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Bingham Canyon Mine

Coordinates: 40°31′23″N 112°09′04″W / 40.523°N 112.151°W / 40.523; -112.151
From Wikipedia, the free encyclopedia

Bingham Canyon Mine
A more than two-mile wide canyon of terraced mountains
Mine in 2003
Location
Bingham Canyon Mine is located in Utah
Bingham Canyon Mine
Bingham Canyon Mine
LocationSalt Lake County
StateUtah
CountryUnited States
Coordinates40°31′23″N 112°09′04″W / 40.523°N 112.151°W / 40.523; -112.151
Production
ProductsCopper
TypeOpen-pit
History
Discovered1848
Opened1906 (1906)
Owner
CompanyRio Tinto Group
Bingham Canyon Open Pit Copper Mine
Bingham Canyon Mine is located in Utah
Bingham Canyon Mine
Area900 hectares
NRHP reference No.66000736
Significant dates
Added to NRHPNovember 13, 1966[1]
Designated NHLNovember 13, 1966[2]

The Bingham Canyon Mine, more commonly known as Kennecott Copper Mine among locals,[3] is an open-pit mining operation extracting a large porphyry copper deposit southwest of Salt Lake City, Utah, in the Oquirrh Mountains. The mine is the largest human-made excavation, and deepest open-pit mine in the world,[4][5] which is considered to have produced more copper than any other mine in history – more than 19,000,000 short tons (17,000,000 long tons; 17,000,000 t).[5] The mine is owned by Rio Tinto Group, a British-Australian multinational corporation. The copper operations at Bingham Canyon Mine are managed through Kennecott Utah Copper Corporation which operates the mine, a concentrator plant, a smelter, and a refinery. The mine has been in production since 1906, and has resulted in the creation of a pit over 0.75 miles (1,210 m) deep,[5] 2.5 miles (4 km) wide, and covering 1,900 acres (3.0 sq mi; 770 ha; 7.7 km2). It was designated a National Historic Landmark in 1966 under the name Bingham Canyon Open Pit Copper Mine.[2] The mine experienced a massive landslide in April 2013 and a smaller slide in September 2013.[6]

History

[edit]

Minerals, in the form of copper ore, were first discovered in Bingham Canyon in 1848 by two brothers, Sanford and Thomas Bingham, sons of Erastus Bingham, Latter-Day Saint pioneers of September 1847, who grazed their cattle there. They reported their find to their leader, Brigham Young, who advised against pursuing mining operations because the survival and establishment of settlements were of paramount importance at that time. The brothers applied to that purpose as directed and did not stake a claim. In 1850, the Bingham family went to settle what is now Weber County, leaving the canyon still today known by their name.[7][8]

Page 102 from the Salt Lake County Recorder Mining Abstracts, Book A, showing the Jordan S.M.Co mining claim in 1863.

Bingham mine was part of the historical West Mountain Mining District.[9] It was not until September 17, 1863, with the organization of mining districts in the state of Utah,[10] that extraction of ore began, and the potential of the canyon's mineral resources began to be widely recognized. The first claim located was "Jordan S.M.Co" (Silver Mining Company) on September 17, 1863, the day the district was organized.[11] Soon followed were other mining claims, including Galina[12] and Independence[13] in 1864, and Buckeye[14] and Spanish[15] in 1865. George B. Ogilvie and 23 others located the West Jordan claim in 1870.[16] At first, mining was confined to placer gold, lead-silver, and copper-gold. Porphyry copper required processing and a railroad, which reached the canyon in 1873.[17]: 61–62 [18]

Enos Andrew Wall started working claims in 1887. His extensive tunnels and test pits, on his 200-acre (81 ha), indicated ore containing 2% copper.[17]

The canyon's 19th Century mines were relatively small, and it wasn't until the end of the century that very large-scale exploitation of the canyon's ore bodies began to develop with open-pit mining. In 1896, Samuel Newhouse and Thomas Weir acquired the Highland Boy Mine, which was rich in copper, silver, and gold. Together they formed the Utah Consolidated Gold Mines, Ltd. with English investors. They then formed the Boston Consolidated Gold and Copper Co., Ltd., for the development of low-grade copper ore adjacent to the Utah Copper Company site.[17]: 93–94 

Another significant development took place in 1903, when Daniel C. Jackling and Enos A. Wall organized the Utah Copper Company. Utah Copper immediately began construction of a pilot mill at Copperton,[17] just beyond the mouth of the canyon, and the company actually started mining in 1906.[18]

Bingham Canyon Mine, November 1942. Carr Fork Canyon as seen from "G" bridge.

