Snake River

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The Snake River is a major river in the interior Pacific Northwest region of the United States. About Template:Convert long, it is the largest tributary of the Columbia River, which is the largest North American river that empties into the Pacific Ocean. Beginning in Yellowstone National Park, western Wyoming, it flows across the arid Snake River Plain of southern Idaho, the rugged Hells Canyon on the borders of Idaho, Oregon and Washington, and finally the rolling Palouse Hills of southeast Washington. It joins the Columbia River just downstream from the Tri-Cities, Washington, in the southern Columbia Basin.

The river's watershed, which drains parts of six U.S. states, is situated between the Rocky Mountains to the north and east, the Great Basin to the south, and the Blue Mountains and Oregon high desert to the west. The region has a long history of volcanism; millions of years ago, Columbia River basalts covered vast areas of the western Snake River watershed, while the Snake River Plain was a product of the Yellowstone volcanic hotspot. The river was further altered by catastrophic flooding in the most recent Ice Age, which created such features as the Snake River Canyon and Shoshone Falls.

The Snake River once hosted some of the largest North American runs of salmon and other anadromous fish. For thousands of years, salmon fishing has played a central role in the culture and diet of indigenous peoples. The Shoshone and Nez Perce were the largest of several tribes that lived along the river by the turn of the 19th century. In 1805, while searching for a route from the eastern US to the Pacific, Lewis and Clark became the first non-natives to see the river. Fur trappers explored more of the watershed, and drove beaver to near extinction as the Americans and British vied for control of Oregon Territory.

Although travelers on the Oregon Trail initially shunned the dry and rocky Snake River region, a flood of settlers followed gold discoveries in the 1860s, leading to decades of military conflict and the eventual expulsion of tribes to reservations. At the turn of the 20th century, some of the first large irrigation projects in the western US were developed along the Snake River. South-central Idaho earned the nickname "Magic Valley" with the rapid transformation of desert into farmland. Numerous hydroelectric dams were also constructed, and four navigation dams on its lower section created a shipping channel to Lewiston, Idaho – the furthest inland seaport on the West Coast.

While dam construction, commercial fishing and other human activities have greatly reduced anadromous fish populations since the late 19th century, the Snake River watershed is still considered important habitat for these fish. The Snake and its tributary, the Salmon River, host the longest sockeye salmon run in the world, stretching Template:Convert from the Pacific to Redfish Lake, Idaho. Since the 1950s, public agencies, tribal governments and private utilities have invested heavily in fishery restoration and hatchery programs, with limited success. The proposed removal of the four lower Snake River dams for fish passage is a significant ongoing policy debate in the Pacific Northwest.

CourseEdit

The Snake River starts to the north of Two Ocean Pass near the southern border of Yellowstone National Park, about Template:Convert above sea level in the Rocky Mountains of Wyoming.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The river descends west through the high mountains of the Teton Wilderness meeting the Lewis River and continuing south into Jackson Lake in Grand Teton National Park, a natural glacial lake enlarged by Jackson Lake Dam.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Joined by Pacific Creek and Buffalo Fork below the dam, it meanders southward through the alpine valley of Jackson Hole situated on the plain in front of the Teton Range to the west and the Gros Ventre Range to the east.

Below the town of Jackson it forms the Snake River Canyon of Wyoming, turns west and crosses into Idaho, where the Palisades Dam forms Palisades Reservoir. From there it flows northwest through Swan Valley to join the Henrys Fork on an alluvial plain near Rexburg.<ref name="TNM">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The Henrys Fork is sometimes called the "North Fork" of the Snake River,<ref name="GNIS Henrys Fork"/> while the section of the main Snake River above their confluence is sometimes called the "South Fork".<ref name="GNIS"/><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Turning southwest, the river begins its long journey across the Snake River Plain, passing through Idaho Falls and receiving the Blackfoot River from the left before entering the Template:Convert-long American Falls Reservoir, formed by American Falls Dam.<ref name="TNM"/> From American Falls it turns west, flowing through Minidoka Dam and Milner Dam, where large volumes of water are diverted for irrigation.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Below Milner Dam it enters the Snake River Canyon of Idaho, where the river narrows, forming rapids and waterfalls. In the Template:Convert stretch between Milner Dam and the confluence with the Malad River near Hagerman Fossil Beds National Monument, the Snake River descends a total of Template:Convert over a series of cataracts and rapids, chief of which include Caldron Linn, Twin, Shoshone, Pillar, Auger, and Salmon Falls.<ref name="USGS Kimberly">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="USGS Twin Falls">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="USGS Jerome">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="USGS Hagerman">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Idaho Power operates several small hydroelectric plants along this stretch of the river.<ref name="Idaho Power hydro plants"/> The largest single drop is Template:Convert Shoshone Falls, which in the spring flows with such force that 19th-century writers called it the "Niagara of the West".<ref name="Williamson 1997">Template:Cite book</ref>Template:Rp

The Snake River continues flowing west, through the C. J. Strike Reservoir where it is joined from the left by the Bruneau River, then through the Morley Nelson Snake River Birds of Prey National Conservation Area before entering farmland on the western side of Idaho's Treasure Valley.<ref group="n">The Treasure Valley was historically known as the Boise Valley or Snake River Valley, and was only given the modern name in 1959.<ref>Template:Cite news</ref> Uses of the name "Boise Valley" in this article, in a historical context, refer to the Treasure Valley.</ref> Passing Template:Convert west of Boise, it crosses briefly into Oregon before turning north to form the Oregon–Idaho border.<ref name="TNM"/> It is joined by several major tributaries in quick succession – the Boise River from the right, the Owyhee and Malheur Rivers from the left, the Payette and Weiser Rivers from the right near Ontario, Oregon, then the Powder and Burnt Rivers from the left.<ref name="TNM"/> Continuing north, the river enters Hells Canyon, which slices between the Rocky Mountains of Idaho and the Blue Mountains of Oregon and Washington.<ref name="TNM"/> The Hells Canyon Hydroelectric Complex includes the Brownlee, Oxbow and Hells Canyon Dams in the upper reaches of the canyon.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Since its construction in 1967, Hells Canyon Dam has been the upriver limit for migrating salmon; in the past, salmon swam as far upriver as Shoshone Falls.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Emerging from Hells Canyon Dam, the Snake surges northward through the Hells Canyon Wilderness, where the majority of the river corridor is accessible only by boat and numerous Class III-IV rapids<ref>Template:Cite book</ref>Template:Rp historically posed a major barrier to navigation.<ref>Template:Cite encyclopedia</ref> Today, the canyon and the surrounding Hells Canyon National Recreation Area are a popular location for whitewater boating, fishing, horseback riding and backpacking.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="Snake NWSR"/> With the adjacent Seven Devils Mountains rising up to Template:Convert above the river, Hells Canyon is one of the deepest canyons in North America, almost one-third deeper than the Grand Canyon.<ref name="USFS Hells Canyon">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Within the canyon it is joined from the left by the Imnaha River, then from the right by its longest tributary, the Salmon River. Further north, it begins to form the Idaho–Washington border, and receives the Grande Ronde River from the left.<ref name="TNM"/> From the end of Hells Canyon at Asotin, Washington, it flows north to Lewiston, Idaho, where it is joined from the right by the Clearwater River, its largest tributary by volume. The Snake then turns sharply west to enter Washington.<ref name="TNM"/>

The final stretch of the Snake River flows through steep-sided valleys in the Palouse Hills of southeast Washington. Near Lyons Ferry State Park, it is joined from the left by the Tucannon River, then from the right by the Palouse River, which forms Palouse Falls about Template:Convert upstream of its confluence with the Snake.<ref name="TNM"/> The Lower Snake River Project consists of four dams equipped with navigation locks – Lower Granite, Little Goose, Lower Monumental and Ice Harbor – which have transformed the once fast-flowing lower Snake River into a series of lakes, enabling heavy barges to travel between the Columbia River and the Port of Lewiston.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> About Template:Convert downstream from Ice Harbor Dam, the Snake empties into the Columbia River at Burbank, Washington, southeast of the Tri-Cities.<ref name="TNM"/> The confluence is located on Lake Wallula, the impoundment behind McNary Dam on the Columbia,<ref name="TNM"/> Template:Convert above sea level.<ref name="GNIS"/> From there, the Columbia River flows another Template:Convert west to empty into the Pacific Ocean.<ref name="USGS Pasco">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

