Uranium mining in the United States
Uranium mining in the United States produced 4.9 million pounds of uranium concentrate in 2013, the largest amount since 1997. Production came from one conventional uranium mill in Utah, and six in-situ leach operations: three in Wyoming, two in Texas, and one in Nebraska. The plants in Wyoming provided 81% of the nation’s uranium production.[1]
While uranium is used primarily for nuclear power, uranium mining had its roots in the production of uranium-bearing ore in 1898 with the mining of carnotite-bearing sandstones of the Colorado Plateau in Colorado and Utah, for their vanadium content. The late 1940s and early 1950s saw a boom in uranium mining in the western U.S., spurred by the fortunes made by prospectors such as Charlie Steen. The United States was the world's leading producer of uranium from 1953 until 1980, when annual U.S. production peaked at 16,810 metric tons U3O8.[2] Until the early 1980s, there were active uranium mines in Arizona, Colorado, New Mexico, South Dakota, Texas, Utah, Washington, and Wyoming.[3]
Price declines in the late 1970s and early 1980s forced the closure of numerous mines. Most uranium ore in the United States comes from deposits in sandstone, which tend to be of lower grade than those of Australia and Canada. Because of the lower grade, many uranium deposits in the United States became uneconomic when the price of uranium declined sharply in the late 1970s. By 2001, there were only three operating uranium mines (all in-situ leaching operations) in the United States. Annual production reached a low of 779 metric tons of uranium oxide in 2003, but then more than doubled in three years to 1672 metric tons in 2006, from 10 mines.[4] The U.S. DOE's Energy Information Administration reported that 90% of U.S. uranium production in 2006 came from in-situ leaching.[5]
The average spot price of uranium oxide (U3O8) increased from $7.92 per pound in 2001 to $39.48 per pound ($87.04/kg) in 2006.[6] In 2011 the United States mined 9% of the uranium consumed by its nuclear power plants.[7] The remainder was imported, principally from Russia (50%), Canada, and Australia.[8][9] Although uranium production has declined to low levels, the United States has the fourth-largest uranium resource in the world, behind Australia, Canada, and Kazakhstan.[8] United States uranium reserves are strongly dependent on price. At $50 per pound U3O8, reserves are estimated to be 539 million pounds; however, at a price of $100 per pound, reserves are an estimated 1227 million pounds.[10] Rising uranium prices since 2001 have increased interest in uranium mining in Arizona, Colorado, Texas and Utah.[11][12] The states with the largest known uranium ore reserves (not counting byproduct uranium from phosphate) are (in order) Wyoming, New Mexico, and Colorado.[13]
The radiation hazards of uranium mining and milling were not appreciated in the early years, resulting in workers being exposed to high levels of radiation. Inhalation of radon gas caused sharp increases in lung cancers among underground uranium miners employed in the 1940s and 1950s.[14][15][16] In 1950, the US Public Health service began a comprehensive study of uranium miners, leading to the first publication of a statistical correlation between cancer and uranium mining, released in 1962.[17] In 1969, the federal government regulated the standard amount of radon in mines.[18] In 1990, Congress passed the Radiation Exposure Compensation Act (RECA), granting reparations for those affected by mining.[17] Out of 50 present and former uranium milling sites in 12 states, 24 have been abandoned, and are the responsibility of the US Department of Energy.[19]
By state
Alabama
Uranium in Alabama is found in the Coosa Block of the Northern Alabama Piedmont. Metamorphic uranium occurrences have been found in the Higgins Ferry Group in Coosa and Clay Counties. Some exploration has been done, but no economic deposits have been found to date.