The success of Utah Copper in mining the huge but low-grade porphyry copper type ore body at Bingham Canyon was based on Jacklin's 1904 decision to use open-pit mining, steam shovels, and the railroad. The mine became a showplace for "railroad-pit operations," and the industrial complex defined by the mine and the ASARCO smelting operation made it the "largest industrial mining complex in the world" by 1912.[17]: 168–170 

Utah Copper and Boston Consolidated merged after their separate surface operations approached each other in 1906. The Kennecott Copper Corporation, established to operate mines in Kennecott, Alaska, purchased a 25 percent financial interest in Utah Copper in 1915, which increased to 75 percent in 1923.[17]: 82, 151 

Utah Copper Mine, c. 1925, with a view of Main St. in Bingham Canyon. The Auditor lists the total earnings for the mine. Image from the Salt Lake County Auditor Annual Report, 1928.

Bingham's Canyon mine expanded rapidly, and by the 1920s, the region was a beehive of activity. Some 15,000 people of widely varying ethnicity lived in the canyon in large residential communities constructed on the steep canyon walls. The population declined rapidly as mining techniques improved, and several of the mining camps were swallowed up by the ever-expanding mine. By 1980, when Lark was dismantled, only Copperton, at the mouth of Bingham Canyon and with a population of 800, remained.

The 21 separate mining operations in existence by 1911 were consolidated into two in 1970: Kennecott and The Anaconda Minerals Company. In 1985 open-pit mining operations were halted by Kennecott's Utah Copper. In 1986, Kennecott discovered gold in nearby Barney's Canyon.[18]

The Bingham Canyon Mine, an aerial photograph taken June 2018

KCC was purchased by Sohio in 1981, and the mine reopened in 1987 after BP Minerals purchased the assets. In 1989 the Rio Tinto Group acquired the asset, which modernized the mine, mill, and smelter.[17]: 9 

The open-pit owners replaced an antiquated 1000-car railroad with conveyor belts and pipelines for transporting the ore and waste, which reduced costs by nearly 30% and returned the operation to profitability.[19]

Landslides

[edit]
Bingham Canyon Mine satellite images before (left, July 20, 2011) and after (right, May 2, 2013) a landslide on April 20, 2013

At 9:30 pm on April 10, 2013, a landslide occurred at the mine. Around 2.3–2.5 billion cubic feet (65×10^6–70×10^6 m3) of dirt and rock thundered down the side of the pit.[20] It is possibly the largest historic non-volcanic landslide in North America.[21][22][23] On the basis that the mine's steep walls made it a high risk for landslides, an interferometric radar system had been previously installed to monitor the ground's stability. As a result of warnings produced by this system, mining operations had been shut down the previous day in anticipation of the slide and there were no injuries.[24] The massive slide was expected to cut production of mined copper by 100,000 tonnes (98,000 long tons; 110,000 short tons).[25] A second slide caused an evacuation of 100 workers on September 11, 2013.[26] Another, less severe slide occurred on May 31, 2021.[27]

Environmental history

[edit]

Similar to other industrial age mining operations, the mine historically had adverse environmental effects on the habitats of fish and wild animals as well as air and water pollution, creating health hazards to the surrounding public.[28] Different federal agencies concerned with environmental conservation have used strict legal rules to pressure the subsidiary of Kennecott copper mine to comply with environmental regulations. Since the early 1990s, Kennecott has spent more than $400 million on clean-up efforts on the affected areas to avoid regulatory laws that would have placed them on the Superfund National Priorities List (NPL).[29]

The figure above shows a comparison of two satellite images used to identify the changes in the Bingham Canyon Mine between 1985 and 2016 JuxtaposeJS Embed[30]

Geology

[edit]
Cross-section through open pit, showing ore zonation
Geologic map showing bedrock geology and alteration zones, USGS.