DischargeEdit

The U.S. Army Corps of Engineers has measured the discharge, or flow rate, of the Snake River at Ice Harbor Dam since 1962. The mean annual discharge for the 61-year period between 1962 and 2023 was Template:Convert, with a maximum recorded daily mean of Template:Convert on June 19, 1974, and a minimum daily mean of Template:Convert on November 29, 1961.<ref name=iceharbordam/> A historic June 1894 flood at the Ice Harbor site reached an estimated peak of Template:Convert.<ref name="Perkins 1973">Template:Cite report</ref> In terms of discharge, the Snake River is the twelfth largest river in the United States, and it contributes about one-fifth of the Columbia's total outflow into the Pacific.<ref name="USGSrivers">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

The volume of the Snake River peaks in late spring and early summer as snow melts in the Rocky Mountains, and reaches its lowest point in the fall. Despite the numerous dams regulating its flow, its discharge into the Columbia remains highly seasonal.<ref name="Benke and Cushing 2005"/>Template:Rp At Ice Harbor Dam, the mean monthly discharge is highest in May and June at over Template:Convert, and lowest in September and October at less than Template:Convert.<ref name=iceharbordam/> Mean annual discharge also fluctuates significantly, from a record high of Template:Convert in 1965, to a low of Template:Convert in 1997.<ref name=iceharbordam/>

In southern Idaho, Snake River flows are significantly influenced by the Eastern Snake River Plain Aquifer. One of the largest groundwater reserves in the US, the aquifer is founded in porous volcanic rock underneath the plain. It absorbs and stores large volumes of water from the Snake River in the eastern Plain to re-emerge further west as springs in the Snake River Canyon.<ref name="uppersnakeprovince">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Water from the lost streams of Idaho, several rivers that disappear underground in the eastern Plain, travels through the aquifer to reach the Snake River,<ref>Template:Cite journal</ref> as does excess irrigation water absorbed into the ground.<ref name="Snake River Plain hydrogeology"/> The major spring complexes at American Falls and Thousand Springs (near Hagerman, Idaho) keep the river flowing steadily even in the driest of summers.<ref name="ISU Snake River Plain aquifer">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> At King Hill, about Template:Convert northwest of Twin Falls, water levels remain about Template:Convert for most of the year, increasing about 20 percent during snowmelt and decreasing about 20 percent with late summer irrigation diversions.<ref name="Snake River Plain hydrogeology">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="USGS Snake River at King Hill">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Despite its great length, the Snake River accumulates most of its water in the lower one-fourth of its course. By the time it reaches Hells Canyon Dam, Template:Convert from the mouth, the mean annual discharge is about Template:Convert – just over a third of the discharge at the mouth.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Just two downstream tributaries, the Clearwater and Salmon Rivers, contribute about half of the total flow of the Snake.<ref name="Benke and Cushing 2005"/>Template:Rp

WatershedEdit

The Template:Convert<ref name="USGS"/> Snake River watershed drains about 87 percent of the state of Idaho, 18 percent of Washington and 17 percent of Oregon, in addition to small portions of Wyoming, Utah and Nevada.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> From the Lost Trail Pass north of Salmon, Idaho to Tri-Basin Divide south of Afton, Wyoming, the eastern edge of the Snake River watershed follows the Continental Divide. As the Continental Divide also forms the Idaho–Montana border south of Lost Trail Pass, the Snake watershed touches Montana for a long distance, but does not extend into it.<ref name="TNM"/> The Snake drains by far the largest area of any Columbia River tributary, making up about 40 percent of the entire Columbia River watershed.<ref name="Benke and Cushing 2005"/>Template:Rp Compared with the Columbia above their confluence, the Snake River is about Template:Convert longer<ref group="n">The Columbia River above the Snake has a length of approximately Template:Convert.<ref name="TNM"/></ref> and drains a similarly sized area,<ref name="USGS"/><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> though the Columbia carries more than twice the volume of water.<ref name=iceharbordam/><ref name="Columbia at Priest Rapids">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

The Snake River watershed is very mountainous, with the northern two-thirds of it occupied by vast mountain ranges of the Rockies, primarily the Salmon River Mountains of central Idaho and the Bitterroot Range along the Idaho–Montana border. The Blue Mountains form much of the western boundary of the Snake watershed from southeast Washington down into Oregon. To the south are numerous small isolated mountain ranges of the Basin and Range Province, such as the Independence and Albion Mountains.<ref name="TNM"/> To the east are more ranges of the Rockies including the Tetons and the Wind River Range; the latter includes Gannett Peak, the highest point in the Snake River basin<ref name="Benke and Cushing 2005"/>Template:Rp at Template:Convert.<ref>Template:Cite gnis</ref> Surface volcanic features – such as lava fields, cones, and thermal springs – are replete in the southern part of the Snake watershed, from Craters of the Moon National Monument northeast of Twin Falls to the Yellowstone caldera, while ancient lava flows of the Columbia River basalts underlie the western part of the watershed. The Snake River Plain is the largest area without mountains, but it still features rugged terrain, being crisscrossed by canyons formed by the Snake River and its tributaries.<ref name="TNM"/><ref name="Benke and Cushing 2005"/>Template:Rp

Due to the rain shadow effect of the Cascades, precipitation as a whole is scant, averaging Template:Convert across the entire watershed. Most precipitation falls at higher elevations as snow, thus, most runoff in the Snake River watershed derives from snowmelt.<ref name="Benke and Cushing 2005"/>Template:Rp Jackson Hole, Wyoming experiences an alpine climate with an average of Template:Convert of rain and Template:Convert of snow. The coldest month is January, with a mean temperature of Template:Convert, and the hottest is July at Template:Convert.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Twin Falls experiences a semi-arid climate, with about Template:Convert of rain and Template:Convert of snow. Monthly mean temperatures range from Template:Convert in January to Template:Convert in July.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The Columbia Basin around the river's mouth also has a semi-arid climate, with about Template:Convert of rain and Template:Convert of snow as measured at Ice Harbor Dam. January is the coldest month with a mean temperature of Template:Convert, and July is the hottest month at Template:Convert.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Semi-arid shrubland and rangeland covers about 50 percent of the Snake River watershed. Natural vegetation is primarily sagebrush, mixed with wheatgrasses and bunchgrasses. About 30 percent of the watershed is farmland; irrigated farming of potatoes, sugar beets, onions, cereal grains and alfalfa are dominant in the Snake River Plain, while the Palouse Hills of the northwest host mainly dryland wheat and legume production.<ref name="Benke and Cushing 2005"/>Template:Rp About 15 percent of the watershed is forested, distributed across two temperate coniferous forest ecoregions: South Central Rockies forests, consisting primarily of Douglas fir, Engelmann spruce, subalpine fir, and lodgepole pine, and North Central Rockies forests, which include mountain hemlock, white spruce, alpine fir and western larch. About 4 percent of the watershed is barren desert, and only about 1 percent is urbanized.<ref name="Benke and Cushing 2005">Template:Cite book</ref>Template:Rp

Most of the Snake River watershed is public land, with the U.S. Forest Service managing the Nez Perce, Clearwater, Bitterroot, Umatilla, Wallowa–Whitman, Payette, Boise, Salmon–Challis, Sawtooth, Caribou–Targhee and Bridger–Teton National Forests that cover much of the northern and eastern parts of the watershed.<ref name="Benke and Cushing 2005"/>Template:Rp The forests contain numerous designated wilderness areas, including the Sawtooth, Selway–Bitterroot, Frank Church-River of No Return, Gospel Hump, Hells Canyon, Teton and Gros Ventre.<ref name="Benke and Cushing 2005"/>Template:Rp National Park Service land includes Craters of the Moon National Monument and Yellowstone and Grand Teton National Parks. Large areas of privately owned farmland are concentrated in the Snake River Plain and the Palouse, though the majority of the Snake River Plain is Bureau of Land Management land.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

The Snake River watershed borders several other major North American watersheds. To the south it borders the endorheic Great Basin, including the area draining to Utah's Great Salt Lake. To the east it borders the watersheds of the Green River (part of the Colorado River system which drains to the Sea of Cortez) and the Yellowstone and upper Missouri Rivers (part of the Mississippi River system which drains to the Gulf of Mexico). On the north it borders the watersheds of the Clark Fork and Spokane Rivers, both part of the Columbia River system. To the northwest it borders several other tributary watersheds of the Columbia River, including those of the John Day and Umatilla Rivers.<ref name="watershed-map">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Major tributariesEdit

Template:See also Fifty-four named tributaries of the Snake River drain more than Template:Convert.<ref name="TNM"/> Of these, the twelve listed below drain an area greater than Template:Convert.<ref name="TNM"/>

