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Lasting Legacies
 

During Orca Month in 2023, through stories and videos, we'll honor the Lasting Legacies of the Southern Resident orcas and celebrate the legacy of the 50th anniversary of the Endangered Species Act.

Coming soon!

 


This week, we continue further down the coast to explore the Columbia-Snake Rivers and their connection to northwest salmon and Southern Resident orcas.





Historical salmon data for The Columbia and Snake Rivers estimates that 10-16 million wild salmon and steelhead entered the Columbia River Basin to spawn, annually, with 2-4 million more utilizing the Snake River watershed. The Columbia River Basin was once home to the largest runs of Chinook salmon in the world, and roughly half of those Chinook returned to the Snake River in the spring and fall seasons about 200 years ago. Today, less than 1 million fish return to the Columbia River, and fewer than 60,000 wild fish return to the Snake each year.


What began the downfall of salmon populations in this river system?


Largely, the establishment of salmon canneries in 1867 was the first cause of decline in wild salmon populations. In 1879 it was reported that over half a million salmon, with an average weight of 22 pounds, were caught and canned in a single season. At the turn of the century, widespread concern for catch rates of salmon caused the people of Oregon to pass two laws limiting fishing on the Columbia and other rivers. While efforts to curb overfishing (by also banning seine netting) continued into the late 1940s, major modifications to the Columbia and Snake Rivers were also in progress in the form of dams and hydrosystem facilities to generate power, provide flood control, and irrigation options for farming.




Hydrosystem Complexities for salmon on the Columbia-Snake River: Dams and Salmon Don’t Mix


Dams built in the 1930s and 1950s along the Columbia River, and dams built in the 1960s and 1970s along the Lower Snake River, have impeded salmon from reaching their northernmost and easternmost spawning sites, since. By 1986, Snake River Coho were extinct. Today, all surviving Snake River salmon populations are listed under the Endangered Species Act and threatened with extinction. Per the Endangered Species Coalition, “On average, there is a major dam every 72 miles in the Columbia River Basin. The upper stretches of the Columbia and the Snake rivers are impassible at the Chief Joseph and Hells Canyon dams, respectively. But salmon can navigate past some other dams.

Four federal dams managed by the Army Corps of Engineers on the lower Snake are built with fish ladders for returning adult salmon, but out-migrating juveniles (smolts) have a very difficult time getting to the ocean.”

The nine dams along the Columbia prior to reaching Chief Joseph dam, and eight dams along the Columbia-Snake prior to Hells Canyon present massive challenges to both inbound and outbound salmon. Out-migrating salmon smolts have a perilous journey, as they must navigate through a series of hydrosystems, dam turbines, sluiceways, stagnant reservoirs, warming waters, contaminants, and various predators before reaching the Pacific Ocean.


Even if a juvenile salmon manages to reach the Pacific Ocean against these odds, there may still be ramifications leading to mortality due to the stress of navigating these hydrosystems.


While complex in nature due to a degree of variables, fish Biologists and scientists that have studied Columbia-Snake River smolts have discovered that the hydrosystem stressors experienced by out-migrating juveniles may also likely cause some salmon a delayed mortality. Hydrosystem stress on salmon leads them to delay their development and suppress their immune systems, as more energy is channeled into survival, instead. Entering the ocean in a weakened condition can increase the chance that these salmon will be susceptible to disease, parasites, or may not successfully adapt to the saltwater environment. Even if they make it downstream through each aspect of the hydrosystem, they still may not become a viable specimen in their ocean environment. Which also means they will not become accessible orca food.


Actions To Bring Wild Salmon Back to the Columbia-Snake River System:

According to Wild Orca, “NOAA Fisheries, the federal agency charged with protecting both endangered orcas and endangered salmon, has described the decline of Columbia Basin chinook salmon as, “[p]erhaps the single greatest change in food availability for resident killer whales since the late 1800s...”

Whale and Dolphin Conservation adds, “Breaching the Snake River dams, in combination with increased spill (water flow) through other dams in the Columbia River Basin, provides more certainty of long-term survival and recovery for wild Snake River Chinook salmon than any other measure… Removing the dams and increasing spill would help the river system return to more natural conditions, which can help increase survival of wild Snake River Chinook salmon to the point of rebuilding healthy populations – something that the federal agencies themselves recognized in their recent review of dam operations.”



Amanda Colbert


This week, we continue further down the coast to explore the Columbia-Snake Rivers and their connection to northwest salmon and Southern Resident orcas.



