Steelhead in Idaho

1. A comparison of juvenile life histories among selected Snake River steelhead populationsBrett Bowersox, Timothy Copeland, and Alan ByrneIdaho Department of Fish and Game

2. Steelhead in Idaho • Present in Snake, Clearwater, and Salmon River drainages • Provide valuable fishery • Well documented variation in ocean life history (A vs B run) • High variation in freshwater habitat characteristics • Freshwater life history not extensively studied in Idaho • ESA listed in 1997

3. ESA Status Assessments • Abundance • How many of them are there? • Productivity • How well do they reproduce & survive? • Spatial structure • Where are they? • Diversity • What are they like?

4. Technical Recovery Team Efforts • No population specific data • Used aggregate A-run, B-run data for adults at Lower Granite Dam • Divided abundance to population within run-type • Assumed all had same run-type productivity • Limited information on life history or spatial structure

5. Objectives • Compare/contrast freshwater life history data • Examine implications for population productivity

6. Study Populations East Fork Potlatch River Big Bear Creek Crooked Fork Creek Fish Creek Rapid River

7. Technical Recovery Team Populations Lower Clearwater (A-run) Lochsa (B-run) Little Salmon (A-run)

8. Environmental Variation

9. Methods • Use 2008 emigrant data from screw traps • Abundance, scale samples, PIT tags • Metrics • Emigrant abundance • Timing from natal stream • Age composition • Length at age • Detections in Snake/Columbia hydrosystem

10. Objective 1 • Compare/contrast freshwater life history data

11. 2008 Abundance Estimates

12. Seasonal Outmigration Variability Spring Summer Fall

13. Age Distribution Age -0 Age -1 Age -2 Age -3 Age -4

14. Length at Age

15. Detection rates in Hydrosystem • Spring tags detected in year of tagging (Sp 2008) • Summer and fall tags detected year after tagging (Sp 2009)

16. Objective 1 Summary • A variety of life history strategies observed between the populations • Juvenile rearing completed within natal streams and downstream reaches • Lower elevation populations have younger age structure than high elevation

17. Objective 2 • Examine implications for population productivity

18. Relative Productivity Model • Use abundance, age structure, & assumed survival to estimate initial fry abundance • Use abundance & apparent migration survival to LGD to estimate smolt production • Productivity measure is smolts per fry

19. Fry to Smolt Survival • Survival Relative to Big Bear Creek in parentheses

20. Objective 2 Summary • Productivity differences within Technical Recovery Team populations • (Fish Cr v. Crooked Fk / Big Bear v. EFK Potlatch) • Decreasing natal stream survival increases relative advantage of Big Bear & EFK Potlatch • B-run populations need increased smolt-adult survival & fecundities to make up for older age structure

21. Summary • Variation in freshwater life history important to population stability • Low elevation populations very resilient • Results similar to genetic & parr density studies • High “value” of habitat restoration projects for lower elevation populations • Further investigations of high elevation & Salmon River populations

22. Questions