| Teton Dam | |
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_Teton_Dam_Flood_-_Newdale.jpg) Dam failure on June 5, 1976 | |
  Teton Dam Location in the United States Show map of the United States | |
| Official name | Teton Dam |
| Country | United States |
| Location | Fremont &Madison counties,Idaho |
| Coordinates | 43°54′35″N111°32′21″W / 43.90972°N 111.53917°W /43.90972; -111.53917 |
| Purpose | Flood control, irrigation |
| Construction began | 1972 (1972)[1] |
| Opening date | 1976; 49 years ago (1976) |
| Demolition date | June 5, 1976 (1976-06-05) (failure) |
| Construction cost | $48,825,000 ($270 million in 2024[2]) |
| Owner | U.S. Bureau of Reclamation |
| Dam and spillways | |
| Type of dam | Embankment dam |
| Impounds | Teton River |
| Height | 305 ft (93 m) |
| Length | 3,100 ft (940 m) |
| Width (base) | 1,700 ft (520 m) |
| Reservoir | |
| Creates | Teton Reservoir |
| Total capacity | 288,250acre-feet (355,550,000 m3)[3] |
| Normal elevation | 5,320 ft (1,620 m)AMSL[3] |
TheTeton Dam was anearthen dam in thewestern United States, on theTeton River ineasternIdaho. It was built by theU.S. Bureau of Reclamation, one of eightfederal agencies authorized to construct dams.[4] Located betweenFremont andMadison counties, it suffered acatastrophic failure on June 5, 1976, as it was filling for the first time.
The collapse of Teton Dam killed 11 people[5] and 16,000 livestock.[6] The dam cost about $100 million to build and the federal government paid over $300 million in claims arising from its failure. Total damage estimates have ranged up to $2 billion,[7] and the dam was not rebuilt.
Interest in building a dam in the easternSnake River Plain had arisen for many years to control spring runoff and provide a more constant water supply in the summer. The area had suffered a severe drought in 1961, followed by severe flooding in 1962. The Bureau of Reclamation proposed the Teton Dam in 1963 andCongress passed, without opposition, an authorizing bill the following year. The planned dam was to be an earthen structure 310 feet (94 m) high and 0.6 miles (1.0 km) long, creating areservoir 17 miles (27 km) in length. The impounded water would be used to generatehydroelectric power. Anenvironmental impact statement was issued for the dam in 1971, but it did not raise the possibility of a collapse.[4] Lack of funding and site preparation work and questions surrounding the required environmental impact statement stalled the project. Barely 14 pages long, the statement quickly drew the ire of opponents of the project.[8]
On September 27, 1971, several environmental and conservation groups filed a lawsuit inIdaho District Court to stop the construction. Opponents of the dam questioned the project's justifications. They argued that damming a wild and scenic river would result in the destruction of its trout fishery and other wildlife habitat and "replace a unique resource with a vulgar one." The suit questioned the economic return on the investment, the bureau's compliance with theNational Environmental Policy Act, and the geologic soundness of the dam's location.[8] Concerns over the seismic conditions of the dam site delayed the bid process pending further review by the Department of the Interior. Pressure from Idaho's congressional delegation stopped the review, and in spite of the lawsuit, bids were taken in Idaho Falls on October 29, 1971.[8] The $39 million contract was awarded in December 1971 toMorrison-Knudsen Co. ofBoise, assisted byPeter Kiewit Sons Co. ofOmaha, Nebraska.[9] In spite of the lawsuit, work began in February 1972. After various motions, amended complaints, attempted injunctions, and appeals, the suit was dismissed on December 23, 1974.[8]
The easternSnake River Plain is underlain almost entirely bybasalt erupted from largeshield volcanos on top ofrhyoliticash-flowtuff andignimbrites.[10] Thetuff, a late-Cenozoicvolcanicrock, is 1.9 million years old. The dam site is composed of basalt and rhyolite, both of which are considered unsuitable for dam construction[citation needed] because of their highpermeability. This was confirmed by long-term pump-in tests at rates of 165 to 460 US gal (620 to 1,740 L) per minute.[11] Test cores, drilled by engineers and geologists employed by the Bureau of Reclamation, showed that the canyon rock at the dam site is highly fissured and unstable, particularly on the right side (as one faces the direction of flow). The widest fissures were determined to be 1.7 inches (4.3 cm) wide. The bureau planned to seal these fissures by injectinggrout into the rock under high pressure to create agrout curtain in the rock.