The Columbia River headwaters originate in Columbia Lake, British Columbia, and travel 1,253 miles from its source to its mouth where it meets the Pacific Ocean at Astoria, Oregon. By volume, the Columbia River is the 4th largest river in North America, traveling through four mountain ranges and draining more water into the Pacific Ocean than any other river in North or South America. Historically, 10-16 million wild salmon and steelhead would move into the Columbia River aimed at spawning sites upriver. Certain salmon runs would travel as far inland as some of the tributary waters in British Columbia, Canada.




The Snake River headwaters originate from the western side of Wyoming in the Rocky Mountains, flowing due west through Idaho before making a sharp turn north along the Idaho/Oregon state line. The Snake flows 1,078 miles until it meets the Columbia River at the Tri-Cities in Washington State and is the largest tributary waterway of the Columbia. The Snake River watershed covers roughly 108,000 square miles and spans six states including Wyoming, Idaho, Nevada, Utah, Oregon, and Washington. Historically, 2-4 million wild salmon and steelhead would move into the Snake River aimed at spawning sites as far inland as Central Idaho. The Snake River basin once produced roughly half of all spring Chinook returning to Columbia basin rivers and tributaries. These “Springers” were/are highly desirable to tribes and fishermen because of their high-fat content, and vital to the Southern Resident orcas for the same reason.


These two rivers unify a large portion of the Pacific Northwest, with drainage basins spanning portions of seven U.S. states and British Columbia, in Canada. Historically, the Columbia and Snake Rivers provided unobstructed, optimal, and pristine habitat for the wild salmon and steelhead returning to spawn. Today, man-made pressures, dams, and environmental challenges have pushed wild salmon and steelhead populations to the brink, with the Federal Government currently listing 12 of the 13 salmon populations found in this river system as being “high risk” for extinction.


With the precipitous decline of salmon in the Columbia-Snake River system comes the compounded effects of decreased food availability for the Southern Resident orcas who have relied especially on the Chinook that enter the Columbia-Snake in the spring. The winter/spring period is an especially critical time for Southern Residents, with Chinook salmon typically less available, naturally, during this lean time. Continuing to reduce what winter/spring resources are available has contributed to the overall continued decline of their population.





The Chehalis River is the second largest river in Washington State and one of the only remaining free flowing major rivers on the west coast.

It is one of the biggest producers of wild (non-hatchery) salmon in the state. It contains 31 salmonid stocks, and supports spawning of wild spring Chinook, fall Chinook, Coho, and Steelhead. None of the salmon stocks are currently listed as threatened or endangered under the U.S. Endangered Species Act, however salmon in the Chehalis Basin have seriously declined 50 to 80% due to overfishing, unregulated timber harvest, and habitat destruction. It is estimated that the Basin’s spring run Chinook could be functionally extinct by the end of the century unless action is taken.


Chinook salmon from the Chehalis River are part of the Washington Coast stock which is listed as a priority stock for the endangered Southern Resident orcas, and satellite tagging has shown that Southern Resident orcas feed off Grays Harbor where the Chehalis River enters the Pacific Ocean.

Due to frequent and sometimes catastrophic flooding in the region, the Chehalis Basin Board is proposing the construction of a “flood retention facility” (dam) to mitigate the effects of floods.


The proposed dam would drown 6 miles of critical salmon and steelhead habitat, result in increased temperature and decreased dissolved oxygen and would permanently eliminate many acres of habitat. It would only protect a small percentage of homes and businesses in the Chehalis Basin, primarily those located along the I-5 corridor. The proposed project requires both state and federal permits, and both of those processes are currently underway. Out of concern for the impacts this dam would have on the river, salmon, local tribes, and Southern Resident orcas, a coalition of concerned citizens, Tribes, and local organizations formed the Chehalis River Alliance.


In July 2020, Governor Inslee expressed concern about the construction of a dam and directed the Chehalis Basin Board to work with local tribes to develop non-dam alternatives. As a result, the LAND (Local Actions Non-Dam) Steering Committee is currently meeting to develop sustainable flood reduction projects in the Chehalis Basin.


Action Item:

Here is how you can help stop the construction of the Chehalis River flood retention facility:

· Learn more about the Chehalis Basin and the proposed dam at www.chehalisriveralliance.org

· Watch the documentary Chehalis: A Watershed Moment on Amazon Prime

· Contact your local Washington legislators, and Governor Inslee’s office and let them know that you oppose the construction of a dam on the Chehalis River, and that you support local non-dam alternatives that will mitigate flooding while protecting and restoring important salmon habitat.

o Contact Governor Inslee’s office: Contacting the Governor | Governor Jay Inslee (wa.gov)

Sources:

· Chehalis Basin Strategy Fish and Wildlife Fact Sheet

· Proposed Chehalis River Basin Flood Damage Reduction Project, 2020

· Northwest Fisheries Science Center satellite tagging blog











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