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In Search of the Lost Legions. Attempting to account for Hatchery-origin steelhead returns to the Snake River. Herb Pollard – NOAA –National Marine Fisheries Service Chris Starr – USFWS – Lower Snake Compensation Plan. Hatchery Origin. Natural Origin.
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In Search of the Lost Legions Attempting to account for Hatchery-origin steelhead returns to the Snake River Herb Pollard – NOAA –National Marine Fisheries Service Chris Starr – USFWS – Lower Snake Compensation Plan
HatcheryOrigin NaturalOrigin
Hatchery-origin : Wild/natural Steelhead Run Composition at Lower Granite Dam 1984-2003 Hatchery-origin Hatchery-origin steelhead Wild/natural Natural-origin Steelhead
Hatchery-origin : Wild/natural Steelhead Run % Composition at Lower Granite Dam 1984-2003 Hatchery-origin steelhead Hatchery-origin steelhead adults Natural-origin steelhead Natural-origin steelhead adults
Concerns about Hatchery-origin Steelhead Adult Returns • Genetic concerns: • Artificial selection • Genetic introgression • Loss of fitness • Ecological Concerns • Competition for mates or spawning areas
Sometimes these concerns are expressed as: • “There are Tens of Thousands of unaccounted hatchery steelhead in the Snake River Basin!” • “Hatchery steelhead stray randomly and impact wild steelhead throughout the basin!” • “Hatchery strays are spawning with wild fish in important natural production areas, reducing fitness and adversely impacting recovery!”
Concerns for Hatchery strays in status reviews and recovery literature
But, really, not much is known about the impact of hatchery fish on natural steelhead in the Snake River basin.
The Assignment to Fishery Managers: • Account for the hatchery-origin steelhead that return to known sites and harvest • Summarize the data for hatchery-origin steelhead that stray between release sites or into natural production areas
Data on known removals/mortalities • Hatchery rack returns • Harvest estimates/creel census • Natural mortality • Return to direct stream releases • Catch and release mortality in recreational fisheries
Data on known strays/tag recoveries • Wild steelhead weirs in Grande Ronde, Imnaha, and Lochsa systems • Hatchery weirs • Coded-wire tag returns from weirs and fisheries
Genetic Evidence of hatchery introgression into natural populations • IDFG Steelhead Genetic Survey • NMFS Northwest Fishery Science Center surveys
Cooperators • Washington Department of Fish and Wildlife – Mark Schuck • Oregon Department of Fish and Wildlife – Rich Carmichael • Idaho Department of Fish and Game – Paul Kline • Nez Perce Tribal Fisheries – Becky Johnson • Shoshone-Bannock Tribal Fisheries – Keith Kutchins • Confederated Tribes of the Umatilla Indian Reservation – Brian Zimmerman
Weighted Average Distribution of Snake River Hatchery-Origin Steelhead
Weighted Average Distribution of Snake River Hatchery-Origin Steelhead
Weighted Average Distribution of Snake River Hatchery-Origin Steelhead
Weighted Average Distribution of Snake River Hatchery-Origin Steelhead
Weighted Average Distribution of Snake River Hatchery-Origin Steelhead
Weighted Average Distribution of Snake River Hatchery-Origin Steelhead
Distribution of Hatchery-origin Steelhead in the Snake River 1995-2002Weighted Average C&R mortality 0.8% Natural Mortality 6.4% Hatchery Rack 19.1% Direct Stream 8.7% Unaccounted 4.1% Harvest 60.9%
Distribution of Hatchery-origin Steelhead in the Snake River 1995-2002
Unaccounted HOR NOR Escapement
Numbers of natural-origin adult steelhead and hatchery-origin strays trapped at Grande Ronde River tributary weirs, 2001-2004 (Data from Mike McLean, CTUIR)
Proportion of Hatchery-origin steelhead strays at three weirs in the upper Grande Ronde Subbasin 8 Hatchery strays – 0.6% 1,367 Wild/natural fish – 99.4%
Stray rates in the Imnaha Basin 1999-00 to 2003-04 run years. Courtesy of Jay Hesse (Nez Perce Tribe).
Imnaha Hatchery Returns and strays in Tributaries 74 Hatchery Strays detected in Tributaries 11,363 Hatchery returns – 1999-04
Fish Creek Weir: Hatchery Strays Hatchery-origin strays ~2% Natural-origin recruits
Rapid River Weir NOR:HOR HOR NOR
How well do the hatchery fish return to the point of release?
Cottonwood Pond – 4,515 CWTrecovered in the Snake River Basin Others – 60 (1.3%) Clearwater Sport – 11 Tucannon Sport – 13 Salmon Sport - 30 Pahsimeroi – 1 Big Canyon - 5 Lyons Ferry Trap - 110 Cottonwood Trap - 781 Snake River Sport – 1,628 Grande Ronde Sport – 1,936
Wallowa-Big Canyon 4,361 CWT Recovered in the Wallowa River Strays between Facilities - 13 Returned to Site of Release – 4,348
Idaho Rack and Harvest Recovery of fish released at racks – 6,361 CWT recovered in Snake river Not OK – Fish recovered at the wrong hatchery rack or in fisheries off the direct route – 37 tags (0.6%) OK – Fish recovered at the release site or in fisheries downstream and en route - 6,324 tags
IDFG Direct Stream Releases 1,153 CWT In-subbasin – upstream 152 tags (13.2%) In-subbasin -downstream – 48 tags (4.0 %) Out-of-Subbasin– downstream – 37 tags (3.0%) OK – Recovered in area of release - 916 tags (79.5%)
Genetic Surveys • Genetic Population Structure of Snake River Basin Steelhead in Idaho (Nielsen et al 2004) : “…significant genetic population structure remains for steelhead populations within the Snake River…”
Conclusion: Fishery managers know where most of the hatchery origin steelhead go in the Snake River Basin. • On the average, 95.9% of the hatchery steelhead passing Lower Granite Dam are accounted in harvest, rack returns, natural mortality and returns to sites like the Little Salmon River. The number of unaccounted fish is much smaller than has been thought.
Conclusion: Once within the Snake River Basin, hatchery-origin steelhead demonstrate a high degree of homing fidelity. • CWT detections indicate >90% return to release sites • Stray rates between facilities or in fishery detections are small.
Conclusion: Detection of Hatchery strays in natural production areas is less than suspected • Weirs located on wild steelhead streams catch few hatchery fish, hatchery fish are seldom observed in spawning grounds surveys, and the ongoing genetic surveys have not reported widespread occurrence of the hatchery stocks.
Uncertainties remain . . . • There are weirs on only a few of the important wild production streams – What about the others? • If the few hatchery strays arrive in natural spawning areas, how successful are they – what are the impacts?
However….. • Empirical data is fairly abundant and robust to indicate that straying of large numbers of hatchery steelhead into important natural production areas does not occur within the Snake River basin at the level previously thought.
Management Implications • Geographic isolation of hatchery steelhead can be an effective management measure • Release fish in main stems, away from important tributary spawning areas • Release fish in areas with good public access to increase harvest rates
Management Implications • Steelhead exhibit strong homing fidelity to release sites, but… • There may be a tendency to stray upstream or into nearby tributaries if fish are not removed
Management Implications • Acclimation ponds may not be necessary, but… • Release at a pond or tributary weir will likely help with accounting for returns • Acclimation ponds allow management options with non-migratory “residual” males
Thank you… • Any Questions? Herb Pollard, NOAA Fisheries NW Region, Hatcheries and Inland Fisheries Branch Chris Starr, US Fish and Wildlife Service, Lower Snake River Compensation Plan