Alaska
Uranium was discovered at the Ross-Adams deposit in 1955 by an airborne gamma radiation survey. The deposit is at Bokan Mountain on Prince of Wales Island. The principal ore mineral was uranothorite, which occurred in veinlets in granite. Accessory minerals were primarily hematite and calcite, with lesser amounts of fluorite, pyrite, galena, quartz, and rare earth minerals. The first mining was done in 1957, when ore was removed from an open pit 25 to 75 feet (8 to 23 m) wide, 370 feet (110 m) long, and 30 feet (9 m) deep. Additional mining took place in 1959-1964 and 1970-1971 [20] A total of 1.3 million pounds (590 t) of uranium were produced, with all of the milling taking place in Washington and Utah. There is a firm looking at the potential of reopening the mine.[21]
Arizona
Uranium mining in Arizona has taken place since 1918. Prior to the uranium boom of the late 1940s, uranium in Arizona was a byproduct of vanadium mining of the mineral carnotite. There are currently two Energy Fuels mining operations located several miles south of Fredonia, AZ.[22][23]
California
Uranium was discovered in 1954 in the Sierra Nevada of Kern County, along the Kern River about 30 miles (50 km) northeast of Bakersfield. Two mines, the Kergon mine and the Miracle mine, made small shipments in 1954 and 1955. Uranium occurs as uraninite and autunite in shear zones in granodiorite. Accessory minerals include fluorite and the molybdenum minerals ilsemanite and jordisite.[24]
Colorado
The first uranium identified in the USA was pitchblende from the Wood gold mine at Central City, Colorado in 1871. Uranium mining in southwest Colorado goes back to 1898. The Uravan district of Colorado and Utah supplied about half the world's radium from 1910 to 1922, and vanadium and uranium were byproducts. The last producing uranium mine in the state, the Topaz Mine, part of the Sunday Complex near Uravan, Colorado, was closed down on March 18, 2009 by then owner Denison Mines due to depressed uranium prices.[25][26]
Florida
The Central Florida (Bone Valley) phosphorite deposits are considered to contain the largest known uranium resource (one million metric tons of uranium oxide) in North America (but note that resources are not the same as ore reserves). Uranium has been produced as a byproduct of phosphate mining and the production of phosphoric acid fertilizer. The uranium is contained in the phosphate minerals francolite, crandallite, millisite, wavellite, and vivianite, found in Miocene and Pliocene sediments of the Bone Valley Formation. The average uranium content is 0.009%, which is considered to be low grade. Concentrations of uranium in this type of deposit typically grade to 0.01–0.015% U3O8.[27] Recovery process costs are estimated at $22 to $54 per pound of U3O8; higher than the market price of uranium during the 25-year period spanning the 1980s through the early first decade of the 21st century. Consequently, uranium recovery from Florida phosphate ceased in 1998.[28]
Idaho
From 1955 to 1960, uranium was extracted from placer black sand deposits derived from the Idaho Batholith in southwest Idaho. The deposits were mined for uranium, thorium, and rare earths. Uranium and thorium were in the monazite grains; rare earths were in columbite and euxenite. Production was 365,000 pounds (165 metric tons) of U3O8.[29]
Uranium was mined at the Stanley district in Custer County, Idaho from 1957 to 1962. Deposits occur as veins in granite of the Cretaceous Idaho Batholith, and in strataform deposits in possibly Paleocene arkosic conglomerates and sandstones between the underlying Idaho Batholith and overlying Challis Volcanic Group (Eocene). The USGS has estimated production to be less than 170,000 pounds (78 metric tons) of U3O8.[30]
Nebraska
The only uranium mine in Nebraska has been the Crow Butte mine, operated by Cameco. The mine is five miles (8 km) southeast of Crawford in Dawes County, western Nebraska.[31] The roll-front deposit in the Oligocene Chadron formation was discovered in 1980 by Wyoming Fuel Co.[32] Mining began in 1991. The uranium is being mined by in-situ leaching which involves the extraction of uranium-bearing (U3O8) water. The extracted uranium solution is then filtered through resin beads. Through an ion exchange process, the resin beads attract uranium from the solution. Uranium loaded resins are then transported to a processing plant, where U3O8 is separated from the resin beads and yellowcake is produced. The resin beads can then be returned to the ion exchange facility where they are reused. [33]
Nevada
The uranium deposit of the Apex mine (also called the Rundberg mine or the Early Day mine) was discovered in 1953, three miles south of Austin, Nevada, in Lander County. The mine produced 45 metric tons of U3O8 from 1954 until the mine was closed in 1966. Uranium occurs as autunite and meta-autunite in fractured Cambrian quartzite and argillite, adjacent to Jurassic quartz monzonite.[34]
The McDermitt Caldera in Humboldt County was the site of intense uranium exploration in the late 1970s. In 2006 and 2007, Western Uranium Corporation drilled exploratory boreholes in the area.[35]
New Jersey
A uranium exploration project in northern New Jersey was halted in 1980 when the local government passed an ordinance preventing uranium mining.[36]
New Mexico
New Mexico was a significant uranium producer since the discovery of uranium by Navajo sheepherder Paddy Martinez in 1950. Uranium in New Mexico is almost all in the Grants mineral belt, along the south margin of the San Juan Basin in McKinley and Cibola counties, in the northwest part of the state.[37] No mining has been done since 2002, even though the state has second-largest known uranium ore reserves in the U.S.