GeologyEdit

Template:See also The present-day course of the Snake River was pieced together over millions of years from several formerly disconnected drainage systems. Much of what would become the Pacific Northwest lay under shallow seas until it was uplifted starting about 60 million years ago (Ma). The outlet of the ancestral Columbia River to the Pacific was established about 40 Ma.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>Template:Cite book</ref>Template:Rp By about 17 Ma, the "Salmon-Clearwater River", or the modern day lower Snake River, flowed west into the Columbia and on to the Pacific. Another ancient river system drained what is now the western Snake River Plain. Some geologists propose that this flowed to the Columbia on a course south of the present-day Blue Mountains, while others propose it drained towards Northern California.<ref name="Reidel"/>Template:Rp<ref>Template:Cite book</ref>Template:Rp The Columbia River basalts, a series of massive flood basalt events that engulfed the Columbia Basin and surrounding lands, reshaped the landscape and erased most evidence of the pre-volcanic river channels starting about 17 Ma. Erupting from fissures in the southern Columbia Basin, the first basalt flows pushed the ancient Salmon-Clearwater much further north than its present course.<ref name="Reidel">Template:Cite book</ref>Template:Rp

About 12–10 Ma, the Blue Mountains region began to experience uplift, raising the basalt layers to form a plateau.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> From about 11–9 Ma, crustal deformation related to the Yellowstone hotspot caused the western half of the Snake River Plain to sink, creating a graben-type valley between parallel fault zones to the northeast and southwest.<ref name="Lifton"/> The outlet of the ancient Snake River was blocked, and water accumulated to form the vast Lake Idaho starting about 10 Ma.<ref name="Lifton">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The eastern half of the Snake River Plain formed as the North American Plate moved westward over the Yellowstone hotspot. Upwelling magma caused the continental crust to rise, forming highlands in a similar fashion to the modern Yellowstone plateau and leaving behind enormous basalt flows in its wake. As the hotspot migrated east relative to the North American Plate, the land behind it collapsed and sank, creating the geographic depression of the eastern Snake River Plain.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

The gradual eastward migration of this topographic high had the effect of pushing the Continental Divide to the east. Prior to the formation of the eastern Snake River Plain, the drainage area east of about Arco, Idaho – the modern headwaters and upper course of the Snake River – flowed towards the Atlantic Ocean via the Mississippi River system.<ref name="Wood and Clemens"/> The migrating Continental Divide tilted the regional slope such that drainage flowed west into Lake Idaho, whose water levels saw a significant increase about 4.5 Ma.<ref name="Lifton"/><ref name="Wood and Clemens"/> The Snake River Plain drainage system continued to expand east, towards what is now Yellowstone National Park. During this expansion, the Snake also captured the Bear River, which was only rerouted towards its modern outlet in the Great Salt Lake Basin about 50,000 or 60,000 years ago by lava flows in southeast Idaho.<ref name="ISU"/><ref>Template:Cite journal</ref>

In the Columbia Basin about 10.5 Ma, the Elephant Mountain basalt eruption forced the Salmon-Clearwater River into roughly its present course through southeast Washington.<ref name="Reidel"/>Template:Rp<ref>Template:Cite book</ref>Template:Rp By 8.5 Ma the Salmon-Clearwater was established in the Columbia River's modern path through Wallula Gap, although the Columbia itself still flowed somewhere to the west. The last of the Columbia basalt flows occurred around 6 Ma; by then, the present-day confluence of the Columbia River and Salmon-Clearwater had been established, with the combined flow draining through Wallula Gap.<ref name="Reidel"/>Template:Rp About 2.5 Ma, Lake Idaho reached a maximum elevation of Template:Convert above modern sea level, and overflowed northward into the Salmon-Clearwater drainage near present-day Huntington, Oregon. Over a period of about two million years, the outflow carved Hells Canyon, emptying Lake Idaho and integrating the upper Snake and Salmon-Clearwater into a single river system.<ref name="Lifton"/><ref name="Wood and Clemens">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

The Teton Range, a defining topographic feature of the modern Snake River headwaters, first began to rise about 10 Ma as the Teton Fault began to move, displacing the mountain block upward as the surrounding land dropped.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> About 2 Ma, the Hoback Fault formed east of the Tetons, and a graben valley developed between the Hoback and Teton fault zones, creating Jackson Hole.<ref name="Jackson Hole geology">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> As the valley dropped, water filled it to create Lake Teewinot, which drained east into the Green River–Colorado River system. About 1 Ma, the Snake River captured the Jackson Hole watershed, draining Lake Teewinot and finally connecting the modern-day Snake headwaters to the rest of the river.<ref name="ISU">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> This landscape around the Snake headwaters was sculpted by multiple Ice Age glaciations. Starting about 200,000 years ago, the Buffalo glaciation filled Jackson Hole to a depth of Template:Convert. Ice flowed down the Snake River Canyon all the way to Idaho.<ref name="Jackson Hole geology"/> The Bull Lake glaciation, about 80,000–35,000 years ago, and the Pinedale glaciation, ending about 15,000 years ago, were much smaller and did not fill the entire valley. These glaciations carved the distinctive peaks of the Tetons into their present form and scoured lake basins in the valley floor, including modern-day Jackson Lake.<ref name="Jackson Hole geology"/>

While the Snake River course beyond Jackson Hole was not directly impacted by glaciations, its landscape was dramatically changed by Ice Age flooding events. About 30,000 years ago, the climate of western North America was much wetter than today. The Great Salt Lake Basin filled with water to form the massive Lake Bonneville, about the size of modern-day Lake Michigan. About 15,000 years ago the lip of Red Rock Pass south of present-day Pocatello, Idaho abruptly collapsed, releasing a tremendous volume of water from Lake Bonneville into the Snake River Plain. The peak of the flood was about 500 times bigger than the largest recorded flood of the Snake at Idaho Falls in modern times.<ref name="isu bonneville">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The flood completely altered the landscape of the Snake River Plain, creating the Snake River Canyon and its waterfalls, vast boulder fields, cliffs and coulees.<ref name="isu bonneville"/><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The floodwaters then emptied through Hells Canyon; however, most evidence of their effects on the lower Snake River was erased by the much larger Missoula Floods that engulfed the Columbia Basin during the same period.<ref name="isu bonneville"/> Caused by the repeated collapse of an ice dam in western Montana, dozens of floods overflowed into the lower Snake River from the north, backing water as far upstream as Lewiston. The formerly west-flowing Palouse River was rerouted to flow south into the Snake River, forming Palouse Falls, whose outsized plunge pool attests to the force of the floods.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

HistoryEdit

Indigenous peoplesEdit

Starting around the end of the last glacial period, the Snake River Plain was inhabited by hunter-gatherers of the ancient Clovis (10000–9000 BCE), Folsom (9000–8000 BCE) and Plano (8600–5800 BCE) cultures.<ref name="COTM Ch2">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Along the lower Snake River in Washington, the Marmes Rockshelter – flooded in 1968 after the construction of Lower Monumental Dam – has yielded archeological evidence of continuous human occupation from about 9000 BCE until about 1300 CE.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Starting about 2200 BCE, people in the western Snake River basin began to adopt a semi-sedentary lifestyle, with an increased reliance on fish (primarily salmon) and food preservation and storage.<ref name="Fremont">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Shoshoni-speaking peoples arrived in the Snake River Plain between 600 and 1500 CE.<ref name="COTM Ch2"/>

By the time of first European contact, the Snake River watershed was populated by several Native American tribes. The territory of the Nez Perce (Nimiipuu) stretched across what is now north-central Idaho, southeast Washington and northeast Oregon, including much of the lower Snake River below Hells Canyon, most of the Clearwater and Grande Ronde River, and the lower Salmon River.<ref name="Treaty Period">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The Northern Shoshone and the Bannock, a Northern Paiute group that became culturally associated with the Shoshone, occupied an area stretching from the Snake River Plain east to the Rocky Mountains and south towards the Great Basin, as well as valleys of the upper Salmon River.<ref name="COTM Ch2"/> A Nez Perce name for the river was Kimooenim or variations thereof,<ref name="Lewis and Clark Journal"/>Template:Rp meaning "the stream/place of the hemp weed".<ref>Template:Cite book</ref>Template:Rp Another Nez Perce name for the Snake River was Pikúunen, specifically referring to the stretch upstream of the Clearwater confluence. The Wanapum and Walla Walla people called the lower Snake River below the Clearwater Naxíyam Wána.<ref>Template:Cite book</ref>Template:Rp The Shoshone called the river Yampapah, after the yampah plant that grew profusely along its banks.<ref>Template:Cite book</ref>Template:Rp

