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Seasonal shifts in diel patterns of juvenile Chinook salmon catch rates in the Sacramento-San Joaquin River Delta. Rick Wilder & Jack Ingram Delta Juvenile Fish Monitoring Program, US Fish & Wildlife Service, Stockton, CA. Diel patterns in activity level of juvenile salmonids. Atlantic salmon
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Seasonal shifts in diel patterns of juvenile Chinook salmon catch rates in the Sacramento-San Joaquin River Delta • Rick Wilder & Jack Ingram • Delta Juvenile Fish Monitoring Program, US Fish & Wildlife Service, Stockton, CA
Diel patterns in activity level of juvenile salmonids • Atlantic salmon • (Hiscock et al. 2002; Johnston et al. 2004) • Chum salmon • (Ericksen & Marshall 1997) • Coho salmon • (Johnson & Johnson 1981) • Pink salmon • (Godin 1981) • Rainbow trout/Steelhead • (Johnson & Johnson 1981; Bolliet et al. 2001) • Sockeye salmon • (Steinhart & Wurtsbaugh 1999; Scheuerell & Schindler 2003)
Purpose of the study • To determine whether juvenile Chinook salmon in the Sacramento-San Joaquin River Delta exhibit seasonal changes in diel activity patterns.
Delta Juvenile FishMonitoring Program • Year-round fish monitoring • 30 years of data • For the State Water Project and Central Valley Project
Sherwood Harbor Walnut Grove Delta Cross Channel Sac. River RM 27 Georgiana Slough Jersey Point Study sites
Each sampling period • 10 to 20 minute trawls • ≥24 hours of nearly continuous sampling Photos: P. Voong
Kodiak trawl Photo: J. Hanni Midwater trawl Photo: C. Hagen
Data Analysis • Categorized each trawl into 1 of 3 times of day: “Day,” “Night,” or “Crepuscular” • For each sampling period separately, compared mean CPUE among times of day across entire sampling period • non-parametric ANOVAs and post-hoc multiple comparisons tests
Day Crepuscular Night Sherwood Harbor (Spring) ANOVA: P < 0.001, (Day=Crepuscular)>Night for all
Day Crepuscular Night ANOVA: P < 0.001, (Day=Crepuscular)>Night for all
Day Crepuscular Night Fall sampling periods ANOVA: P< 0.0001, (Night=Crepuscular)>Day for both
Caveats • Many fish are likely hatchery production fish Photo: CNFH
Delta Cross Channel Sac. River RM 27 Caveats • Many fish are likely hatchery production fish • Only two fall samples, and from same date close to one another Photo: CNFH
Additional studies in Fall/Winter showing nocturnal activity patterns • Atlantic salmon (Hiscock et al. 2002) • Chum salmon (Ericksen & Marshall 1997) • Chinook salmon at RBDD (Gaines & Martin 2001) Photo: CNFH
Potential mechanisms • Water temperature During the day: • Foraging efficiency is greatest • Predation risk is greatest
Potential mechanisms Low water temperature low metabolism, low mobility,low energy requirements → Nocturnal (low predation risk, low foraging efficiency)
Potential mechanisms Low water temperature low metabolism, low mobility, low energy requirements High water temperature high metabolism, high mobility, high energy requirements → Nocturnal (low predation risk, low foraging efficiency) → Diurnal (high foraging efficiency, high predation risk)
Water temperature ANOVA result: P = 0.96
Potential mechanisms • Gear efficiency Photo: J. Hanni
Potential mechanisms • Fish size Photo: P. Voong
Fish size ANOVA result: P < 0.001**
Fish size • Larger fish are: • less active, no need to forage during day • active at night • physically able to avoid net when visible • catch rates higher at night → →
Future directions • Look at federal salvage data • Sample multiple times of year • Observe net avoidance in situ • Experimentally manipulate physical factors Photo: Alamy Images
Implications • Our sampling schedule • Water operations Photo: J. Hanni