North Dakota
Some lignite coal in southwest North Dakota contains economic quantities of uranium. From 1965 to 1967 Union Carbide operated a mill near Belfield in Stark County to burn uraniferous lignite and extract uranium from the ash. The plant produced about 150 metric tons of U3O8 before shutting down.[38]
Oklahoma
A small amount of uranium ore was mined in the mid-1950s from a surface exposure at Cement in Caddo County. The uranium occurred as carnotite and tyuyamunite in fracture fillings in the Rush Springs Sandstone over the Cement anticline, where the sandstone is bleached.[39] The mined area was 150 feet (46 m) long, 3 to 5 feet (0.9 to 1.5 m) wide, and extended 3 to 5 feet (0.9 to 1.5 m) below ground surface.[40]
Oregon
Uranium was discovered in Oregon in 1955, 20 miles northwest of Lakeview in Lake County. The White King mine and the Lucky Lass mine shipped uranium from 1955 until 1965. At the White King mine, uranium was mined by both underground and open-pit methods from a low-temperature hydrothermal deposit in Pliocene volcanic rocks, associated with opal, realgar, stibnite, cinnabar, and pyrite. At the Lucky Lass mine ore was mined from an open pit. Uranium occurs in uraninite and autunite in lenses near or in a fault zone in tuffs.[41][42]
A minor amount of uranium was mined in 1960 from a deposit at Bear Creek Butte in Crook County. The uranium was present as autunite at the contact between a rhyolite dike and tuffs of the Oligocene-Miocene John Day Formation.[42]
The McDermitt Caldera in Malheur County was the site of intense uranium exploration in the late 1970s. Portland-based Oregon Energy is currently planning development of the Aurora deposit, near McDermitt.[43]
Pennsylvania
The uranium mineral autunite was reported in 1874 near the town of Mauch Chunk (present-day Jim Thorpe) in Carbon County, eastern Pennsylvania.[44] A small amount of test mining was done in 1953 at the Mount Pisgah deposit near Jim Thorpe. The uranium at the Mount Pisgah deposit is primarily in an unidentified black mineral in pods and rolls in the basal conglomerate of the Mauch Chunk Formation (Mississippian). Also present are the secondary uranium and uranium-vanadium minerals carnotite, tyuyamunite, liebigite, uranophane, and betauranophane.[45]
South Dakota
Uranium was discovered near Edgemont, South Dakota in 1951, quickly followed by mining. The uranium occurs in Cretaceous sandstones of the Inyan Kara group, where it outcrops along the southern edge of the Black Hills in Fall River County, South Dakota. Minerals in unoxidized sandstone are uraninite and coffinite; minerals in oxidized zones include carnotite and tyuyamunite.[46]
An airborne gamma radiation survey flown by the US Atomic Energy Commission in 1954 discovered high radiation readings over the Cave Hills area in Harding County, in the northwest corner of the state.[47] High winds blew the reconnaissance flight off their planned survey route over the Slim Buttes twenty miles southeast of the North Cave Hills. Claims were immediately staked over uranium-bearing lignite beds in the area. The lignite was strip-mined, probably starting that same year, and continuing until the mines closed in 1964.[48]
No uranium is currently mined in South Dakota.
In January 2007 [49] Powertech Uranium Corporation received a state permit to drill boreholes to evaluate their Dewey-Burdock project, in Custer and Fall River counties northwest of Edgemont.[50] Previous work at the property in the early 1980s defined a resource of 10 million pounds (4500 metric tons) of uranium, of which 5 million pounds (2300 metric tons) were estimated recoverable by conventional underground mining.[51] Powertech hoped to bring the property into production as an in-situ leaching mine in 2009.[52]
A campaign has been underway to halt any effort to mine uranium in the Black Hills because of its effect on Native American and wildlife populations, as well as the effects of mining on the water table and local ranchers.[53][54] Indigenous leaders and anti-nuclear activists began organizing around this issue in the 1970s and there are still efforts underway to prevent mining on native lands.[55][56]
Texas
The uranium district of south Texas was discovered by accident in 1954 by an airborne gamma radiation survey looking for petroleum deposits. The coastal plain had previously been regarded as highly unfavorable for uranium deposits.[57] The uranium occurs in roll-front type deposits in sandstones of Eocene, Oligocene and Miocene age.[58] The deposits are distributed along about 200 miles (320 km) of coastal plain, from Panna Maria in the north, south into Mexico. Uranium production began in 1958, from open-pit and in situ leach mines.
