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Implications of Differing Age Structure on Productivity of Snake River Steelhead Populations Timothy Copeland, Alan Byrne, and Brett Bowersox Idaho Department.

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Presentation on theme: "Implications of Differing Age Structure on Productivity of Snake River Steelhead Populations Timothy Copeland, Alan Byrne, and Brett Bowersox Idaho Department."— Presentation transcript:

1 Implications of Differing Age Structure on Productivity of Snake River Steelhead Populations Timothy Copeland, Alan Byrne, and Brett Bowersox Idaho Department of Fish & Game

2 Snake River Steelhead Environmental variability – Elevation, land cover, hydrology Logistical difficulties – Spawn is near peak spring run-off Few population-level data historically Generic A/B run analysis

3 Snake River Steelhead Life History Freshwater Ocean Emergence (summer) Rear 1-5 yrs Residents Smolts (May-June) Grow 1-3 yrs Returning adults (July-October) Spawn (March-May) Kelts ?

4 Snake River Steelhead Life History Freshwater Ocean Emergence (summer) Rear 1-5 yrs Residents Smolts (May-June) Grow 1-3 yrs Returning adults (July-October) Spawn (March-May) Kelts ?

5 Question What is effect of variable age structure on population productivity?

6 Steelhead Age Structure Complicated tracking of cohorts – Years in freshwater (1-5) – Years in ocean (1-3) Differential effects of selective pressures

7 Model Assumptions Conditions similar across populations Females only Life history inherited Parr annual survival constant among ages No temporal stochasticity

8 Analysis Strategy Leslie matrix model Literature parameter estimates Run Model with uniform age structure Output Structure ~ Aggregate? Aggregate age structure Add complexity/ modify estimates Population age structure Run Model with population age structure Constrain to R/S = 1.0 Output R/S Sensitivity analysis NO YES Next population

9 Adult Samples Lower Granite Dam Big Bear EF Potlatch Fish Creek Rapid River Big Creek Pahsimeroi Upper Salmon

10 Base Parameter Estimates ParameterEstimateSource Egg-fry survival0.5Byrne et al 1992; Bjornn 1978 Freshwater survival0.3Byrne et al 1992; Bjornn 1978 1 st yr ocean survival (S o1 )0.028Decade avg from CSS 2011 report Ocean survival0.8Ricker 1976 Fecundity (1-ocean)3500Wild fish at Oxbow trap 1966-1968 Fecundity (2-ocean)5500Wild fish at NF Clearwater 1969-1971 Fecundity (3-ocean)6500Wild fish at NF Clearwater 1969-1971 Assume uniform initial age composition Adjust parameters until age composition observed

11 Observed Composition at LGD (2009-2010 average)

12 Scenario 1: Base Parameters

13

14 Age-Specific S o1 Schedules SMOLT AGE SURVIVAL (S o1 ) Scenario 1Scenario 2Scenario 3 Scenario 4Scenario 5

15 Scenario 2: Linear S o1 Increase

16 Scenario 3: Exponential S o1

17 Scenario 4: Adjusted Linear S o1 & 3-Ocean Survival

18 Scenario 5: Exponential S o1, Adjusted as Above

19 Choose Scenario 4

20 Model Parameters ParameterEstimate Egg-fry survival0.1753 Parr survival0.3 S o1 – age-1 smolts0.0005 S o1 – age-2 smolts0.023 S o1 – age-3 & -4 smolts0.033 S o2 0.8 S o3 0.125 Fecundity (1-ocean)3500 Fecundity (2-ocean)5500 Fecundity (3-ocean)6500

21 Model Parameters ParameterEstimate Egg-fry survival0.1753 Parr survival0.3 S o1 – age-1 smolts0.0005 S o1 – age-2 smolts0.023 S o1 – age-3 & -4 smolts0.033 S o2 0.8 S o3 0.125 Fecundity (1-ocean)3500 Fecundity (2-ocean)5500 Fecundity (3-ocean)6500 Isolate relative effect of differing age structures

22 Productivity by Life History Age categoryRecruits/Spawner 1.10.09 1.20.12 2.11.27 2.21.60 3.10.55 3.20.69 4.10.16 4.20.21

23 Population Age Structure PopulationMean Age# classesClasses >10% Pahsimeroi4.2782.1, 2.2, 1.2 Upper Potlatch4.6982.2, 2.1, 3.1 Big Bear4.7172.2, 2.1 Upper Salmon4.6982.1, 2.2, 3.1 Rapid River4.90112.2, 2.1, 3.1 Fish Creek5.32103.2,2.2,3.1 Big Creek5.4573.2, 3.1, 2.2

24 Relative Population Productivity PopulationRecruits/Spawner Pahsimeroi1.11 Upper Potlatch1.22 Big Bear1.21 Upper Salmon1.15 Rapid River1.02 Fish Creek0.92 Big Creek0.77 Mean age vs R/S: r = -0.82

25 Productivity by Life History Age categoryRecruits/Spawner 1.10.09 1.20.12 2.11.27 2.21.60 3.10.55 3.20.69 4.10.16 4.20.21

26 Sensitivity Analysis Changed basic rates +/-10% – Egg/fry, parr, smolt, ocean survivals; fecundity Aggregate productivity most sensitive to FW survival (79%-124%) Relative age-specific fitness changed little Adopting exponential S o1 schedule changed relative rankings

27 Validation Smolt S o1 survival schedule – Most age 1 smolts near or less than 150 mm – Benefit for larger smolts tied to timing Penalty for 3-ocean adults – Impacts upon river entry? Measured R/S ratios – Fish Creek 2003 & 2004 cohorts avg = 0.82 – Rapid River 2004 & 2005 cohorts avg = 1.07 Relative abundance at Lower Granite

28 Lochsa Emigrant Age Structure

29 Some Ponderables Model constrained to equilibrium w/limited data S o1 begins at Lower Granite Dam – Incorporates direct & latent migration effects Consider basis for 3-ocean penalty – Influence of growth & maturation? Investigate age/size specific S o1 for Snake River populations Correlation of FW & SW ages? Effects of stochasticity on relative fitness?

30 Conclusions Age structure leads to gradient of potential productivities – Within-population variability Older populations will be less productive Older, larger smolts not realizing additional benefits

31

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