Downriver of Shoshone Falls, salmon and their cousins such as steelhead trout – anadromous fish which spend their adult lives in the ocean, returning to fresh water to spawn – were a key food source for indigenous peoples, and were of great cultural importance. Rituals such as the first salmon ceremony were widely observed along the Columbia, Snake and other Northwest rivers, and so were strict catch limits, such that a healthy number of salmon would survive to reach their natal streams.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The Nez Perce had more than seventy permanent villages among their fishing grounds on the Snake, Clearwater and Salmon Rivers.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Clans gathered at communal fishing sites starting about May or June. Fishing moved from the lower rivers to higher elevation streams throughout the summer, while fall-run fish were preserved for winter use.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Shoshones in the western part of the Snake River Plain also depended heavily on the salmon run. At Shoshone Falls and the smaller cataracts downstream, fishing platforms, temporary brush weirs, spears, baskets and fish traps were employed at large scale. Captain Benjamin Bonneville in 1832 observed that "Indians at Salmon Falls on the Snake River took several thousand salmon in one afternoon by means of spears."<ref>Template:Cite journal</ref> To the east and upriver of the falls, many Shoshone and Bannock lived in more nomadic groups, traveling to the falls during the spring salmon run then gathering camas bulbs and hunting bison through the summer and autumn months.<ref>Template:Cite report</ref>

The Snake River at Hells Canyon formed a natural dividing line between the Nez Perce and Shoshone, who considered each other enemies. The Nez Perce allied with the Cayuse against the Shoshone, Bannock and Northern Paiute, and stopped the latter from expanding their territory towards the Columbia Plateau.<ref>Template:Cite journal</ref> Both the Nez Perce and Shoshone acquired horses in the late 1600s or early 1700s, enabling far-reaching trade and hunting expeditions.<ref>Template:Cite journal</ref> With horses, the Nez Perce were able to travel east of the Bitterroot Mountains to hunt bison, via the trail over Lolo Pass, which the Lewis and Clark expedition would later follow in order to reach the Snake and Columbia Rivers.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Origin of nameEdit

The river's modern name comes from a misunderstanding of the Shoshone Tribal Sign in PISL.<ref>Template:Cite book</ref> The Plains Indians referred to the Shoshone people as "Snake People", while the Shoshone are believed to have referred to themselves as "People of the River of Many Fish". However, the Shoshone sign for "salmon" was the same or similar to the Plains Indian common sign for "snake."<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The English name for the river was likely derived from this interpretation of the hand gesture, although it is uncertain when the name was first used.<ref name="Snake NWSR">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>Template:Cite journal</ref>

Exploration and fur tradeEdit

The first Euro-Americans to reach the Snake River watershed were the Lewis and Clark Expedition, who in August 1805 crossed the Continental Divide at Lemhi Pass and descended to the Salmon River at what is now Salmon, Idaho, naming the stream "Lewis's River". Thwarted by the river's rapids, they were forced to cross the Bitterroot Mountains via the Nez Perce trail at Lolo Pass. After paddling down the Kooskooskee (Clearwater River), they reached the junction with the Snake and camped there with the Nez Perces on October 10, 1805.<ref name="Lewis and Clark Journal">Template:Cite book</ref>Template:Rp They correctly surmised that the river coming from the south was a continuation of "Lewis's" or Salmon River. The expedition journals note the Nez Perce called it Kimooenim, although William Clark later erased mentions of the name to replace with "Lewis's".<ref name="Lewis and Clark Journal"/>Template:Rp Six days later they reached the confluence of the Snake and Columbia Rivers, after noting a number of dangerous rapids as well as many native fishing sites on the lower Snake.<ref name="Lewis and Clark Journal"/>Template:Rp The expedition established friendly relations with the Nez Perces, who they visited again on their return trip in 1806.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Other explorers quickly followed, many of them fur trappers who began scouting the upper Snake River watershed for beaver. John Colter, a former member of the Lewis and Clark expedition, explored the Jackson Hole area in 1808.<ref name="explorers">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> In 1810, Andrew Henry explored and named the Henrys Fork of the Snake River. He established Fort Henry, the first American fur trading post west of the Rocky Mountains, but abandoned it after that year's harsh winter.<ref name="explorers"/> The 1811 Pacific Fur Company expedition led by Wilson Price Hunt attempted to find a route from Henrys Fork to the Columbia River. After suffering a wreck in the falls of the Snake River Canyon, they took an overland route through the Snake River Plain, through what is now the Boise Valley or Treasure Valley, then crossed the Blue Mountains to bypass Hells Canyon and reach the lower Snake River.<ref name="COTM"/> After the hazardous experience, Hunt gave it the name "Mad River".<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> A group led by Robert Stuart, a member of the Hunt expedition, returned eastward across the plain the following year. The route they mapped would eventually become that section of the Oregon Trail.<ref name="COTM">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

In 1818 Donald Mackenzie and Alexander Ross established Fort Nez Percés for the North West Company near the confluence of the Snake and Columbia Rivers.<ref>Template:Cite book</ref>Template:Rp The following year, Mackenzie traveled up the Snake River and reached Boise Valley by making the first recorded river ascent of Hells Canyon.<ref name="explorers"/> Mackenzie's goal was to bypass the arduous trek over the Blue Mountains. He wrote that "the passage by water is now proved to be safe and practicable for loaded boats, without one single carrying place or portage; therefore, the doubtful question is set at rest forever. Yet from the force of the current and the frequency of rapids, it may still be advisable, and perhaps preferable, to continue the land transport."<ref name="Williamson 1997"/>Template:Rp

Canadian fur trappers with the British Hudson's Bay Company (HBC) reached the Snake River watershed in 1819.<ref name="EOI">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> As American fur trappers kept coming to the region, the HBC ordered the Canadians to kill as many beavers as they could, under the rationale that "if there are no beavers, there will be no reason for the Yanks to come," and even if the Americans did ultimately gain control, the HBC would already have taken all the profit.<ref name="EOI"/> Focused primarily on the upper Snake River region, the "fur desert" policy was carried out in nine expeditions from about 1824–1831 and aimed to decrease the Americans' economic interest in the Oregon Country, the vast region of the Pacific Northwest centering on modern-day British Columbia, Washington, Oregon and Idaho. By the time the Americans annexed Oregon Territory in 1848, beaver were nearly extirpated across much of the Rocky Mountains.<ref name="EOI"/><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Starting in the 1840s, the Oregon Trail became well established, and thousands of settlers passed through the Snake River Plain on their way to the Willamette Valley. Coming from Wyoming, the Oregon Trail reached the Snake River at Fort Hall, Idaho, and stayed south of the river until Three Island Crossing near modern-day Glenns Ferry.<ref name="Idaho Parks Three Island Crossing">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Here the trail diverged, with the northern route fording the river to reach the HBC trading post at Fort Boise while the southern route continued into what is now the eastern Oregon desert. While the northern route passed through more favorable country, the Snake River posed a formidable barrier; during high water, many travelers were forced to take the hot, dry southern route, or risk drowning.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Travelers going via Fort Boise had to cross the river one more time to rejoin the trail heading west. A ferry existed at Fort Boise since at least 1843;<ref name="Snake River ferries">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> the Three Island crossing was also replaced by a ferry in 1869.<ref name="Idaho Parks Three Island Crossing"/> A new wave of travelers came in the 1860s with the Montana Trail providing access to gold strikes in Montana Territory. This crossed the Snake River by the Eagle Rock Ferry and later a bridge which the city of Idaho Falls would soon grow around.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Conquest and conflictEdit

As the flow of settlers increased, the Nez Perce and their neighbors the Cayuse and Walla Walla came under pressure to cede portions of their territory. Tensions flared in 1855 after tribes were coerced into relinquishing huge amounts of territory in the Treaty of Walla Walla.<ref name="Treaty Period"/> In retaliation for Lt. Col. Edward Steptoe's defeat at the 1858 Battle of Pine Creek, a force led by Col. George Wright entered the lower Snake River country in 1859 and constructed Fort Taylor at the confluence of the Tucannon River below present-day Starbuck, Washington. Over several months Wright fought the natives along the river, killing their horses and destroying stored food.<ref name="Petersen and Reed">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>Template:Rp The sternwheeler Colonel Wright was commissioned to haul supplies up the Snake River to Fort Taylor. Captained by veteran Oregon river pilot Len White, the Wright was the first steamboat to run on the Snake River and the Columbia above The Dalles.<ref name="Williamson 1997"/>Template:Rp<ref name="Petersen and Reed"/>Template:Rp

