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American Fisheries Society Backs Snake River Dam Breaching by Eric Barker Lewiston Tribune, January 18, 2023

Says restoring waterway would help save wild salmon, steelhead

Citing science done by many of its members, the American Fisheries Society said this week that breaching the lower Snake River dams is needed to guard against the extinction of wild salmon and steelhead in the basin and to better improve their odds of recovery.

The group's governing board adopted the position at its annual meeting Wednesday. The Western Division of AFS approved dam breaching on the Snake last month and has done so multiple times in the past, dating back to 1999. But this week marked the first time the national organization of fisheries professionals has taken a position on the topic that has been debated regionally for three decades.

"This is a major fisheries issue and we thought we should sort of be on the table, and it was important to take a stand," said Drue Winters, policy coordinator for the Bethesda, Md., based organization.

The four dams between Lewiston and the Tri-Cities were built by the Army Corps of Engineers in the 1960s and 1970s. They produce hydroelectric power, make it possible to ship commodities like wheat from Lewiston to Portland, Ore., and provide irrigation to a small number of farms near the Tri-Cities.

The dams were built with fish ladders that allow adult salmon and steelhead to swim upstream and reach their high-elevation spawning grounds in Idaho and parts of southeastern Washington and northeastern Oregon. Offspring of those fish must navigate through and around the four dams and four more on the lower Columbia River to reach the Pacific Ocean, where most spend one to three years before returning.

Fisheries scientists say the dams present a number of challenges. The migration of juvenile fish is significantly slowed and they must contend with a host of predators in the slackwater reservoirs behind the dams. They also suffer injury and fatigue with each dam passing. Both juveniles and adults can be harmed by elevated summer water temperatures exacerbated by the dams. According to a statement released by the organization, wild fish numbers are equal to just 1% to 2% of historic populations. Wild populations of Snake River steelhead, spring chinook and fall chinook are listed as threatened under the Endangered Species Act. Snake River sockeye are listed as endangered.

"Scientific studies continue to show that breaching the four lower Snake River dams would provide greater certainty of achieving long-term survival and recovery of native wild fishes more than any other measure or combination of measures without dam breaching," reads a portion of the statement.

It notes the dams provided services that would need to be replaced and doing so will take time. The group mentioned that Pacific Northwest politicians such as Rep. Mike Simpson of Idaho, and Gov. Jay Inslee and Sen. Patty Murray of Washington have weighed in on the topic with varying levels of support for breaching and or finding new ways to produce power, ship grain and irrigate crops in the absence of dams.

Winters said the society will distribute the statement to policy makers in the region and on Capitol Hill. At some point, she said the group is likely to organize a briefing to key congressional staffers in Washington, D.C.

"We would get scientists to come to talk about (the statement) and ... why we feel like this is the best long-term solution for healthy and harvestable wild fisheries in the Snake River system."

Last year the National Oceanic and Atmospheric Administration said in a report that the dams must be breached if wild Snake River salmon and steelhead are to be restored to healthy and harvestable levels.

STATEMENT OF THE AMERICAN FISHERIES SOCIETY (AFS) AND THE WESTERN DIVISION AFS (WDAFS) ABOUT THE NEED TO BREACH THE FOUR DAMS ON THE LOWER SNAKE RIVER

Formally adopted by WDAFS December 2022 and the AFS Governing Board January 2023

The Columbia River ecosystem was once a network of complex, interconnected habitats that supported the most prolific salmon habitat in the world. Its Snake River basin once supported nearly fifty percent of the Chinook salmon and steelhead in the entire Columbia River Basin. Now, decades after their initial Endangered Species Act listings, native fish populations in the Snake River basin including salmon, migratory trout, sturgeon, lamprey, and others have not recovered, and many are alarmingly low and trending towards extinction. The once free-flowing river has been transformed into reservoirs by a series of dams that impede the movement of these fishes and greatly decreases their survival. The four dams on the lower Snake River (Ice Harbor, Lower Monumental, Little Goose, and Lower Granite) significantly reduce access to the cold-water, high-quality spawning and nursery habitat that are essential for fish sustainability (Storch et al. 2022).

When the body of scientific evidence is considered (Williams et al. 1989; Nehlsen et al. 1991; Thurow 2000; NOAA 2017, 2022; Isaak et al. 2018; Storch et al. 2022; TU 2022), it is clear that breaching the four lower Snake River dams is necessary to (1) substantially improve the probability of recovering these cultural and ecological keystone species to healthy and harvestable populations and (2) safeguard those fishes from extinction.