Uranium production stopped in 1999, but restarted in 2004.[59] By 2006, three mines were active: Kingsville Dome in Kleberg County, the Vasquez mine in Duval County, and the Alta Mesa mine in Brooks County. 2007 production was 1.34 million pounds (607 metric tons) of U3O8.[60]
Uranium Energy Corp. (UEC) began in-situ leach mining at its Palangana deposit (grading .135% U3O8) in Duval County in 2010. Uranium loaded resins from that ion exchange facility are processed into yellowcake at the company's Hobson processing plant. In late 2012, UEC completed the permitting and approval process for the Goliad ISR mining and ion exchange facility in Goliad County. In-situ leach mining operations are expected to begin at that location in 2013. The company has two more South Texas deposits permitted or under development.[61]
Utah
Mining of uranium-vanadium ore in southeast Utah goes back to the late 19th century. All of Utah’s numerous uranium mines had closed by 1991 because of low prices. In late 2006, Denison Mines reopened the Pandora mine in the La Sal mining district, Utah's first producing uranium mine since 1991.[62] On June 29, 2012, Energy Fuels Inc. acquired Denison's US assets, including the White Mesa Mill. In October 2012 the only operating uranium mines in Utah, the Pandora, Beaver and Daneros mines, were all placed on standby, care and maintenance due to the depressed uranium price.[22][63][64][65]
The White Mesa Mill, 7 miles south of Blanding, Utah, is the only operating conventional uranium (and vanadium) mill in the United States.[65]
Virginia
The largest deposit of uranium in the U.S.A. is in Virginia at Coles Hill; however, the state's generous rainfall and occasional flooding (in contrast with typical American uranium mines in the dry and isolated desert southwest) have led to citizen concern about commercial-scale mining.[66] Lawmakers in the state enacted a de facto ban on uranium mining in 1982. A 2015 federal court case involving the owners of Coles Hill might overturn the ban.
Marline Uranium Corp. announced in July 1982 that it had discovered 110 million pounds (50,000 metric tons) of uranium in the Swanson/Coles Hill deposit, on land that it had leased near Chatham in Pittsylvania County. During the 1982 legislative session, the state of Virginia adopted laws to govern exploration for uranium in the Commonwealth. At the same time, the legislature imposed a moratorium on uranium mining in the state until such time that regulations to govern uranium mining could be enacted into law.[67]
In 1981, the Virginia General Assembly approved House Joint Resolution No. 324, which directed the Virginia Coal and Energy Commission to evaluate the effects of uranium development on the Commonwealth and its citizens. The Virginia Coal and Energy Commission is a permanent legislative commission composed of five Senators, eight Delegates, and seven citizens appointed by the Governor.
The Commission completed its evaluation of uranium mining in October 1984 and concluded that the moratorium regarding uranium development could be lifted on the condition that certain specific recommendations derived from its work would be enacted into law.
Union Carbide was the joint venture partner on the project with Marline until early 1984 when it dropped its option on the property due to declining uranium prices. Marline kept the project on care and maintenance until 1990, when it dropped its remaining mineral leases and closed its local exploration office.[68]
The deposits occur as breccia-fill and veins in gneiss bordering the Triassic Danville Basin.[69] Ore minerals are coffinite, uraninite, and uranium-bearing apatite.[70]
In October 2007, Walter Coles, who owns the land over the Coles Hill deposit, announced that he and some other landowners had formed Virginia Uranium Inc. to mine the deposit themselves, if it can be done safely.[71][72] In November 2007, the state issued an exploration permit to Virginia Uranium, to allow drilling test holes into the deposit. Drilling began in mid-December.