The Bingham Canyon ore deposits occur in the Bingham nappe. They are a porphyry copper deposit, formed by a quartz monzonite porphyry intruded into sedimentary rocks. They exhibit a concentric alteration pattern and mineralogic zonation around the Bingham stock. These zones include a central core containing magnetite, followed by "a molybdenite zone low in copper, a bornite-chalcopyrite-gold higher grade copper zone, a pyrite-chalcopyrite zone, a pyrite zone, and an outermost lead-zinc zone."[18]: E1, E8 

Structurally, Late Paleozoic rocks were thrust faulted over the Precambrian craton during the Cretaceous Sevier orogeny. These rocks were later intruded and altered in the Tertiary by granitoid rocks. This igneous event was the source of deposition of gold, silver and other base metals.[18]: E4 

Copper and molybdenum sulfide minerals are dispersed in the intruded stock and in the adjoining carbonate sedimentary skarns. The main stratigraphic rocks in Bingham Canyon are Upper Pennsylvanian sandstones, quartzites, and limestones known as the Bingham Mine Formation in the Oquirrh Group. The central porphyry ores formed from mantle hydrothermal circulation while the outer vein and deposits in the sedimentary rocks formed at lower temperature when magmatic and meteoric waters mixed.[18]

Recovery process

[edit]

The extracted ore is treated at the Kennecott smelter at nearby Magna, Utah. The ore is run through a concentrator, where grinding mills reduce it to the consistency of face powder.[31] Flotation then separates the gangue from the metalliferous particles, which float off as a 28-percent concentrate of copper along with lesser amounts of silver, gold, lead, molybdenum, platinum and palladium. A selective flotation step separates the molybdenite (molybdenum disulfide) from the chalcopyrite.

The filtered concentrate slurry is piped 17 miles (27 km) to the smelter, where it is dried, and then injected along with oxygen into a flash smelting furnace to oxidize the iron and sulfur. The oxidized iron is skimmed off, while the sulfur dioxide gas is captured and sent to an on-site acid plant for conversion to valuable sulfuric acid – a million tons of it each year.

Left behind is a molten copper sulfide called matte. The 70-percent-copper matte is water-quenched to form a sand-like solid, then injected, with oxygen, into a flash-converting furnace that produces molten, 98.6-percent-pure copper. This copper is then cast into 700-pound (320 kg) anode plates and shipped by rail to the refinery.

At the refinery, the anode plates are pressed flat and interleaved with stainless steel cathode blanks. Automated robotic vehicles place the prepared anodes in cells containing an acidic electrolyte. When the cells are electrified, the anodes slowly dissolve, freeing copper ions that are deposited on the cathode as 99.99-percent-pure copper.

Impurities and precious metals settle to the bottom of the electrolytic cells as anode slimes. A chlorination leaching process recovers the gold and silver, which is melted in induction furnaces.

Operations

[edit]
Utah Copper Co. Mill, Bingham Canyon, c. 1910

Kennecott's Bingham Canyon Mine is the largest artificially made excavation in the world, and is visible to the naked eye from an orbiting space shuttle.[32][33][34] Employing some 2,000 workers, 450,000 short tons (400,000 long tons; 410,000 t) of material are removed from the mine daily. Electric shovels can carry up to 56 cubic yards (43 m3) or 98 short tons (88 long tons; 89 t) of ore in a single scoop. Ore is loaded into a fleet of 64 large dump trucks which each carry 255 short tons (228 long tons; 231 t) of ore at a time; the trucks themselves cost about $3 million each. There is a five-mile (8 km) series of conveyors that take ore to the Copperton concentrator and flotation plant. The longest conveyor is 3 miles (4.8 km) long.[35]

