This project is a collaboration between the City of Bellingham, the Skagit River System Cooperative (on behalf of the Sauk-Suiattle Indian Tribe and the Swinomish Indian Tribal Community) and the Lummi Nation to conduct an assessment of salmonid use of estuary and nearshore habitats. Project partners include NOAA (National Oceanic and Atmospheric Administration), the Bellingham Bay Action Team and the WRIA 1 Joint Board. The City received $125,000 for this project through the Washington State Department of Ecology via the Bellingham Bay Action Team, with the City providing $25,000 in match.
The study will assess salmonid use of the Nooksack estuary and Bellingham
Bay nearshore habitats with an emphasis on juvenile Chinook salmon. The
project will examine juvenile Chinook salmon density dependence in the
Nooksack estuary and the nearshore environment. Juvenile salmon growth is
influenced by food availability, food quality, and water temperature among
other factors. These factors also influence residence time within the
estuary and along the nearshore and include, by extension, habitat capacity
in those areas. Juvenile salmon outmigrating from the Nooksack River are
also potentially using shoreline habitats of Bellingham Bay, and conditions
within the Nooksack estuary may influence the timing and size of fish
entering Bellingham Bay.
Data collected through previous studies by Lummi Natural Resources on juvenile salmon outmigrating from the lower Nooksack River, juvenile salmonids in the Nooksack estuary, and juvenile salmon in Bellingham Bay will be used alongside data collected through this study to describe time-based, spatial, and habitat-use patterns of juvenile salmon in the estuary and nearshore environments. Native Nooksack Chinook, Bull Trout, and steelhead are listed as Threatened under the Endangered Species Act. Results from this study can inform long-term salmonid recovery efforts.
The primary outcomes of the study are:
1) Assessment of system-wide density dependence in the Nooksack estuary, factoring total habitat availability, habitat conditions, and connectivity.
2) Bioenergetics modeling (the study of energy transfer through a system) of habitat-specific growth potential, factoring prey inputs, diet, temperature, and local rearing densities of the Nooksack estuary.
3) Description of time-based, spatial, and habitat-type use patterns of juvenile salmon using the Bellingham Bay shoreline.
The project will use beach seine sampling to monitor fish use in estuary and nearshore habitats, with an emphasis on juvenile Chinook salmon. Sampling will occur twice per month during the season when juvenile salmon are present within shoreline habitats of Bellingham Bay and the Nooksack estuary, February through October of 2014. Sampling will be done by biologists from Skagit River Systems Cooperative with assistance from City of Bellingham sponsored Washington Conservation Corps crews and technicians from Lummi Nation.
Data collected will also include fish catch and length by species and hatchery mark, and data on the local environment such as temperature, salinity, dissolved oxygen, depth, and habitat type. In addition, prey samples will be collected from the water column and from some Chinook stomachs in order to assess habitat conditions (see Example Field Sheet).
Research crews set a beach seine net during nearshore monitoring (left). A juvenile salmonid is measured during sampling (right).
A technical report will be available in late 2015.