The state-imposed moratorium on uranium mining is still in effect. A bill proposed in the state General Assembly in January 2008 would have created a Virginia Uranium Mining Commission to determine if uranium mining could be done in a manner protective of human health and the environment, and to recommend regulatory controls.[73] The bill passed the Democratic controlled state Senate by a vote of 36-4. However, opponents of uranium mining succeeded in stopping the bill on March 3, 2008, when Rules Committee of the Republican controlled House of Delegates delayed consideration of the bill until 2009.[74]
In November 2008, the Virginia Coal and Energy Commission voted unanimously to once again create a subcommittee to study the issue of uranium mining.[75] In May 2009 the subcommittee approved a study of potential uranium mining and its safety and pollution issues. The study is expected to take about 18 months to complete.[76]
In February 2010, the Commonwealth of Virginia contracted the National Research Council and Virginia Polytechnic Institute to oversee a National Research Council study of potential environmental and economic effects of uranium mining in Virginia. The National Research Council study, funded indirectly by a $1.4 million grant from Virginia Uranium to the Commonwealth, resulted in a report released in December 2011.[77]
The report identified a range of health and environmental issues and related risks that could result from uranium mining in the Commonwealth of Virginia. The report found that although there are internationally accepted best practices to mitigate some risks, Virginia faces “steep hurdles” if it is to undertake uranium mining and processing within a regulatory setting that appropriately protects workers, the public, and the environment.[78]
Uranium mining and processing carries with it a range of potential health risks to the people who work in or live near uranium mining and processing facilities. Some of these health risks apply to any type of hard rock mining or other large-scale industrial activity, but others are linked to exposure to radioactive materials. In addition, uranium mining has the potential to impact water, soil, and air quality, with the degree of impact depending on site-specific conditions, how early a contaminant release is detected by monitoring systems, and the effectiveness of mitigation steps.[79]
Some of the worker and public health risks could be mitigated or better controlled through modern internationally accepted best practices, the report says. In addition, if uranium mining, processing, and reclamation were designed, constructed, operated, and monitored according to best practices, near-to-moderate-term environmental effects should be substantially reduced, the report found.[80]
However, the report noted that Virginia’s high water table and heavy rainfall differed from other parts of the United States — typically dry, Western states — where uranium mining has taken place. Consequently, federal agencies have little experience developing and applying laws and regulations in locations with abundant rainfall and groundwater, such as Virginia. Because of Virginia’s moratorium on uranium mining, it has not been necessary for the Commonwealth’s agencies to develop a regulatory program that is applicable to uranium mining, processing, and reclamation.
The report also noted the long-term environmental risks of uranium tailings, the solid waste left after processing. Tailings disposal sites represent potential sources of contamination for thousands of years. While it is likely that tailings impoundment sites would be safe for at least 200 years if designed and built according to modern best practices, the long-term risks of radioactive contaminant release are unknown.
The report’s authoring committee was not asked to recommend whether uranium mining should be permitted, or to consider the potential benefits to the state were uranium mining to be pursued. It also was not asked to compare the relative risks of uranium mining to the mining of other fuels such as coal.
In October 2015, it went before a federal judge whether the 33-year-old ban on large-scale uranium mining in Virginia would be lifted.
- WHSV-TV (10 Oct., 2015) Uranium Mining Might Start in Virginia Soon
- Time (23 February 2009): In Virginia, the appeal of uranium mining
- Virginia Uranium Inc. website
- Virginia Department of Mines, Minerals, and Energy: Uranium Exploration Permit Approved
- MinDat.Org: Location maps - Swanson uranium project (Cole property), Pittsylvania Co., Virginia, USA, retrieved 6 January 2009.
- Non-technical summary of the National Research Council report Uranium Mining in Virginia, retrieved 20 December 2011.