In addition, an investigation of the area by geologists of theU.S. Geologic Survey indicated that it was seismically active; five earthquakes had occurred within 30 miles (50 km) of the dam site in the previous five years, two of which had been of significant magnitude. This information was provided to the Bureau of Reclamation in a memorandum, but the geologists' concerns were considerably watered down in the 6-month redrafting process before the USGS sent the final version of the memo to the USBR in July 1973.[4]
In 1973, when the dam was only half built, but almost $5 million had already been spent on the project, large, open fissures were encountered during excavation of the keyway trench near the right end of the dam, about 700 ft (210 m) from the canyon wall. The two largest, near-vertical fissures trended generally east–west and extended more than 100 ft (30 m) below the bottom of the key trench. Some of the fissures were lined with calcite, and rubble filled others. Several voids, as much as 6 in (15 cm) wide, were encountered 60 to 85 ft (18 to 26 m) below the ground surface beyond the right end of the dam and grout curtain.[11] The largest fissures were actuallycaves. One of them was 11 feet (3.4 m) wide and 100 feet (30 m) long. Another one was 9 feet (2.7 m) wide in places and 190 ft (60 m) long. These were not grouted because they were beyond the keyway trench and beyond the area where the bureau had decided grouting was required.[12] This necessitated using twice as much grouting as had been originally anticipated; the total injected grout included 496,515 ft3 of Portland cement, 82,364 ft3 of sand, 132,000 pounds of bentonite, and 418,000 pounds of calcium chloride, injected into 118,179 linear ft of drilled holes.[11]
Later, the report of a committee of theHouse of Representatives, which investigated the dam's collapse, felt that the discovery of the caves should have been sufficient for the Bureau of Reclamation to doubt its ability to fill them in with grout, but this did not happen. Even after the dam had failed, the bureau continued to insist that the grouting was appropriate.[4]
In December 1972, concerned about the geological conditions of the Teton River Canyon, USGS geologist David Schleicher wrote about the Teton Dam while it was still under construction, "A final point is that flooding in response to seismic or other failure of the dam—probably most likely at the time of highest water—would make the flood of February 1962 look like small potatoes. Since such a flood could be anticipated, we might consider a series of strategically placed motion-picture cameras to document the process."[8]
The dam was completed in November 1975 and filling the reservoir began at the standard rate of one foot (30 cm) a day. However, snows were heavy that winter, and five months later, the project's construction engineer requested permission to double the filling rate to deal with the additional spring run-off, while continuing to inspect for leaks and monitor the groundwater. A month later, though monitoring showed that groundwater was flowing a thousand times faster than had been originally anticipated, the filling rate was doubled again, to 4 feet (1.2 m) a day.[4]
On June 3 and 4, 1976, three smallsprings were discovered downstream of the dam, although the water running through the leaks was clear and such leaks are not unexpected for anearthen dam. At the time, the reservoir was almost at capacity, with a maximum depth of 240 feet (73 m). The only structure that had been initially prepared for releasing water was the emergencyoutlet works,[citation needed] which could carry just 850 cubic feet per second (24 m3/s). The main outlet works and spillway gates were not yet in service; the gates were cordoned off by steel walls while they were being painted.[citation needed]
On Saturday, June 5, 1976, at 7:30 amMDT, a muddy leak appeared, suggesting sediment was in the water, but engineers did not believe there was a problem. By 9:30 am, the downstream face of the dam had developed a wet spot, which began to discharge water at 20 to 30 cubic feet per second (0.57 to 0.85 m3/s) and the embankment material began to wash out. Crews withbulldozers were sent to plug the leak, but were unsuccessful. Localmedia appeared at the site and at 11:15, officials told the county sheriff's office to evacuate downstream residents. Work crews were forced to flee on foot as the widening gap, now larger than a swimming pool, swallowed their equipment. The operators of two bulldozers caught in the eroding embankment were pulled to safety with ropes.[13]
At 11:55 am MDT (UTC−17:55), the crest of the dam sagged and collapsed into the reservoir; two minutes later, the remainder of the right-bank third of the main dam wall disintegrated. Over 2,000,000 cubic feet per second (57,000 m3/s) (many times the average flow rate ofNiagara Falls and greater than the average flow of any river in the world except theAmazon River) of sediment-filled water emptied through the breach into the remaining 6 miles (10 km) of the Teton River canyon, after which the flood spread out and shallowed on theSnake River Plain. By 8:00 pm, the reservoir had completely emptied, although over two-thirds of the dam wall remained standing.[13]
Study of the dam's environment and structure[14] placed blame for the collapse on the permeableloess soil used in the core and on fissured (cracked) rhyolite in the abutments of the dam that allowed water to seep around and through the earth-fill dam. The permeable loess was found to be cracked. The combination of these flaws is thought to have allowed water to seep through the dam and to lead tointernal erosion, called piping, that eventually caused the dam's collapse.