Two years later, Elias D. Pierce discovered gold to the east on Nez Perce treaty land.<ref name="Petersen and Reed"/>Template:Rp As thousands of fortune seekers flocked to the area, the city of Lewiston was founded in 1861, in violation of the 1855 treaty. The US government sided with the settlers, and pressured some Nez Perce leaders into signing a second treaty which shrank their reservation by 90 percent. Many Nez Perce including Chief Joseph's band refused to leave, calling the new treaty the "thief treaty".<ref name="Treaty Period"/> In March 1863, the Idaho Territory was split from Oregon, and Lewiston became its capital. More than 60,000 prospectors and others entered the Lewiston Valley by 1863.<ref name="Petersen and Reed"/>Template:Rp Many new steamboats were pressed into service, including the Spray, Cascadilla, Tenino, Okanogan, and Nez Perce Chief. The river's rapids posed a major navigation hazard, and from November to April the river was generally too low for ships. Despite these challenges, the water transport of freight and passengers was greatly profitable.<ref name="Petersen and Reed"/>Template:Rp

Up river, the Shoshone and other tribes were also becoming increasingly wary of settlers; in 1854 a Shoshone war party attacked a wagon train in the Boise Valley, and the U.S. Army mounted a counterattack, the Winnas Expedition. The situation became so unstable that Fort Boise was abandoned, and the Army had to escort wagon trains through the area.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> While early settlers had simply passed through this area on their way to Oregon, gold strikes brought renewed interest in the 1860s. The Army rebuilt Fort Boise further east of the original site in 1863. A military detachment was stationed there to quell any further violence; however, tensions continued to increase, and more wagon trains and mining parties were attacked. Starting in 1864, the Snake War was fought across much of southern Idaho, with numerous battles between the U.S. Army and the Shoshone, Bannock and Paiute.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> By 1868, exhausted after years of fighting, Chief Pocatello and many others surrendered and relocated to the Fort Hall Indian Reservation on the Snake River in southeast Idaho.<ref>Template:Cite book</ref>Template:Rp

Tribal resistance would continue for years to come. In 1877 the US government attempted to force the remaining Nez Perce onto their reservation, at which point Chief Joseph's band and several others opted to seek refuge elsewhere. After a treacherous crossing of the Snake at Dug Bar, Hells Canyon on May 31,<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> the Nez Perce were pursued by the Army for over Template:Convert east, through Yellowstone before turning north through Montana, fighting several battles along the way. On October 5, 1877, Chief Joseph surrendered to US forces. thus ending the Nez Perce War. The survivors were distributed to various reservations across the western US.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> In 1878, an uprising occurred in response to overcrowding and food shortages at the Fort Hall Reservation, leading to the Bannock War. The US army defeated the Bannock and their Paiute allies and proceeded to restrict travel in and out of the reservation.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

While Lewiston was now well connected by river, travel to Boise and other points upstream on the Snake River remained difficult due to the formidable obstacle of Hells Canyon. In 1865, Thomas Stump attempted to pilot the Colonel Wright up Hells Canyon, making it Template:Convert upriver before hitting rocks in a rapid, forcing their retreat.<ref name="Petersen and Reed"/>Template:Rp On the Snake River above Hells Canyon, several steamboats were built at great expense (as manufactured parts such as engines had to be hauled in overland), the first being the Shoshone in 1866. However, running the upper Snake proved unprofitable, due to lack of demand. The owners of Shoshone decided to move her to the lower Snake River, and in April 1870, they made the first successful river descent of Hells Canyon, a harrowing ride that skirted disaster several times.<ref name="Williamson 1997"/>Template:Rp In 1895 the steamboat Norma, which had been built to haul copper ore on the Snake River above Hells Canyon, also made the run under similar circumstances.<ref name="USFS Hells Canyon"/><ref name="Williamson 1997"/>Template:Rp

In the 1870s, Boise (to which Idaho's capital was moved in 1866) expanded rapidly as growth slowed in Lewiston. Gold drew more than 25,000 prospectors to the Boise Valley, and a new city quickly grew around the U.S. Army post at Fort Boise.<ref name="Long 2021">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="Idaho irrigation"/> With Hells Canyon impractical for river navigation, interest grew in connecting the area by rail. By 1884, the Oregon Railroad & Navigation Company (later integrated into Union Pacific) had connected Portland, Oregon, to the Union Pacific line at Granger, Wyoming, via Huntington and Pocatello. Boise, initially bypassed due to a steep grade, was connected three years later.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> In addition to commerce, the railroad also opened the Snake River region – which just a few years ago had been seen as a remote, rough frontier – to recreation. The Union Pacific heavily promoted tourism in places like Shoshone Falls, Payette Lake and Soda Springs, Idaho. Countering the reputation of southern Idaho as a wasteland, a brochure described Shoshone Falls: "Shoshone differs from every other waterfall in this or the old country. It is its lonely grandeur that impresses one so deeply; all of the other historic places have the adjuncts of civilization, and one is almost overshadowed by a city while in their presence."<ref>Template:Cite journal</ref>

Reclamation and developmentEdit

IrrigationEdit

Most travelers on the Oregon Trail regarded the arid Snake River Plain as an obstacle to be crossed, not a land to be settled. This began to change with the Boise gold strikes, where the demands of the mining industry and the difficulty of importing goods set off an agricultural boom in the Boise Valley.<ref name="Long 2021"/><ref name="Petersen and Reed"/>Template:Rp By the 1880s, settlers also came to the upper Snake River north of Idaho Falls, where fertile, sandy soils presented ideal conditions for the iconic russet potato ("Idaho potato").<ref name="Idaho Falls Power">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The dry climate made irrigation necessary, and numerous private irrigation companies were formed.<ref name="Boise irrigation">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Private canal systems around Boise and Idaho Falls saw some success, but all the easily farmable land was soon developed, and they could not raise the capital for further expansion. In addition, low water by late summer posed a challenge to farmers, and the irrigation companies could not afford to build dams to provide water storage.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

With many private irrigation companies verging on insolvency, the federal government began to explore programs assisting agricultural development. The 1894 Carey Act granted large tracts of dry federal land to western states, which then sold the land to farmers and solicited private investors to organize irrigation districts. Investors would then recoup their capital by selling water rights to farmers.<ref name="Idaho irrigation"/> Irrigation plans were reviewed by engineers, who determined the economic feasibility of the projects. Although the Carey Act saw little success in most states, it greatly benefited Idaho. Some 60 percent of all lands developed under the Carey Act were in Idaho, and almost all of that utilized Snake River water.<ref name="Idaho irrigation">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

I. B. Perrine, who homesteaded near Shoshone Falls in the 1880s, went on to develop one of the most successful Carey Act projects. In 1900 Perrine filed a claim for water from the Snake River, and backed by significant private capital, oversaw the construction of Milner Dam and a canal system to irrigate some Template:Convert of the Snake River Plain.<ref name="Milner Dam"/> Completed in 1905, the project was an immediate success. The rapid transformation of the barren landscape into productive farmland led to the moniker "Magic Valley", and led to massive growth of the city of Twin Falls.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> During certain times of the year, almost all the Snake River's flow was diverted at Milner Dam, and since then, Shoshone Falls has regularly run dry in the summer.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The Idaho State Historical Society writes that "Perrine’s venture contrasted remarkably with private canal company failures that led to congressional provision for federal reclamation projects after 1902. As a rare successful example of state supervised private irrigation development provided for in [the Carey Act] of 1894, Milner Dam and its canal system have national significance in agricultural history."<ref name="Milner Dam">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

With the creation of the Reclamation Service (now the Bureau of Reclamation) in 1902, the federal government began to play a more direct role in water resources development. The expansive Minidoka Project was the first federal reclamation project in Idaho.<ref name="NPS Minidoka">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Starting with Minidoka Dam in 1906, the project would grow over the next few decades to include major reservoirs at Jackson Lake, American Falls and Island Park, and a large network of canals and pump stations. The Minidoka Project would eventually bring water to a million acres (2,500 km²) of the Magic Valley.<ref name="NPS Minidoka"/> During World War II, many Japanese Americans interned at Minidoka were made to work on the project.<ref name="NPS Minidoka"/> The Boise Project, which would ultimately water Template:Convert in and around the Boise Valley, was another major early reclamation undertaking. At its completion, Arrowrock Dam (1915) on the Boise River was the tallest dam in the world, and its construction process was an important prototype for future federal projects such as Hoover Dam.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }} </ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Starting around the 1950s, farmers made heavy use of the Snake River aquifer, bringing large new areas into production.<ref name="Idaho irrigation"/> Surface water development also increased with projects such as Cascade Dam (1948) and Anderson Ranch Dam (1950), which provided additional storage for the Boise Project. Palisades Dam was built in 1956, providing flood control and irrigation for the Snake River above Idaho Falls, an area which the Bureau of Reclamation had previously overlooked.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }} </ref> Near Rexburg, the Teton Dam was also built to provide water for this area. In 1976, the Teton Dam failed catastrophically, killing eleven people and causing at least $400 million in damage along the Henrys Fork and Snake Rivers.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The political fallout from this disaster marked the end of large new irrigation developments not only for the Snake River system, but for the Bureau of Reclamation as a whole.<ref>Template:Cite book</ref> Template:Rp