Washington
Uranium was discovered at the Midnite Mine deposit on the Spokane Indian Reservation, Stevens County, north-east Washington in 1954. The deposit was mined from an open pit 1956-1962 and 1969-1982.[81] Production through 1975 was 8 million pounds (3,600 metric tons) of U3O8. The uranium is contained in autunite, uraninite, and coffinite, with gangue minerals pyrite and marcasite. The ore occurs as disseminations, replacements, and stockworks in Precambrian metamorphic rocks of the Togo formation, in a roof pendant in Cretaceous porphyritic quartz monzonite.[82]
Western Nuclear discovered the Spokane Mountain uranium deposit in 1975, two miles (3 km) northeast of the Midnite Mine, and in a similar geologic setting.[83]
Other Washington state uranium mines include the Sherwood mine, located a few miles south of the Midnite mine, and the Daybreak mine, located about four miles west-northwest of Mt. Spokane. The Daybreak mine is recognized as the source of the finest museum-quality specimens of autunite and meta-autunite yet found.[84]
Wyoming
Wyoming once had many operating uranium mines, and has the largest known uranium ore reserves of any state in the U.S. The Wyoming uranium mining industry was hard-hit in the 1980s by the drop in the price of uranium. The uranium-mining boom town of Jeffrey City lost 95% of its population in three years. By 2006, the only active uranium mine in Wyoming was the Smith Ranch-Highland in-situ leaching operation in the Powder River Basin, owned by a subsidiary of Cameco. The mine produced 907 metric tons of yellowcake (uranium concentrate) in 2006, making it the leading uranium producer in the United States.[85]
Health and environmental issues
The radiation hazards of uranium mining and milling were not appreciated in the early years, resulting in workers exposed to high levels of radiation. Inhalation of radon gas caused sharp increases in lung cancers among underground uranium miners employed in the 1940s and 1950s.[14][15][16] Conventional uranium ore treatment mills create radioactive waste in the form of tailings, which contain uranium, radium, and polonium. Consequently, uranium mining results in "the unavoidable radioactive contamination of the environment by solid, liquid and gaseous wastes".[86]
In the 1940s and 1950s, uranium mill tailings were released with impunity into water sources, and the radium leached from these tailings contaminated thousands of miles of the Colorado River system. Between 1966 and 1971, thousands of homes and commercial buildings in the Colorado Plateau region were "found to contain anomalously high concentrations of radon, after being built on uranium tailings taken from piles under the authority of the Atomic Energy Commission".[87]
In 1950, the US Public Health service began a comprehensive study of uranium miners, leading to the first publication of a statistical correlation between cancer and uranium mining, released in 1962.[17] The federal government eventually regulated the standard amount of radon in mines, setting the level at 0.3 WL on January 1, 1969.[18]
Out of 50 present and former uranium milling sites in 12 states, 24 have been abandoned, and are the responsibility of the US Department of Energy.[88] Accidental releases from uranium mills include the 1979 Church Rock uranium mill spill in New Mexico, called the largest accident of nuclear-related waste in US history, and the 1986 Sequoyah Corporation Fuels Release in Oklahoma.[18]
In 1990, Congress passed the Radiation Exposure Compensation Act (RECA), granting reparations for those affected by mining, with amendments passed in 2000 to address criticisms with the original act.[17]
Uranium mining, milling and the American Southwest
Between 1949 and 1989, over 4,000 uranium mines in the Four Corner region produced more than 225,000,000 tons of uranium ore. This activity affected a large number of Native American nations, including the Laguna, Navajo, Zuni, Southern Ute, Ute Mountain, Hopi, Acoma and other Pueblo cultures. Many of these peoples worked in the mines, mills and processing plants in New Mexico, Arizona, Utah and Colorado. These workers were not only poorly paid, they were seldom informed of dangers nor were they given appropriate protective gear. The government, mine owners, scientific, and health communities were all well aware of the hazards of working with radioactive materials at this time. Due to the Cold War demand for increasingly destructive and powerful nuclear weapons, these laborers were both exposed to and brought home large amounts of radiation in the form of dust on their clothing and skin. Epidemiologic studies of the families of these workers have shown increased incidents of radiation-induced cancers, miscarriages, cleft palates and other birth defects. The extent of these genetic effects on indigenous populations and the extent of DNA damage remains to be resolved.[89][90][91][92][93][94]
Uranium mining, milling and the Navajo people
After the end of World War II, large uranium deposits were found on and near the Navajo Reservation in the Southwest, and private companies hired many Navajo employees to work the mines. Disregarding the known health risks imposed by exposure to uranium, the private companies and the United States Atomic Energy Commission failed to inform the Navajo workers about the dangers and to regulate the mining to minimize contamination. As more data was collected, they were slow to take appropriate action for the workers.
Studies provided data to show that the Navajo mine workers and numerous families on the reservation have suffered high rates of disease from environmental contamination, but for decades, industry and the government failed to regulate or improve conditions, or inform workers of the dangers. As high rates of illness began to occur, workers were often unsuccessful in court cases seeking compensation, and the states at first did not officially recognize radon illness. In 1990 the US Congress passed the Radiation Exposure Compensation Act, to settle such cases and provide needed compensation.
