Survival of Juvenile Chinook Salmon Passing the Bonneville Dam Spillway in 2007

Ploskey, Gene R.; Weiland, Mark A.; Hughes, James S.; Zimmerman, Shon A.; Durham, Robin E.; Fischer, Eric S.; Kim, Jina; Townsend, R. L.; Skalski, John R.; Buchanan, Rebecca A.; McComas, R. Lynn

doi:10.2172/946673

Cited by 12 publications

(13 citation statements)

References 14 publications

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“…Observing slower egress rates for FC through middle spill bays (Point 6 above) is consistent with findings in 2007. In 2007 found that the mean travel time from spillway passage to an egress array located 9 km downstream of the dam was 20 minutes longer (P = 0.0105) for fish passing 4.5 through middle bays (2.58 hours) than it was for fish passing through end bays (2.26 hours).…”

Section: Egress Ratessupporting

confidence: 86%

“…Previous experience indicates that dead fish usually travel much slower than live fish because they typically sink for a few days before they float and travel at the speed of prevailing river currents (Counihan et al 2006a(Counihan et al , 2006bPloskey et al 2008). The tendency of dead fish to travel slower than live fish led Counihan et al (2006a) to exclude data for fish with long egress times (>99.7 percentile) from survival calculations.…”

Section: Effect Of Detecting a Dead Tagged Fish On Survival-detectionmentioning

confidence: 99%

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Survival Rates of Juvenile Salmonids Passing Through the Bonneville Dam and Spillway in 2008

Ploskey¹,

Weiland²,

Faber³

et al. 2009

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In 2008, the Portland District of the U.S. Army Corps of Engineers (USACE) contracted with the Pacific Northwest National Laboratory (PNNL) to conduct an acoustic telemetry study to estimate the survival rates of juvenile Chinook salmon and steelhead passing through Bonneville Dam (BON) and its spillway. Of particular interest was the relative survival rate of smolts detected passing through end spill bays 1-3 and 16-18, which had deep flow deflectors immediately downstream of spill gates, versus the survival rate of smolts passing through middle spill bays 4-15, which had shallow flow deflectors.Yearling Chinook salmon (YC), steelhead (STH), and fall Chinook salmon (FC) longer than 95 mm were collected from routine smolt monitoring samples at John Day Dam (JDA) and held overnight before surgery so that they were not overly stressed. Smolts longer than 95 mm were surgically implanted with Juvenile Acoustic Telemetry System (JSATS) and passive integrated transponder (PIT) tags and held another night to allow time for fish to recover from surgery. Fish tagged the previous day were released by a PNNL team three times per day (morning, midday, and night) in the JDA pool near Arlington, Oregon, and about 2.5 km below JDA in spring and summer. The team also released FC about 3 km below The Dalles Dam (TDA) in summer. Releases of live JSATS-tagged smolts in the Columbia River upstream of BON totaled 3431 YC and 3430 STH in spring. In summer, 5909 FC were released upstream of BON. Releases were spread out over 28 consecutive days (April 29 through May 27) during spring and over 29 consecutive days (June 15 through July 13) in summer. All of the "treatment" fish released above BON had the opportunity to be detected and regrouped by a BON forebay entrance array of autonomous nodes or by dam-face arrays at the BON spillway (this study) or BON Powerhouse 2 (B2) ) before they passed the BON project. An array is a group of underwater listening devices deployed to detect acoustic tags in fish passing through a forebay or an entire cross section of the river above or below a dam. Non-spillway passage routes were assigned based on detections of PIT tags in the B2 Corner Collector (B2CC) and B2 Juvenile Bypass System (B2 JBS) and acoustic detections on a cabled JSATS array in the B2 forebay (from Faber et al. 2009). Routes of spillway passage included end bays 1-3 and 16-18 with deep flow deflectors downstream of spill gates and middle bays 4-15 with shallow flow deflectors. Powerhouse 1 was not monitored.A National Marine Fisheries Service (NMFS) team released 826 live and 50 dead tagged YC in spring and 1020 live and 52 dead tagged FC smolts in summer into the downstream end of the BON tailrace near the USACE boat launch three times per day (about 0600, 1300, and 2100 hours PST) to serve as reference releases (controls) for virtual releases of treatment fish from upstream of the dam. Reference releases were made daily from April 30 through June 2 and from June 16 through July 22. The NMFS team also released 826 live YC and 1020...