Agriculture has significantly impacted water quality in the Snake River upstream of Hells Canyon. Water removed from the river for irrigation becomes contaminated with chemical fertilizers and manure, and percolates into the Snake River Aquifer. Pollutants collect in the groundwater and eventually enter the river via spring flows.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Excess nitrogen, phosphorus and bacterial loads occur in many locations across southern Idaho.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Large algae blooms are a recurring issue in summer.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The U.S. Environmental Protection Agency has established water quality guidelines for Snake River flows entering Hells Canyon, which cover bacteria, mercury, excess nutrients, pesticides, sediments and water temperature. Implementation of the guidelines include best management practices for agriculture and forestry, and regular water quality monitoring.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

HydroelectricityEdit

Template:See also Power development of the Snake River began in the early 20th century as cities, farms, mines and industry grew around the river. The first small hydroelectric plant on the Snake River, Swan Falls Dam, was built in 1901,<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> followed by one at American Falls in 1902.<ref name="Idaho Power hydro plants"/> Many other projects followed, particularly around Shoshone Falls where the natural drop of the river offered great energy potential. After developing the Milner Dam irrigation scheme, I. B. Perrine built a hydroelectric plant at Shoshone Falls in 1907.<ref>Template:Cite news</ref> Small private utilities built power plants at Salmon Falls (1910) and Thousand Springs (1912). Idaho Power was incorporated in 1915, and acquired all the aforementioned plants the following year. It proceeded to build a second, larger plant at Shoshone Falls in 1921, and another plant at Twin Falls in 1935.<ref name="Idaho Power hydro plants">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The advent of electric pumps opened up large new areas to agriculture, which had previously been limited to land where water could flow by gravity. The Minidoka Project, which included the Bureau of Reclamation's first hydroelectric plant in Idaho, was an early adopter of this system. The project generated more power than it needed, and surplus was sold to nearby towns such as Burley and Rupert, which created their own municipal electric systems.<ref>Template:Cite book</ref>Template:Rp

By the 1940s, following the construction of massive hydropower dams on the Columbia River such as Grand Coulee, interest turned to the considerable untapped power potential of the Snake River in Hells Canyon. In 1947, Idaho Power set its sights on the upper section of the canyon, where it proposed a series of three medium-sized dams. Two years later, the U.S. Army Corps of Engineers (Army Corps) proposed a single massive dam, over Template:Convert high, to be built in lower Hells Canyon. In 1955 the Federal Power Commission authorized the Idaho Power project, but initially only one of the three dams, Brownlee (completed 1958), was built. The other dams, located downstream, would have been in the flood zone of not only the Army Corps' high dam, but two other competing proposals.<ref name="Hells Canyon high dams"/>

The Pacific Northwest Power Company, a consortium of four private utilities, proposed the "High Mountain Sheep Dam" on the Snake River just upstream of the Salmon River. The even bigger "Nez Perce Dam", proposed by the Washington Public Power Supply System, would be located downstream of the Salmon River. While that location offered greater power potential, the fishery supported by the Salmon River was considered too economically valuable to wipe out, and in 1964 the Commission chose to authorize the High Mountain Sheep project.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="Hells Canyon high dams">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> By then, significant public opposition had formed against the high dam, as it would still block salmon migration to the upper Snake, and adversely affect wildlife and recreational values in Hells Canyon. It was also challenged by Washington Public Power, which argued that the commission should give priority to public utilities over private ones.<ref name="Public History PDX"/>

The case reached the Supreme Court, which in the landmark 1967 ruling of Udall v. Federal Power Commission issued an injunction temporarily halting the project.<ref name="Hells Canyon high dams"/> Justice William O. Douglas wrote that in licensing projects, the Commission must consider "future power demand and supply, alternate sources of power, the public interest in preserving reaches of wild rivers and wilderness areas, the preservation of anadromous fish for commercial and recreational purposes, and the protection of wildlife."<ref name="Hells Canyon high dams"/><ref name="Public History PDX">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> This was the first time the court cited environmental protection as a consideration for whether to approve a dam project.<ref name="Public History PDX"/> In 1975, President Gerald R. Ford signed the Hells Canyon Wilderness into law, ending the high dam project for good.<ref name="Hells Canyon high dams"/>

Meanwhile, Idaho Power moved forward with the Oxbow and Hells Canyon Dams, though the question of fish passage still remained. From 1956 to 1964, returning adult salmon had been trapped at the base of Brownlee Dam (whose height made a fish ladder impractical) and released upstream. Downstream passage of juvenile salmon posed a much bigger problem; many were killed passing through the hydroelectric turbines, and efforts to trap and release them downstream met with failure.<ref name="Hells Canyon high dams"/> In 1960, Idaho Power proposed abandoning fish passage altogether and compensating for the loss by building fish hatcheries. By 1966 it reached an agreement with the Federal Power Commission to move forward with the hatchery plan, and by 1967 both Oxbow and Hells Canyon dams had been completed, neither with provision for fish passage. Idaho Power was tasked with building and operating the Oxbow, Rapid River, Niagara Springs and Pahsimeroi fish hatcheries at its own expense.<ref name="Hells Canyon high dams"/><ref name="Columbia River fish passage"/>

As of 2007, the Hells Canyon Hydroelectric Complex was responsible for 40 percent of Idaho Power's total power generation.<ref name="HCHP relicensing"/> The three dams have a capacity of 1,167 megawatts combined<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> and produce about 6,053 gigawatt hours per year.<ref name="HCHP relicensing">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Idaho Power's hatcheries produce almost seven million salmon and steelhead smolt to release in the Snake River system each year.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Since the completion of the Hells Canyon complex, with the exception of the lower Snake River dams, only one major hydroelectric dam has been built in the Snake River system – the Army Corps' Dworshak Dam (1973), in the Clearwater River basin. Like the Hells Canyon dams, Dworshak also generated controversy over its impact on fisheries, and also made no provision for fish passage; rather, a hatchery was built at the base of the dam.<ref>Template:Cite news</ref>

NavigationEdit

As gold mining declined in the late 19th century, the wheat industry boomed in the Palouse of southeast Washington. By the 1870s, the Oregon Steam Navigation Company was operating seven steamboats transporting grain from the Snake River to lower Columbia River ports. These were the Harvest Queen, John Gates, Spokane, Annie Faxon, Mountain Queen, R.R. Thompson, and Wide West.<ref name="Gulick">Template:Cite book</ref>Template:Rp In the 1890s, a huge copper deposit was discovered at Eureka Bar in Hells Canyon. Several ships transported ore from there to Lewiston, including Imnaha, Mountain Gem, and Norma.<ref name="Gulick"/>Template:Rp In 1893 the Annie Faxon suffered a boiler explosion and sank on the Snake below Lewiston, killing five people.<ref name="hlsteamboats">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="Williamson 1997"/>Template:Rp Starting in the 1880s, the Army Corps began dredging the Snake River below Lewiston to maintain a Template:Convert deep navigation channel.<ref name="Petersen and Reed"/>Template:Rp

River traffic declined rapidly once railroads arrived. By 1899, the Union Pacific line along the south bank of the Snake River had reached Riparia, Washington. It then joined forces with the Northern Pacific Railroad, which was building a line along the north bank, to build the shared Camas Prairie Railroad the rest of the way to Lewiston, which it reached in 1908.<ref name="Petersen and Reed"/>Template:Rp The Open River Transportation Company, which operated steamboats between Lewiston and Celilo Falls on the Columbia, went bankrupt in 1912. The 1915 completion of the Celilo Canal made it much easier for boats from the upper Columbia and Snake to reach Portland, and the Columbia River Transportation Company began operating a water route between Lewiston and Portland. Still, steamboats were unable to compete with railroads on speed and efficiency. The last steamboat on the lower Snake ran in 1920.<ref name="Petersen and Reed"/>Template:Rp