As of 2010, Kennecott Utah Copper was the second largest copper producer in the US, and provided about 13-18% percent of the U.S.'s copper needs.[32][33] It is one of the top producing copper mines in the world, with production at more than 18.7 million short tons (16.7 million long tons; 17.0 Mt). Every year, Kennecott produces approximately 300 thousand short tons (272 kt or 268 thousand long tons) of copper, along with 400 thousand troy ounces (13.7 short tons 12.4 tonnes, or 12.2 long tons) of gold, 4 million troy ounces (124 tonnes, 137 short tons or 122 long tons) of silver, about 10 thousand short tons (9,100 tonnes or 8,900 long tons) of molybdenum,[32] and about a million short tons (910 kt or 890 thousand long tons) of sulfuric acid, a by-product of the smelting process.[34] Rio Tinto purchased Kennecott Utah Copper in 1989 and has invested about $2 billion in the modernization of KUC's operations.

Production

[edit]

Bingham Canyon has proven to be one of the world's most productive mines. As of 2004, its ore yielded more than 17 million tons of copper, 715 tons of gold, 5,900 tons of silver, and 425,000 tons of molybdenum. The value of the resources extracted from the Bingham Canyon Mine is greater than the Comstock Lode, Klondike, and California gold rush mining regions combined. Mines in Chile, Indonesia, Arizona, Peru, Democratic Republic of the Congo, and Zambia exceeded Bingham Canyon's annual production rate in 2023.[36] High molybdenum prices in 2005 made the molybdenum produced at Bingham Canyon in that year worth more than the copper.[37] The value of metals produced in 2006 at Bingham Canyon was US $1.8 billion.[38] As of 2023, this location produced approximately 150,000 short tons (140,000 t) of copper ore per year.[39]

Environmental impact

[edit]

In 1990, homes that had been built on former flood plains were discovered to be contaminated with high levels of lead and arsenic.[40] Activities to clean up 100 years of accumulated impacts began in the 1990s, under state Utah Department of Environmental Quality and federal oversight and are ongoing.[41]

The EPA lists "Kennecott South Zone/Bingham" on its superfund webpage, after it was proposed to be listed as a superfund site in 1994. The South Zone includes the Bingham Mining District in the Oquirrh Mountains, about 25 mi (40 km) southwest of Salt Lake City, the open pit, waste rock dumps, Copperton Mill and other historic sites. The company avoided regulatory issues of being on the NPL by voluntarily cleaning up the contaminated lands, the Superfund Alternative Approach. The listing proposal was withdrawn in 2008.[42][43]

1900–1909

[edit]

By 1904, there were three large copper smelters and one lead smelter in the Salt Lake valley. The sulfur dioxide gas emissions from the smokestacks caused significant crop damage to neighboring crops. During the 1904–1905 winter, the farmers gathered together and decided to file suit against the smelters in the United States District Court of Utah.[44] In 1906, Federal Court Judge Marshall ruled that the smelters could not smelt ores containing more than 10% sulfur,[45] effectively closing all of the aforementioned smelters.

Panorama of the mines of the Utah Copper Company and the Boston Consolidated Mining Company in 1907.

1910–1979

[edit]

Kennecott Copper Mines was formed in 1910 after a merger of Utah Copper and Kennecott copper mining companies.[46] By 1912, environmental protection organizations were complaining about high levels of asbestos being used in the organization. Kennecott Corporation was using asbestos for preventing fires since copper processing requires very high temperatures.[47] Copper has a very high boiling point of 4,644 °F (2,562 °C) and also requires use of other chemicals to separate it from other metals and impurities present in the ore. Asbestos has microscopic particles that dispersed into the atmosphere and contributed to illnesses among workers and individuals living near the mines. Asbestos is responsible for illnesses such as pleural fibrosis, skin warts and lung cancer.[47][48]

Kennecott Corporation was also cited as contributing to emissions of heavy metals such as arsenic and mercury.[49] By 1940, arsenic and mercury were also some of the concerns that were raised by environmental protection agencies against Kennecott Corporation.[50] Both mercury and arsenic are dangerous to health in even small quantities.[46][51]

1980–1989

[edit]
Chemical spills, 1980-1989
Year Amount Substance Released Cause
1989 100,000,000 US gallons (380,000,000 L) (est) Process water containing arsenic Unknown[52]