In 2008 the US Congress authorized a five-year, multi-agency cleanup of uranium contamination on the Navajo Nation reservation; identification and treatment of contaminated water and structures has been the first priority. Certain water sources have been closed, and numerous contaminated buildings have been taken down. By the summer of 2011, EPA had nearly completed the first major project of removal of 20,000 cubic yards of contaminated earth from the Skyline Mine area.
See also
- Botanical prospecting for uranium
- Nuclear power in the United States
- Uranium mining
- List of uranium mines
- Anti-nuclear movement in the United States
- Uranium Mill Tailings Radiation Control Act
- The Return of Navajo Boy, a 2000 documentary film about Navajo struggling with the legacy of uranium mining on their lands
- Nuclear labor issues
References
- ↑ US Energy Information Administration, Domestic Uranium Production Report – Quarterly, - 4th Quarter 2013, 31 Jan 2014.
- ↑ Uranium 2003: Resources, Production and Demand, Paris: OECD Nuclear Energy Agency, 2004, p.238
- ↑ Warren I. Finch and others (1973) Nuclear fuels, in United States Mineral Resources, US Geological Survey, Professional Paper 820, p.458.
- ↑ "World Uranium Mining 2011". World-nuclear.org. Retrieved 2012-10-16.
- ↑ U.S. Energy Information Administration: U.S. uranium mine production and number of mines and sources, accessed 6 March 2009.
- ↑ Department of Energy's Energy Information Administration data, official energy statistics from the U.S. Government
- ↑ US Energy Information Administration, Where our uranium comes from, 2 July 2012.
- 1 2 Warren I Finch (2003) Uranium-fuel for nuclear energy 2002, US Geological Survey, Bulletin 2179-A.
- ↑ See S&TR: September 2005, How One Equation Changed the World, which discusses the progress of the HEU Purchase Agreement made between the Russian Federation and the United States in 1993. "Currently, Russian plants are processing about 30 metric tons of HEU per year into about 875 metric tons of LEU. This amount meets half the annual fuel requirement for U.S. nuclear power plants and provides the fuel to generate 10 percent of the electricity used in the U.S."
- ↑ US Energy Information Administration, U.S. uranium reserves estimates, July 2010.
- ↑ WISE Uranium Project: New uranium mining projects - USA, accessed 25 March 2009.
- ↑ Moran, Susan; Raup, Anne (28 March 2007). "Uranium Ignites ‘Gold Rush' in the West". The New York Times.
- ↑ J. Keller and others, Colorado, Mining Engineering, May 2006, p.76.
- 1 2 Roscoe, R. J.; K. Steenland; W. E. Halperin; J. J. Beaumont; R. J. Waxweiler (1989-08-04). "Lung cancer mortality among nonsmoking uranium miners exposed to radon daughters". JAMA 262 (5): 629–633. doi:10.1001/jama.1989.03430050045024. PMID 2746814. Retrieved 2007-08-09.
- 1 2 Roscoe, R. J.; J. A. Deddens; A. Salvan; T. M. Schnorr (1995). "Mortality among Navajo uranium miners". American Journal of Public Health 85 (4): 535–540. doi:10.2105/AJPH.85.4.535. PMC 1615135. PMID 7702118.
- 1 2 "Uranium Miners' Cancer". Time Magazine. 1960-12-26. ISSN 0040-781X. Retrieved 2007-08-09.
- 1 2 3 4 Dawson, Susan E, and Gary E Madsen. "Uranium Mine Workers, Atomic Downwinders, and the Radiation Exposure Compensation Act." In Half Lives & Half-Truths: Confronting the Radioactive Legacies of the Cold War, 117-143. Santa Fe: School For Advanced Research, 2007)
- 1 2 3 Brugge, Doug, Timothy Benally, and Esther Yazzie-Lewis. The Navajo People and Uranium Mining. Albuquerque : University of New Mexico Press, 2006.
- ↑ Nuclear Decommissioning Title 1 Uranium Mills Summary Table
- ↑ E.M. MacKevett Jr. (1963) Geology and Ore Deposits of the Bokan Mountain Uranium-Thorium Area, Southeastern Alaska, US Geological Survey, Bulletin 1154.