Once the railroads monopolized grain shipments, they raised shipping rates, to farmers' consternation. In 1934, political activist Herbert G. West organized the Inland Empire Waterways Association (IEWA), to promote an "open river" – a deep-water shipping channel on the Snake and Columbia Rivers that could compete with rail.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The IEWA initially pushed for improvements such as bigger locks at Bonneville Dam in 1938 and the construction of McNary Dam on the Columbia, which would improve navigation to the mouth of the Snake.<ref name="Columbia River fish passage"/> In 1941 a bill was first introduced in Congress authorizing the Army Corps to develop the lower Snake River. The 1941 bill failed, but after several years of debate, Congress finally authorized the Snake River development in 1945.<ref name="Petersen and Reed"/>Template:Rp Early plans included anywhere from six to ten low dams for the lower Snake. Eventually this was reduced to four bigger dams, which would lower costs, but would require what at the time were the tallest navigation locks in the world, at over Template:Convert.<ref name="Petersen and Reed"/>Template:Rp

Tribes, state wildlife agencies and the fishing industry opposed the dams, arguing that they would kill too many salmon.<ref name="Columbia River fish passage"/> In 1947, the U.S. Department of the Interior proposed a ten-year moratorium on dam construction while the fishery problem was studied. With the onset of the Cold War, rising electricity demand in the Pacific Northwest – particularly at the nearby Hanford nuclear site – turned the project's focus towards hydropower. By 1948, the Army Corps estimated that over 80 percent of the economic benefits would come from power, and only 15 percent from navigation.<ref name="Petersen and Reed"/>Template:Rp Dam opponents countered that if the primary objective was now power, other dam sites existed in the Northwest that would have less impact on fish. These objections proved futile, as the lower Snake River dams were already authorized, and the federal government had little interest in studying alternatives.<ref name="Petersen and Reed"/>Template:Rp While opponents continued to stall the project for a few more years, Washington Senator Warren G. Magnuson pushed through a budget amendment in 1955 to start construction on the first dam, Ice Harbor.<ref name="Petersen and Reed"/>Template:Rp

Once construction began in 1956, Congress quickly approved more money to finish the project. Ice Harbor Dam was completed in 1962, and Lower Monumental and Little Goose Dams were completed in 1969 and 1970.<ref>Template:Cite news</ref> The Lower Monumental project generated controversy as it threatened to flood the Marmes Rockshelter archeological site. Although the Army Corps agreed to build a dike around the site, it began to leak as the reservoir filled and the site was inundated.<ref>Template:Cite news</ref> By the 1970s, the environmental movement in the US had become significantly larger, and groups such as the Association of Northwest Steelheaders lobbied to stop the construction of the fourth dam, Lower Granite. These efforts were unsuccessful, and the dam was completed in 1975. The first upriver barge reached Lewiston on April 10 of that year.<ref name="Petersen and Reed"/>Template:Rp The Army Corps had planned one more dam at Asotin, which would have extended navigation to mines upstream of Lewiston.<ref name="Petersen and Reed"/>Template:Rp Faced with public opposition, Congress deauthorized the project in 1975.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Once the dams were completed, barges up to 12,000 tonnes and drawing Template:Convert of water were able to reach Lewiston.<ref>Template:Cite news</ref> Today, multiple barge terminals operate along the lower Snake, including Lewiston, Clarkston, Wilma, Central Ferry and Almota.<ref name="LSRD Benefit Replacement Report"/> Grain accounts for the majority of barge traffic on the river; other shipments include forestry products, fuel, chemicals and fertilizers. In 2020, a total of Template:Convert of cargo were barged on the Snake River.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="LSRD Benefit Replacement Report">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Since 2000, the tonnage of commercial shipping on the Snake River has declined, due mostly to the loss of petroleum products after a pipeline was constructed. After the general decline of the Great Recession, other sectors have been slow to recover.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> As of 2015, grain tonnage had fallen about a third from 2000 levels, while forestry products had fallen by nearly three-quarters, with many shipments switching back to rail.<ref name="Jones 2015">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Container shipping at the Port of Lewiston ceased in 2015,<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> due to its primary source, the Port of Portland, no longer receiving containers.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> From 2015 to 2023, grain exports from the Port of Lewiston have remained relatively steady while breakbulk cargo has increased.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

As dam opponents had feared, Snake River salmon returns declined greatly after the dams were built. Since 2000, there have been renewed calls for removing the lower Snake River dams, which have become a significant political issue for the Pacific Northwest.<ref name="NRDC 2018">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Ecology and environmental issuesEdit

Aquatic habitatsEdit

The World Wide Fund for Nature (WWF) divides the Snake River into two freshwater ecoregions – the Upper Snake and Columbia Unglaciated – with Shoshone Falls marking the boundary between the two. Shoshone Falls has presented a total barrier to the upstream movement of fish at least since the Bonneville flood 15,000 years ago. The Big Wood River (the main tributary of the Malad River) is also included in the Upper Snake ecoregion, due to the presence of a separate natural waterfall barrier. As a result, only 35 percent of the fish fauna above Shoshone falls, and 40 percent of the Big Wood River's fish fauna, are shared with the lower Snake River.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Compared to the lower Snake River and the rest of the Columbia River system, the Upper Snake ecoregion has a high level of endemism, especially among freshwater molluscs such as snails and clams. At least 21 snail and clam species are of special concern, including 15 that appear to exist only in single clusters.<ref name=abell/>Template:Rp There are 14 fish species found in the Upper Snake region that do not occur elsewhere in the Columbia's watershed, but which do occur in some western Utah watersheds and the Yellowstone River. These include healthy populations of Yellowstone cutthroat trout and Snake River fine-spotted cutthroat trout.<ref name="Benke and Cushing 2005"/>Template:Rp The Wood River sculpin is endemic to the Wood River. The Shoshone sculpin is endemic to the small portion of the Snake River between Shoshone Falls and the Wood River.<ref name=abell>Template:Cite book</ref>Template:Rp

The Snake River below Shoshone Falls is home to about 35 native fish species, of which 12 are also found in the Columbia River and four of which are endemic to the Snake or nearby watersheds: the sand roller, shorthead sculpin, margined sculpin and the Oregon chub, which also occurs in a few other Oregon streams.<ref name=abell/> Bull trout migrate from the main stem of the Snake to spawn in several tributary basins, including the Bruneau,<ref name="Benke and Cushing 2005"/>Template:Rp Imnaha and Grande Ronde Rivers.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Large white sturgeon, introduced to the Snake River in the 19th century, were once widespread in the Snake River below Shoshone Falls; due to dam construction, only a few fragmented populations remain.<ref name="Benke and Cushing 2005"/>Template:Rp The Idaho Department of Fish and Game has occasionally recorded sturgeon more than Template:Convert long in Hells Canyon.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Other common introduced species include whitefish, pikeminnow, smallmouth bass, and rainbow, brown, brook and lake trout.<ref name="Benke and Cushing 2005"/>Template:Rp

Anadromous fishEdit

Anadromous salmonids (Oncorhynchus), including chinook, coho, and sockeye salmon, and redband and steelhead trout, were historically the most abundant fish and a keystone species of the Snake River system.<ref name="American Rivers"/> Benke and Cushing's Rivers of North America describes the Snake as a "wild salmon factory;"<ref name="Benke and Cushing 2005"/>Template:Rp prior to the 19th century, between two and six million adult salmon and steelhead returned each year from the Pacific to spawn in the Snake River watershed.<ref name="American Rivers">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Salmon die after spawning, and their carcasses represent a crucial influx of organic matter to mountain rivers that have few natural nutrient sources.<ref name="Long 2021"/> Tributaries below Hells Canyon, particularly the Salmon River, held the richest spawning grounds, although substantial numbers also made it above Hells Canyon as far as Shoshone Falls.<ref name="Nemeth">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The Snake River produced about 40 percent of all chinook salmon and 50 percent of all steelhead in the Columbia River watershed.<ref name="American Rivers"/>