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Section: Egress Ratessupporting

confidence: 86%

Section: Effect Of Detecting a Dead Tagged Fish On Survival-detectionmentioning

confidence: 99%

Survival Rates of Juvenile Salmonids Passing Through the Bonneville Dam and Spillway in 2008

Ploskey¹,

Weiland²,

Faber³

et al. 2009

Self Cite

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show abstract

“…In 2006, the JSATS receivers were deployed at various locations between John Day Dam and Camas, Washington (a 150-km reach of the river), to estimate turbine passage and tailwater survival rates at John Day Dam, and dam-passage and tailwater-passage survival rates for The Dalles Dam and Bonneville Dam (Ploskey et al 2007). The first deployment of the JSATS cabled system was in 2007 at the Bonneville spillway to estimate route-specific passage and survival rates (Ploskey et al 2008). …”

Section: Methodsmentioning

confidence: 99%

“…Several filtering algorithms were then applied to the raw results from the decoding utilities to exclude spurious data and false positives. Tag-detection data from JSATS autonomous nodes were processed by two independent groups as a quality-control measure as in previous studies (Ploskey et al 2007;Ploskey et al 2008) using standardized methods. One method processed data using programs written in Python, and the other involved processing data with programs written in the Statistical Analysis System (SAS).…”

Section: Signal Decoding and Filteringmentioning

confidence: 99%

“…The >95-mm-length requirement on candidate fish for tagging did not restrict the lengths of fish that could be tagged in the spring and only excluded about 9% of the run-of-river subyearlings from tagging in 2008 (Figure 4.1). In 2007, 40% of subyearlings could not be tagged because they were too small (Ploskey et al 2008), presumably because growth was slower that year. Tagging must include 80-to 95-mm smolts to be fully representative of the run-of-river population in summer, but only the production of smaller lighter tags than those available in 2008 will make that possible.…”

Section: Study Integritymentioning

confidence: 99%

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Acoustic Telemetry Evaluation of Juvenile Salmonid Passage and Survival at John Day Dam with Emphasis on the Prototype Surface Flow Outlet, 2008

Weiland¹,

Ploskey²,

Hughes³

et al. 2009

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Executive SummaryImproving survival rates of juvenile salmonids through the Federal Columbia River Power System (FCRPS) continues to be a high priority for the U.S. Army Corps of Engineers, Portland District. Many of these fish are from populations listed as threatened or endangered under the Endangered Species Act of 1973. Increased survival rates are necessary to meet performance standards set forth in the 2008 Biological Opinion (BiOp) on FCRPS operations. The BiOp mandates 96% and 93% survival rates be achieved for spring and summer downstream migrating juvenile salmonids, respectively. At John Day Dam, the Portland District is evaluating the provision of surface flow outlets (SFOs) as a means to increase fish-passage efficiency and in turn increase passage survival rates by reducing turbine passage of juvenile salmonids. The goal of the study reported herein is to provide the passage and survival data necessary to evaluate the performance of the prototype SFO and the dam as a whole relative to the standards in the BiOp. The study was conducted by the Pacific Northwest National Laboratory and the University of Washington. The Portland District and regional fisheries managers will use the data to adaptively manage the configuration and operation of John Day Dam to maximize the survival rates of juvenile salmonids. ObjectivesIn this report, we present survival estimates, passage efficiencies, and fish behavior data for acoustictagged steelhead (STH), yearling Chinook salmon (YC), and subyearling Chinook salmon (SYC) passing through John Day Dam during 2008. We examined the data relative to two spill treatments, 30% versus 40% spill out of total water discharge through the dam, to assess the performance of SFOs, called topspill weirs (TSWs). The field study period was from April 29 to August 20, 2008. The objectives were as follows:• Survival Rates -Estimate single-and paired-release, route-specific, dam-passage, and concrete-passage survival rates for YC, STH, and SYC passing through John Day Dam for each of two spillway operational treatments.• Fish Passage -Estimate passage proportions among major passage routes, and calculate efficiency and effectiveness metrics for each of two spillway operational treatments for YC, STH, and SYC separately.-Estimate travel times (forebay residence and tailrace egress) of YC, STH, and SYC for each of two spill treatments.• Fish Behavior -Characterize fish behaviors, including forebay approach paths, for YC, STH, and SYC and compare approach paths with the final route of passage for each of two spill treatments.-Describe vertical and horizontal distributions and residence times of YC, STH, and SYC within the dam forebay. MethodsThis study used the Juvenile Salmon Acoustic Telemetry System (JSATS). We surgically implanted acoustic tags and passive integrated transponder tags in 3447 YC and 3450 STH in spring and in 5931 SYC in summer. Median lengths of tagged fish were as follows: YC = 158 mm; STH = 217 mm; SYC = 117 mm.Tagged YC and STH were released daily over a 29-day spr...

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A hydrodynamics-based framework to evaluate the impact of fishways on drifting lake sturgeon larvae

Jones

Cotel

2023

Journal of Great Lakes Research

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Survival of Juvenile Chinook Salmon Passing the Bonneville Dam Spillway in 2007

Cited by 12 publications

References 14 publications

Survival Rates of Juvenile Salmonids Passing Through the Bonneville Dam and Spillway in 2008

Survival Rates of Juvenile Salmonids Passing Through the Bonneville Dam and Spillway in 2008

Acoustic Telemetry Evaluation of Juvenile Salmonid Passage and Survival at John Day Dam with Emphasis on the Prototype Surface Flow Outlet, 2008

A hydrodynamics-based framework to evaluate the impact of fishways on drifting lake sturgeon larvae

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