An investigating panel had quickly identified piping as the most probable cause of the failure, then focused its efforts on determining how the piping started. Two mechanisms were possible. The first was the flow of water under highly erodible and unprotected fill, through joints in unsealed rock beneath the grout cap and development of an erosion tunnel. The second was "cracking caused by differential strains or hydraulic fracturing of the core material." The panel was unable to determine whether one or the other mechanism occurred, or a combination:
The fundamental cause of failure may be regarded as a combination of geological factors and design decisions that, taken together, permitted the failure to develop.
A wide-ranging controversy ensued from the dam's collapse. According to the Bureau of Reclamation, bureau engineers assess all reclamation dams under strict criteria established by the Safety of Dams program. Each structure is periodically reviewed for resistance to seismic activity, for internal faults, and for physical deterioration.[5] The dam safety program identified two other dangerous dams –Fontenelle, which very nearly failed 11 years earlier, when it was filled, in a manner similar to the Teton Dam,[15] and again in May 1985;[16][17] and theJackson Lake Dam, which would have failed during an earthquake on the nearbyTeton Fault.
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Teton Canyon ends about six miles (10 km) below the dam site, where the river flows onto the Snake River Plain. When the dam failed, the flood struck several communities immediately downstream, particularlyWilford at the terminus of the canyon,Sugar City, Salem, Hibbard, andRexburg. Thousands of homes and businesses were destroyed.[18][19] The small agricultural communities of Wilford and Sugar City were wiped from the river bank. Five of the 11 deaths attributed to the flood occurred in Wilford. The similar community ofTeton, on the south bank of the river, is on a modest bench and was largely spared.[20] One Teton resident was fishing on the river at the time of the dam failure and was drowned. An elderly woman living in the city of Teton died as a result of the evacuation.[21]
An estimated 80% of existing structures were damaged in the Hibbard and Rexburg area, whose population was about 10,000. The Teton River flows through the industrial, commercial, and residential districts of north Rexburg. Much of the damage in the area was done by thousands of logs dislodged from a lumber yard. Dozens of them hit a bulk gasoline-storage tank a few hundred yards away. The gasoline ignited and sent flaming slicks adrift on the racing water.[22] The force of the logs and cut lumber and the subsequent fires practically destroyed the town.
The flood waters traveled west along the route of theHenrys Fork of the Snake River, around both sides of theMenan Buttes, damaging the community ofRoberts. The city ofIdaho Falls, even further down on the flood plain, had time to prepare.[23] At the olderAmerican Falls Dam downstream, engineers increased discharge by less than 5% before the flood arrived.[24] That dam held and the flood was effectively over, but tens of thousands of acres of land near the river were stripped of fertile topsoil.[7]
The force of the failure destroyed the lower part of the Teton River, washing awayriparian zones and reducing the canyon walls. This damaged the stream's ecology and hurt the nativeYellowstone cutthroat trout population. The force of the water and excessive sediment also damaged stream habitat in the Snake River and some tributaries, as far downstream as theFort Hall bottoms.
Debris clean-up began immediately and took the remainder of the summer. Rebuilding of damaged property continued for several years. Within a week of the disaster, PresidentGerald Ford requested a $200 million appropriation for initial payments for damages, without assigning responsibility for Teton Dam's failure.[25][26][27][28]
The Bureau of Reclamation set up claims offices in Rexburg, Idaho Falls, andBlackfoot. By January 4, 1977, seven months after the disaster, victims had filed over 4,800 claims totaling $194 million and the federal government had paid 3,813 of those claims worth $93.5 million. The claims program was originally scheduled to end in July 1978, but continued until January 1987, when the federal government had paid 7,563 claims for a total amount of $322 million.
No plans have been made for rebuilding the Teton Dam, but its reconstruction has been discussed over the years.[29][30][31]
Footage and interviews are featured inCatastrophe-No Safe Place (1980), hosted byCharles Bronson andJill Ireland.
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