Science activity

Science activity #49905, updated 29 April 2022

Reconstructing Juvenile Salmon Growth, Condition, and Delta Habitat Use in 2014-15 Drought and Beyond [SAIL]

Description / purpose

Description Life history diversity buffers salmon populations over space (e.g. the use of natal and non-natal rearing habitats and time (e.g. variable migration timing resulting in greater probability of meeting optimal ocean conditions). Historically the Sacramento-San Joaquin Delta provided critical salmon rearing habitat, but urban expansion, water diversions and species introductions have resulted in inhospitable conditions unlikely to meet rearing needs. This study fills critical data gaps regarding Delta rearing by juvenile Chinook salmon – primarily to determine the annual migrant portfolio (proportion of different populations and life stages) and the relative success of Delta vs. natal rearing (inferred by rearing duration, growth rate, diet and condition). We quantify the extent to which Delta rearing contributes to salmon population resiliency under different environmental conditions, including drought (2014-15) and flood conditions (2017, 2019), and provide baseline data to provide insights into population-level responses to future habitat restoration and climate change. The study uses annual collections of fall & late fall run salmon samples from sites upstream (Mossdale/Sherwood Harbor), within, and downstream (Chipps Island) of the Delta sampled by the IEP Delta Juvenile Fish Monitoring Program (DJFMP). Need Annual monitoring surveys routinely sample salmon entering and leaving the Delta, but the extent to which these juveniles rear there is virtually unknown, and has been highlighted as a critical data gap for parameterizing the NMFS Chinook salmon life cycle model (S. Lindley NOAA pers. comm.). There are limited tools available to monitor habitat use by native fishes, with most efforts providing a snapshot of fish presence/absence or abundance. Tagging studies provide key information about migratory pathways and survival through stretches of the Delta, but are typically limited to larger individuals and often use hatchery smolts with different rearing needs and seareadiness to the smaller individuals most likely to use Delta habitats. Otoliths represent a unique tool to reconstruct fish age, natal origin, growth history, movement patterns, and habitat use, even in fry <40mm fork length. Objectives We will use juvenile salmon collected by the IEP Delta Juvenile Fish Monitoring Program to assess: 1. Contributions of different rivers & hatcheries to sites upstream, within & downstream of the Delta. 2. Delta habitat use (frequency, duration) and success (growth rates, condition and diet). 3. Mechanisms governing juvenile salmon outmigration timing from the natal tributary.

Linked science activities

None specified

Collaborators

None specified

Activity status

  • 1 Awarded / Initiating (2019)
  • 2 In progress / Ongoing (0 - 0)
  • 3 Complete

Funding summary

Total allocated funding: $0

Label Value
Contract # or labor code PEN#323
Implementing organization University of California - Davis [UC Davis]
Funding organization California Department of Water Resource [DWR]
Funding Source Not provided
Date of award 2020
Date of fiscal year-end Not provided
Total award amount $0
State type of obligation Not provided
Federal type of obligation Not provided
Reimbursability Not provided
Procurement mechanism Not provided
Annual expenditures

2020 - $267000.00

Label Value
Contract # or labor code PEN#323
Implementing organization University of California - Davis [UC Davis]
Funding organization U.S. Fish and Wildlife Service [USFWS]
Funding Source Not provided
Date of award 2020
Date of fiscal year-end Not provided
Total award amount $0
State type of obligation Not provided
Federal type of obligation Not provided
Reimbursability Not provided
Procurement mechanism Not provided
Annual expenditures

2020 - $127000.00

Location

Subbasins
Delta regions

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Products and outputs

None provided

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None specified None specified