Salmon and other anadromous fish move between the upriver spawning and rearing habitats and the ocean and back again. Today, only 1-2% of historic wild salmon and steelhead numbers return to the Snake River to spawn above the four lower dams. Climate change has (NWPCC 2015; Storch et al. 2022) and will continue to worsen the outlook for these coldwater species. Access to this habitat is the best opportunity to promote broad-scale population recovery and persistence in the face of climate-change induced warming.

Restoring healthy and harvestable salmon and steelhead populations will require a change in approach. Since the 1980s, many fisheries recovery strategies (e.g., supplementing with hatchery-raised fish, transporting fish, fish passage improvements, and rehabilitating habitat) have been attempted with little or no success. Despite spending billions on recovery, these species continue to decline, affecting both aquatic and terrestrial ecosystems, other imperiled species, tribal rights, and commercial and recreational fishing.

Scientific studies continue to show that breaching the four lower Snake River dams would provide greater certainty of achieving long-term survival and recovery of native wild fishes more than any other measure or combination of measures without dam breaching. Breaching the dams to restore riverine habitats in the lower Snake River will also benefit ecosystem processes, entire biological communities, and increase climate change resilience of anadromous fishes. Dam breaching has shown success towards recovering migratory fish species, notably in the Elwha River, WA (Hess et al. 2020; Storch et al. 2022) and Kennebec and Penobscot rivers, ME (Johnston et al. 2019; Kober 2019; Prosek 2020; Sharma and Waldman 2021; Wippelhauser 2021; NRCM 2022). Notably, the Penobscot River project was accomplished by a combination of breaching, fish passageways, and increased power production for different dams, such that total hydropower production was maintained while restoring diadromous fish runs.

Although the four lower Snake River dams and reservoirs provide hydroelectric energy for western states, irrigation water for agriculture, and allow commercial navigation to move grain and other goods efficiently, they have led to significant declines in fish populations. The best available science suggests that a significant portion of the lower Snake River must be returned to a free-flowing condition to restore Snake River salmon populations. Proposals to breach the four lower Snake River dams have a long history, but the subject has become more critical as these iconic fish populations approach extinction. The WDAFS unanimously passed a resolution in 2011 and a subsequent letter to Oregon Governor Kate Brown in 2020 saying that breaching these dams will be required if these runs are to be recovered. Likewise, U.S. Representatives Simpson (R.-Idaho) and Blumenauer (D-Ore.) have proposed breaching these dams while also addressing the needs of stakeholders and tribal rightsholders who depend on the river. In summer 2022, Washington Governor Jay Inslee and Senator Patty Murray (D-Wash.) released a final report for the government to move forward to provide replacements of these dams' benefits (e.g., wind and solar power production and truck and railway transportation of goods [SOS 2022]), so that breaching is a credible pathway for policymakers to consider. The Biden Administration is also working to develop a comprehensive salmon restoration plan to settle longstanding litigation with Tribes, the state of Oregon, and conservation organizations.

If Snake River basin salmon and steelhead are to be saved, then policymakers and stakeholders at all levels will need to implement appropriate processes and funding provisions to breach the four dams on the Lower Snake River, as well as implement all necessary habitat rehabilitation. There are other services that must be accounted for if dam breaching were to occur. Dam removals often take decades of comprehensive planning and implementation, and replacing those services provided by the dams will also take time. This will require Congress, the Biden Administration, regional rightsholders, and stakeholders, to negotiate an agreement soon for the dam removal to proceed expeditiously.

The AFS represents over 7,500 professional fishery scientists and resource managers across the world. The WDAFS includes US states west of the Mississippi River basin and Pacific Canada. Our common mission is to improve the conservation and sustainability of fishery resources and aquatic ecosystems by (1) advancing fisheries and aquatic science and (2) promoting the development of fisheries professionals. Our members represent a holistic array of fisheries experts who are employed in academia, government agencies, nongovernmental organizations, and private consulting.

References

Hess, J. E., R. L. Paradis, M. J. Moser, L. A. Weitkamp, T. A. Delomas, and S. R. Narum. 2020. Robust recolonization of Pacific Lamprey following dam removals. Transactions of the American Fisheries Society 150:56-74.

