Wildlife Service (USFWS) and State University of New York (SUNY)-Brockport.

This dataset assesses the responses of native (largemouth bass Micropterus salmoide and bluegill Lepomis macrochirus) and invasive (silver carp Hypophthalmichthys. Molitrix) fishes to an acoustic stimulus (playback of a 100 hp boat motor. Fish were collected from the Illinois River and Emiquon Preserve and implanted with a Passive Integrated Transponder (PIT) tag. Fish movement was monitored using PIT antennas installed in a water control structure (WCS) that connects the Emiquon Preserve to the Illinois River.

This dataset assesses the responses of native (largemouth bass Micropterus salmoide and bluegill Lepomis macrochirus) and invasive (silver carp Hypophthalmichthys. Molitrix) fishes to an acoustic stimulus (playback of a 100 hp boat motor. Fish were collected from the Illinois River and Emiquon Preserve and implanted with a Passive Integrated Transponder (PIT) tag. Fish movement was monitored using PIT antennas installed in a water control structure (WCS) that connects the Emiquon Preserve to the Illinois River.

Data on the detection range and efficiency of VR2W-69 kHz acoustic receivers (Innovasea Marine Systems Canada Inc., Bedford, Nova Scotia, Canada; https://www.vemco.com/) were collected to guide the development of telemetry studies of the Clear Lake Hitch (Lavinia exilicauda chi), an imperiled fish species endemic to Clear Lake, Lake County, California. The study took place June 21, 2021 through July 01, 2021. Receivers we deployed at distances of 0m, 25m, 50m, 100m, 200m, and 300m from a sentinel test tag. The test tag was deployed for 20 minutes and emitted signals approximately 6-7 times per minute. Data recorded included the total number of signals emitted by the test tag and the number of those signals that were detected by each receiver. Receiver performance was evaluated in five habitat types: nearshore beach, nearshore with dock pilings, nearshore with a rock reinforced bank (riprap), nearshore with submergent aquatic vegetation, and offshore open water. Five evaluations were conducted in each habitat type. Water depth was measured at each receiver. Basic water quality parameters (Temperature °C, Specific Conductance µS/cm, Salinity PSU, DO saturation %, DO concentration mg/L, pH, Depth, Turbidity FNU, and Chlorophyll µg/L) were measured at the 0m, 100m, and 300m distances with a handheld YSI EXO2 Sonde (Yellow Springs Instruments, Yellow Spring, OH).

Data on the detection range and efficiency of VR2W-69 kHz acoustic receivers (Innovasea Marine Systems Canada Inc., Bedford, Nova Scotia, Canada; https://www.vemco.com/) were collected to guide the development of telemetry studies of the Clear Lake Hitch (Lavinia exilicauda chi), an imperiled fish species endemic to Clear Lake, Lake County, California. The study took place June 21, 2021 through July 01, 2021. Receivers we deployed at distances of 0m, 25m, 50m, 100m, 200m, and 300m from a sentinel test tag. The test tag was deployed for 20 minutes and emitted signals approximately 6-7 times per minute. Data recorded included the total number of signals emitted by the test tag and the number of those signals that were detected by each receiver. Receiver performance was evaluated in five habitat types: nearshore beach, nearshore with dock pilings, nearshore with a rock reinforced bank (riprap), nearshore with submergent aquatic vegetation, and offshore open water. Five evaluations were conducted in each habitat type. Water depth was measured at each receiver. Basic water quality parameters (Temperature °C, Specific Conductance µS/cm, Salinity PSU, DO saturation %, DO concentration mg/L, pH, Depth, Turbidity FNU, and Chlorophyll µg/L) were measured at the 0m, 100m, and 300m distances with a handheld YSI EXO2 Sonde (Yellow Springs Instruments, Yellow Spring, OH).

Lake sturgeon (Acipenser fulvescens) have experienced large population declines due to overfishing, habitat degradation, and pollution. Due to these factors, lake sturgeon were extirpated in the Maumee River watershed (Ohio, USA). In 2018, a 20-year reintroduction program began that aims to establish a self-sustaining population in the Maumee River. To understand the potential success of the reintroduction program, our objectives were to estimate post-stocking survival of reintroduced juvenile lake sturgeon (age-0 to age-1).

Acoustic telemetry is a popular tool for the study of fish spatial ecology. In acoustic telemetry, fish are captured, surgically implanted with an acoustic transmitter or ‘tag’, and then released back into the environment. Networks of autonomous, stationary receivers then are used to track the movements of tagged individuals over long periods of time (> 1 year). Each acoustic receiver records the date, time, and unique transmitter code (or ID) for each acoustic tag detection. This data set contains detection data for 282 acoustic-tagged lake sturgeon that were captured and released into the Detroit River, St. Clair River, and Lake Huron between 2011 and 2015. Movements of acoustic-tagged individuals were tracked in the Detroit and St. Clair rivers, Lake St. Clair, and in lakes Huron and Erie.

This study evaluated carbon dioxide (CO2) injected into water as a possible behavioral stimulant to enhance capture and removal of invasive red swamp crayfish (RSC, Procambarus clarkii Girard, 1852) from a retention pond in southeastern Michigan. Objectives of this study were to (1) determine if target CO2 concentrations were attainable within the infested pond, and (2) determine if CO2 treatment was effective to push RSC towards shorelines or onto dry land where they could be collected and removed. Carbon dioxide was applied directly into one treatment pond (~2,500 m3) in Novi, MI. Two nearby ponds in Livonia, MI were used as untreated control ponds. Crayfish removal efficiency was evaluated in all ponds using baited traps and shoreline surveys. Results showed that the CO2 treatment pond reached its target concentration of >200 milligrams per liter (mg/L) CO2, a benchmark determined from previous laboratory studies, approximately 11 hours after injection started and was maintained between 200-351 mg/L CO2 for approximately 2.5 days. During treatment, some emergent crayfish were observed near influent culverts around the pond, possibly indicative of a behavioral response. However, the number of individuals and crayfish observations were minimal and infrequent. Crayfish continued to be removed throughout CO2 treatment with baited traps and perimeter surveys, but differences in catch rates between the treatment and control ponds were not apparent and confounded by a temporal decline in catch rates across all ponds. Overall, this study demonstrated that open-water treatment applications with CO2 are possible, but its effectiveness to enhance RSC removal was unclear due to limited crayfish observations.