Populations of anadromous fish began to decline in the late 1800s due to the impact of commercial fishing, logging, mining and agriculture,<ref name="Long 2021"/> but even in the 1930s, returning fall chinook alone numbered 500,000.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Populations further collapsed once dams were built on the lower Snake and Columbia Rivers, and Hells Canyon Dam blocked access to the upper Snake. Wild Snake River spring and summer chinook returns declined from 130,000 in the 1950s to less than 5,000 in the 1990s. Wild steelhead returns followed a similar pattern, falling from 110,000 in the 1960s to less than 10,000 in the 1990s. Spring, summer and fall-run chinook were all listed as threatened in 1992.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Snake River steelhead were also listed as threatened in 1997.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Wild chinook salmon and steelhead continued to decline into the 1990s, but have begun an unsteady recovery since 2000, with both chinook and steelhead returns up to 20,000–30,000 in some years.<ref name="Snake River salmon graph"/> Coho salmon had disappeared from the Snake River by the 1980s, they were reintroduced to the watershed in 1995.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Snake River sockeye once numbered to up 150,000 adults.<ref name=":0">Template:Cite book</ref> Between 24,000 and 30,000 sockeye returned to Wallowa Lake in the Grande Ronde River watershed, but the run was eliminated by 1905 due to overharvest and unscreened irrigation diversions.<ref>Template:Cite book</ref> The Payette Lake population once numbering up to 100,000 was blocked by the Black Canyon Dam in 1924.<ref name=":0" /> Sockeye in the Yellowbelly, Stanley, and Pettit Lakes of the Sawtooth basin were eradicated by management actions of the Idaho Department of Fish and Game in the 1950s, and irrigation diversions lead to the extirpation of the Pettit Lake population.<ref name=":0" /> Snake River sockeye returns declined to 4,500 in the 1950s and only a few dozen by the late 1960s.<ref name="Snake River salmon graph">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Snake River sockeye were listed as endangered in 1991.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Numerous hatcheries are operated by agencies such as the Army Corps, Idaho Power, the Bonneville Power Administration, the U.S. Bureau of Indian Affairs and the U.S. Fish and Wildlife Service, to supplement wild fish populations.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Hatcheries release about 33 million salmon and steelhead smolt into the Snake River watershed each year.<ref name="McMillan 2021"/> However, the survival rate for hatchery fish is poor. Just 0.4 percent of hatchery chinook and 1.5 percent of hatchery steelhead returned as adults, as measured at Lower Granite Dam between 2007 and 2016.<ref name="McMillan 2021">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Upstream of the four lower dams, the Snake River watershed contains some of the best remaining spawning habitat in the Columbia River system, particularly along the Clearwater and Salmon Rivers; the latter is one of the longest undammed rivers in the continental US.<ref name="Benke and Cushing 2005"/>Template:Rp A much depleted sockeye salmon run continues to spawn in Redfish Lake near Stanley, Idaho, more than Template:Convert inland from the Pacific Ocean. This represents the southernmost, highest elevation and longest sockeye run in the world.<ref>Template:Cite journal</ref>

Terrestrial and wetland habitatsEdit

Template:See also The Snake River provides important wildlife habitat along much of its course, particularly in the arid Snake River Plain where it is the only source of water for many miles. The upper reaches of the Snake River, including in Jackson Hole and the floodplain north of Idaho Falls where it joins the Henrys Fork, have extensive riparian gallery forests dominated by black cottonwood and narrowleaf cottonwood.<ref name="Benke and Cushing 2005"/>Template:Rp The Northwest Power and Conservation Council describes these as "some of the most important cottonwood gallery forests in the Intermountain West".<ref name="uppersnakeprovince"/> Seasonal floods scour and change the shoreline, clearing areas of older trees and making way for new growth. Ute lady's tresses, a rare orchid, are found in riparian wetlands along with willows, rushes, sedges and horsetails.<ref name="Benke and Cushing 2005"/>Template:Rp

The Fort Hall Bottoms in the southern Snake River Plain are an important wetland along the river, and create a major wintering and nesting site for waterfowl, shorebirds and raptors, including bald eagles and trumpeter swans.<ref name="Fort Hall Bottoms">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Part of these wetlands were flooded with the construction of American Falls Dam, and large portions of the remainder have been degraded by cattle grazing.<ref name="Fort Hall Bottoms"/> Ponds and wetlands in the Hagerman Valley, near the Hagerman Fossil Beds National Monument, are also heavily used by both migratory and resident birds.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> On the Snake River south of Boise is the nearly Template:Convert Morley Nelson Snake River Birds of Prey National Conservation Area, which hosts the densest concentration of nesting raptors in the US.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

The Snake River headwaters are part of the Greater Yellowstone Ecosystem, which the National Park Service describes as "one of the largest nearly intact temperate-zone ecosystems on Earth." The region is home to some of the largest wild elk and bison populations in the US, and provides habitat for grizzly bear, wolverine and lynx.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The other major wild area in the Snake River watershed centers on Idaho's extremely rugged Frank Church–River of No Return Wilderness, the largest federally designated wilderness in the contiguous US.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="Benke and Cushing 2005"/>Template:Rp Although the Snake River watershed remains lightly populated, most of its landscape has seen significant human impact since the 19th century. Heavy logging has historically occurred in the Boise area<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> and on the Clearwater River, which hosted the last whitewater log drive in the US in 1971.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Logging is still a major industry in the region, though since the 1990s, logging south of the Clearwater has decreased.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Large areas of native sagebrush-steppe ecosystems, mostly in the Snake River Plain and Palouse, have been developed for agriculture. About two-thirds of the Snake River Plain remains grassland or shrubland; however, much of this acreage is impacted by livestock grazing, and fire regimes have become more severe with the proliferation of invasive species like cheatgrass.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Proposed dam removalEdit

The lower Snake River dams have remained controversial since their construction, and in the 21st century there has been increased debate over potentially removing the dams. Although the dams were built with fish ladders, the warm, slow-moving water in reservoirs disoriented migrating fish,<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> and juvenile fish experienced significant mortality passing through the dams.<ref name="Columbia River fish passage"/> In 1980 Congress passed the Northwest Power Act, which requires federal agencies in the Northwest to mitigate the impact of their dams on fish and wildlife. While installation of fish screens and bypasses have improved survival rates for juvenile fish,<ref name="Columbia River fish passage">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> efforts to capture fish and transport them around the dams have seen little success.<ref name="Benke and Cushing 2005"/>Template:Rp Although wild salmonid returns have seen a positive trend since their nadir in the 1990s, they remain well below pre-dam levels.<ref name="Snake River salmon graph"/>

Supporters of dam removal, which include tribal organizations such as the Columbia River Inter-Tribal Fish Commission and environmental advocacy groups such as the Natural Resources Defense Council and the Sierra Club, argue that the most economical way to restore the fishery is to remove the dams, rather than continuing recovery efforts at great expense. As of 2023, over $17 billion had been spent on Snake River salmon recovery and hatchery operations.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> There are other economic arguments for dam removal, particularly that the annual cost of maintaining the barge channel exceeds the economic benefits provided by shipping, and the freight can be moved by rail instead.<ref name="Jones 2015"/><ref name="Revenue Stream">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Furthermore, the dams only account for a small percentage of the total hydropower in the Northwest.<ref name="Revenue Stream"/> A University of Idaho analysis estimated that over a 20-year period, removing the dams would be less expensive than the cost of continuing fish recovery efforts with the dams in place.<ref name="Revenue Stream"/> Representative Mike Simpson (R-ID) has been a major supporter of dam removal, and in 2021 put forth an ambitious proposal to remove the dams,<ref>Template:Cite news</ref> though Simpson's plan has come under scrutiny as among other actions, it would also impose "a 35-year moratorium on litigation related to anadromous fish" at federal Columbia River Basin dams.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Opponents of dam removal include farmers, local governments such as the city of Lewiston,<ref>Template:Cite news</ref> congressional representatives in eastern Washington<ref>Template:Cite news</ref> and the Bonneville Power Administration, which manages federal hydroelectric dams in the Northwest.<ref name="NRDC 2018"/> In the context of shipping, while river traffic has declined in recent years, it remains important to the area's economy, and moving cargo by barge is cheaper and twice as fuel-efficient as diesel trains.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> While the dams do not generate much baseload power, they are crucial to managing peak demand on a daily basis, as hydropower can be ramped up and down quickly. As more wind and solar energy is added to the Northwest grid, more load balancing will be needed to compensate for the intermittent nature of those sources.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Although Washington governor Jay Inslee and Washington Senator Patty Murray have tentatively endorsed dam removal, they stressed that hydropower must be replaced by other renewable sources, and economic impacts such as the loss of the ship channel should be "mitigated or replaced."<ref>Template:Cite news</ref>

In December 2023, the Biden administration expressed its support for the Columbia Basin Restoration Initiative, which would develop a strategy to replace the power and navigation benefits provided by the Snake River dams, and explore options for post-dam river restoration. The initiative is an agreement between the federal government, four tribal nations, the states of Washington and Oregon, and several conservation groups. It would not authorize the removal of the dams, which would require a separate act of Congress.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

See alsoEdit

Template:Portal

• List of crossings of the Snake River
• List of tributaries of the Columbia River
• List of rivers of Idaho
• List of rivers of Oregon
• List of rivers of Washington (state)
• List of rivers of Wyoming
• List of longest rivers of the United States (by main stem)
• List of longest streams of Idaho
• List of longest streams of Oregon

ReferencesEdit

Template:Reflist

NotesEdit

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External linksEdit

Template:Sister project

• Snake River flow conditions at SnoFlo
• Idaho Power
• Wild and Scenic Snake River - National Wild and Scenic Rivers System

Template:Columbia River Template:US state navigation box Template:Authority control

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