Columbia Basin Fish and Wildlife Program Columbia Basin Fish and Wildlife Program
SOW Report
Contract 37595: 1998-014-00 EXP PLUME PROJECT (OHSU/OGI)
Project Number:
Title:
Ocean Survival Of Salmonids
BPA PM:
Stage:
Implementation
Area:
Province Subbasin %
Ocean - 100.00%
Contract Number:
37595
Contract Title:
1998-014-00 EXP PLUME PROJECT (OHSU/OGI)
Contract Continuation:
Previous: Next:
n/a
  • 42556: 1998-014-00 EXP PLUME PROJECT (OHSU/OGI)
Contract Status:
Closed
Contract Description:
Recent evidence suggests that improvement in survival of the estuarine and early ocean life history phase of Columbia River salmon may be critical to recovery of endangered stocks. When coupled with evidence that the estuary and the plume (as an extension of the estuary) may be highly modified habitats due to river modifications (e.g. altered channel morphology) and modified flows as a result of the federal hydropower system, potential for achievable improvement in salmon survival from management actions seems plausible. An understanding of which factors affect survival will require a partitioning of survival (and mortality) among freshwater, estuarine, and early ocean phases. This in turn will require knowledge of the processes that limit and/or enhance salmon survival in these habitats. These processes, though well characterized in the freshwater environment, have not been characterized in the estuarine and plume environment. Since 1998, we have been evaluating the Columbia River plume as a critical habitat for juvenile salmon. Here, we request a continuation of this work, with modifications based on findings to date.

The Columbia River is a major source of salmon to the sea, thus first principles dictate that it is logical to focus a major effort on studies of the salmon-plume interactions, particularly during May and June when outmigrating Columbia River salmon are first entering the sea.  Locally, the Columbia River plume, as a natural extension of the estuary, represents a habitat of less saline marine waters that is hypothesized to be critical to salmon survival when they are making the transition from freshwater to saltwater. This is supported by recent studies assessing the importance and impact of river plumes to salmon survival. The mechanisms by which the Columbia River estuary and plume may affect juvenile salmon survival have not been determined, but likely include provision of food resources, a refuge from predators due to the turbidity (thus low visibility) in the plume, and a refuge from coastal predators due to rapid transport offshore and away from the coastal zone by the riverine plume.

The shape and extent of the Columbia River plume is controlled largely by the amount of freshwater flowing out of the Columbia River. The timing and amount of flow affects the amount of sediment (and turbidity), as well as the amount of nutrients which fuel estuarine and oceanic productivity. Flow regulation, water withdrawal and climate change have reduced the average flow and altered the seasonality of Columbia River flows, changing the estuarine ecosystem). Annual spring freshet flows through the Columbia River estuary are ~50% of the traditional levels that flushed the estuary, and total sediment discharge is ~1/3 of 19th Century levels. Decreased spring flows and sediment discharges have also reduced the extent, speed of movement, thickness, and turbidity of the plume that once extended far out and south into the Pacific Ocean during the spring and summer.

An emphasis on survival of salmon in the estuarine and marine environment is warranted because approximately half of all pre-adult (egg through juvenile stage) salmon mortality occurs there. Variability in ocean salmon survival is very high, ranging over three orders of magnitude over the past three decades for coho (PSFMC unpublished data 1995). Abiotic and biotic ocean conditions are highly variable as well, and undoubtedly account for the large range of juvenile salmon ocean survival. Long-term regime shifts in climatic processes and El Niño and La Niña events affect oceanic features and can produce abrupt differences in salmon marine survival and returns (Francis and Hare 1994). One of the latest recognized regime shift occurred in the late 1970s and may have been a factor in reduced ocean survival of salmon in the Pacific Northwest (PNW) and increased survival in Alaska during the period 1977-1998. Recent changes in ocean conditions, which began in late 1998 and continue to present, provide evidence of a possible new regime shift that is favorable to salmon survival in the Pacific Northwest.

Our recent work in the plume and adjacent coastal zone has now shown that the northern California Current may have experienced another regime shift, beginning in late 1998. Due in large part to increases in the length of the upwelling season in 1999, zooplankton biomass has doubled in the coastal waters off Oregon, community composition has shifted to a dominance of cold water species, and salmon survival has increased five-fold. Therefore, it is important to keep in mind that the plume and plume dynamics are modulated by climate influences at decadal scales as well as inter-annual, seasonal and daily scales depending upon the strength of the upwelling process. Thus, plume-ocean interactions are a key component of our research program.

In 2008, efforts will focus on three sampling cruises in May, June and September to assess the abundance and distribution of chinook and coho salmon and steelhead stocks originating from the Columbia River Basin to extend the time series begun in 1998. Complimentary information on the associated pelagic fish community, including piscine predators, and the oceanographic conditions will be collected that will be used to refine and identify the controlling factors in the early ocean environment (including the plume) that affect the growth, survival, and eventual return of adult salmon back to the Columbia River Basin. The information generated will be used to forecast eventual adult returns one to three years in advance of their actual return.
Account Type(s):
Expense
Contract Start Date:
06/01/2008
Contract End Date:
05/31/2009
Current Contract Value:
$150,000
Expenditures:
$150,000

* Expenditures data includes accruals and are based on data through 30-Nov-2024.

BPA COR:
Env. Compliance Lead:
Work Order Task(s):
Contract Type:
Grant
Pricing Method:
Cost Reimbursement (CNF)
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Viewing of Work Statement Elements

Deliverable Title WSE Sort Letter, Number, Title Start End Concluded
Funding Package - Submit draft to COTR A: 119. Routine contract administration 03/31/2009 03/31/2009
Physical Habitat Metrics Report B: 162. Characterize spatial and temporal physical features of the plume 05/31/2009 03/31/2009
Attach copy of journal submission in Pisces C: 183. Produce Journal Article 04/30/2009 03/31/2009

Viewing of Implementation Metrics
Viewing of Environmental Metrics Customize

Primary Focal Species Work Statement Elements
Chinook (Oncorhynchus tshawytscha) - All Populations
  • 1 instance of WE 183 Produce Journal Article
  • 1 instance of WE 162 Analyze/Interpret Data
Coho (Oncorhynchus kisutch) - Lower Columbia River ESU (Threatened)
  • 1 instance of WE 183 Produce Journal Article
  • 1 instance of WE 162 Analyze/Interpret Data
Steelhead (Oncorhynchus mykiss) - All Populations
  • 1 instance of WE 183 Produce Journal Article
  • 1 instance of WE 162 Analyze/Interpret Data

Sort WE ID WE Title NEPA NOAA USFWS NHPA Has Provisions Inadvertent Discovery Completed
A 119 Routine contract administration 02/09/2007
B 162 Characterize spatial and temporal physical features of the plume 02/09/2007
C 183 Produce Journal Article 02/09/2007
D 185 Periodic Status Reports for BPA 02/09/2007
E 132 Progress Report Submitted by Ed Casillas (Project Lead) 02/09/2007