- ↑ Archived July 5, 2008 at the Wayback Machine
- 1 2 "Energy Fuels Inc., 2012 Annual Information Form" (PDF).
- ↑ Allison, Lee. "Development of northern Arizona uranium mine planned by year-end". Arizona Geology.
- ↑ E.M. MacKevett Jr. (1960) Geology and Ore Deposits of the Kern River Uranium Area, California, US Geological Survey, Bulletin 1087-F.
- ↑ J. Burnell and others, Colorado, Mining Engineering, May 2007, p.77.
- ↑ Energy Fuels. "Sunday Complex". Retrieved 18 Oct 2013.
- ↑ Warren I. Finch (1996) Uranium provinces of North America-their definition, distribution, and models, US Geological Survey, Bulletin 2141.
- ↑ Energy Information Administration (12 Feb. 2008): 4th Quarter 2007 uranium production was 1.2 million pounds
- ↑ Energy Information Administration: Lowman mill and disposal site
- ↑ Bradley S. Van Gosen and others (2005) A Reconnaissance Geochemical and Mineralogical Study of the Stanley Uranium District, Custer County, Central Idaho, US Geological Survey, Scientific Investigations Report 2005-5264.
- ↑ R.M. Lyman, Wyoming, Mining Engineering, May 2005 p.130.
- ↑ Geology and discovery of the Crow Butte uranium deposit, Dawes County, Nebraska
- ↑ "Mining - Crow Butte - Extraction Process". Cameco. 2010-04-23. Retrieved 2012-10-16.
- ↑ Frederick W. Plut (1979) Geology of the Apex uranium mine near Austin, Nevada, in Basin and Range Symposium, Denver: Rocky Mountain Association of Geologists, p.413-420.
- ↑ "Kings Valley Claims, Nevada, USA". Archived from the original on 2010-03-30. Retrieved 2014-11-10.
- ↑ Time (13 Oct. 1980):"In New Jersey: a uranium boom goes bust", accessed 25 March 2009.
- ↑ Douglas G. Brookins (1977) Uranium deposits of the Grants mineral belt: geochemical constraints on origin, in Exploration Frontiers of the Central and Southern Rockies, Denver: Rocky Mountain Association of Geologists, p.337-352.
- ↑ US Energy Information Administration, Belfield Ashing facility site, accessed 25 March 2009.
- ↑ Roy F. Allen and Richard G. Thomas, The uranium potential of diagenetically altered sandstones of the Permian Rush Springs Formation, Cement district, southwest Oklahoma, Economic Geology, Mar.-Apr. 1984, p.284-296.
- ↑ Uranium in the Southern United States (1969) US Atomic Energy Commission, WASH1128, p.52.
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- ↑ Benjamin K. Sovacool (2011). Contesting the Future of Nuclear Power: A Critical Global Assessment of Atomic Energy, World Scientific, p. 137.
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- ↑ Decommissioning of U.S. Uranium Production Facilities
- ↑ Frosh, Dan (July 26, 2009). "Uranium Contamination Haunts Navajo Country". The New York Times. Retrieved 31 March 2014.
- ↑ Johnston, Barbara Rose; Holly M. Barker; Marie I. Boutte; Susan Dawson; Paula Garb; Hugh Gusterson; Joshua Levin; Edward Liebow; Gary E. Madsen; David H. Price; Kathleen Purvis-Roberts; Theresa Satterfield; Edith Turner; Cynthia Werner (2007). Half Lives & Half Truths: Confronting the Radioactive Legacies of the Cold War. Santa Fe, NM: School for Advanced Research Press. ISBN 1930618824.
- ↑ Brugge, Doug; Timothy Benally, Esther Yazzie-Lewis (2007). The Navajo People and Uranium Mining. Albuquerque, NM: University of New Mexico Press. ISBN 0826337791.
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- ↑ Jung, Carrie. "Navajo Nation Opposes Uranium Mine on Sacred Site in New Mexico". Al Jazerra. Retrieved 31 March 2014.
- ↑ Laramee, Eve Andree. "Tracking Our Nuclear Legacy: Now we are all sons of bitches". 2012. WEAD: Women Environmental Artist Directory. Retrieved 31 March 2014.
External links
- Uranium Producers of America
- Uranium Mining from the Handbook of Texas Online
- The Return of Navajo Boy Webisodes, EPA Clean-up of uranium contamination at Navajo Reservation