Isaak, D. J., C. H. Luce, D. L. Horan, G. L. Chandler, S. P. Wollrab, and D. E. Nagel. 2018. Global warming of salmon and trout rivers in the northwestern U.S.: road to ruin or path through purgatory? Transactions of the American Fisheries Society 147:566-587.

Johnston, C., G. B. Zydlewski, S. Smith, J. Zydlewski, and M. T. Kinnison. 2019. River reach restored by dam removal offers suitable spawning habitat for endangered Shortnose Sturgeon. Transactions of the American Fisheries Society 148:163-175.

Kober, A. S. 2019. Twenty years of dam removal successes - and what's up next: the lesson from the Kennebec after twenty years? Dam removal works. American Rivers Media Center (Washington, DC), June 27:1 www.americanrivers.org/2019/06/twenty-years-of-dam-removal-successes-and-whats-up-next

Nehlsen, W. J., J. E. Williams, and J. A. Lichatowich. 1991. Pacific salmon at the crossroads: stocks at risk from California, Oregon, Idaho, and Washington. Fisheries 16:4-21.

NOAA (National Oceanic and Atmospheric Administration). 2017. ESA recovery plan for Snake River spring/summer Chinook and Snake River Basin steelhead. National Marine Fisheries Service, Portland, OR. media.fisheries.noaa.gov/dam-migration/final-snake-river-spring-summer-chinook-salmon-and-snake-river-steelhead-recovery-plan-2017.pdf.

NOAA. 2022. Rebuilding interior Columbia Basin salmon and steelhead. media.fisheries.noaa.gov/2022-07/icrb-salmon-steelhead-recovery-summary-draft-v2.5.pdf

NRCM (Natural Resources Council of Maine). 2022. Penobscot River Restoration Project. www.nrcm.org/programs/waters/penobscot-river-restoration-project

NWPCC (Northwest Power and Conservation Council). 2015. Warm water blamed for huge Columbia River Sockeye die-off. www.nwcouncil.org/news/warm-water-blamed-huge-columbia-river-sockeye-die

Prosek, J. 2020. If you unbuild it, they will come -- the fish, that is. National Geographic [online], August 14:1 p. www.nationalgeographic.com/ animals/2020/08/dam-removal-restores-alewife-run

Sharma, S., and J. Waldman. 2021. Potential solar replacement of hydroelectricity to reopen rivers: Maine as a case example. Fisheries 46:383-390.

SOS (Save Our wild Salmon), 2022. Why remove the 4 Lower Snake River dams? www.wildsalmon.org/facts-and-information/why-remove-the-4-lower-snake-river-dams.html

Storch, A. J., H. A. Schaller, C. E. Petrosky, R. L. Vadas Jr., B. J. Clemens, G. Sprague, N. Marcado-Silva, B. Roper, M. J. Parsley, E. Bowles, R. M. Hughes, and J. A. Hesse. 2022. A review of potential conservation and fisheries benefits of breaching four dams in the Lower Snake River (Washington, USA). Water Biology & Security 1(2). doi.org/10.1016/j.watbs.2022.100030

Thurow, R. F. 2000. Dynamics of Chinook Salmon populations within Idaho's Frank Church Wilderness: implications for persistence. Pages 143-151 in S. F. McCool, D. N. Cole, W. T. Borrie, and J. O'Loughlin, editors. Wilderness Science in a Time of Change Conference. U.S. Forest Service, Proceedings RMRS-P-15-VOL 3, Ogden, Utah.

Thurow, R. F., T. Copeland, and B. N. Oldemeyer. 2020. Wild salmon and the shifting baseline syndrome: application of archival and contemporary redd counts to estimate historical Chinook Salmon (Oncorhynchus tshawytscha) production potential in the central Idaho wilderness. Canadian Journal of Fisheries and Aquatic Sciences 77:651-665.

TU (Trout Unlimited). 2022. Why we need a free-flowing Lower Snake River. www.tu.org/scientific-case-lower-snake.

Williams, J. E., J. E. Johnson, D. A. Hendrickson, S. Contreras-Balderas, J. D. Williams, M. Navarro-Mendoza, D. E. McAllister, and J. E. Deacon. 1989. Fishes of North America endangered, threatened, or of special concern: 1989. Fisheries 14:2-20.

Wippelhauser, G. 2021. Recovery of diadromous fishes: a Kennebec River case study. Transactions of the American Fisheries Society 150:277-290.