Investigations in the 1980s revealed contamination of groundwater caused by the release of hazardous materials from mining operations. The State of Utah proceeded with legal action against Kennecott and filed a damage claim against the mine in October 1986, for the loss and destruction of the natural resources, specifically the groundwater.[53][54]

There was also a threat due to the tailings dam. An engineering report in March 1988, gave information that the tailings dam overshadowing the town of Magna had threat of collapse due to an earthquake and that the billion-ton tailings pond would bury the homes nearby if the tailing pond's embankment failed. The mine responded by proposing various potential strategies including buying up entire subdivisions near the tailings pond, calculating the company's liability if the embankment failed, investing $500 million (or $1.3 billion today) to reinforce the embankment, and colluding with state regulators to keep the engineering report out of the public eye.[55]

1990–1999

[edit]
Chemical spills, 1990-1999
Year Amount Substance Released Cause
1999 100,000,000 US gallons (380,000,000 L) (est) Process water containing arsenic Unknown[52]
1998 unknown Acid rock drainage Clogged pipe
1997 unknown Copper sulphate Clogged outlet valve
1997 unknown Process water with pH 2.5-4.0 Ruptured pipeline
1993 45,000 US gallons (170,000 L) Wastewater Transfer line rupture
1991 30,000 US gallons (110,000 L) Industrial wastewater Line break

Starting in the beginning of 1990s, dust emissions from mining began polluting surrounding areas, caused by an area near the mine where PM10 levels (particulate matter 10 μm or smaller) began to rise from 28μg/ m³ to 50 μg/m³, posing severe health concerns for residents. The first report of PM10 rising was proposed by Schwartz and Dockery in 1992. Then, in 1997, Carter (a professor at Brigham Young University) put forward that the mine discharge of PM10 has caused lung damage to neighboring residents.

In 1995, due to scientific research showing that mining had caused the pollution of groundwater, Utah passed laws to make Kennecott companies pay $37 million (or $74 million today) to control water pollution.

As a result of mine discharge sewage containing large amounts of arsenic and selenium – selenium being particularly toxic to birds, fish and amphibians – about 30% of the fish population were killed in the early 1990s. In 1995 Kennecott, EPA and the State of Utah signed an agreement saying that Kennecott will continue to clean up the discharge sewage.[56]

2000–2014

[edit]

From 2000 through 2011 the Bingham Canyon copper mine has had numerous chemical spills.[57]

Chemical spills, 2000-2014
Year Amount Substance Released Cause
2011 145,424 US gallons (550,490 L) Copper tailings Equipment malfunction
2011 100,000–290,000 US gallons (380,000–1,100,000 L) Copper tailings Unknown
2011 160,000 US gallons (610,000 L) Tailings Unknown
2010 4,000–5,000 US gallons (15,000–19,000 L) Sulfuric acid Unknown
2007 1,240,000 US gallons (4,700,000 L) Process water containing arsenic Cold temperatures
2006 270,000 US gallons (1,000,000 L) Process water Pump failure
2006 660,000 US gallons (2,500,000 L) Process water containing arsenic Cracked pipe
2006 1,000,000 US gallons (3,800,000 L) Process water Failed indicator
2004 4,000,000 US gallons (15,000,000 L) Process water containing arsenic Cracked pipe
2004 2,000,000 US gallons (7,600,000 L) Process water containing arsenic Ruptured process water line
2004 202,000 US gallons (760,000 L) Process water Pipeline failure
2003 70 short tons (64 t) Copper concentrate Unknown
2003 10.27 short tons (9.32 t) Copper concentrate containing arsenic, copper, and lead Pipeline rupture
2003 240,681 short tons (218,342 t) Copper, arsenic, and lead Copper concentrate pipeline rupture
2002 5,800 US gallons (22,000 L) Process water from slag pot Plugged drain line
2001 19 pounds (8.6 kg) Arsenic, chromium, and lead Tailings pipeline failure
2000 110 short tons (100 t) Ore slurry Leak in ore line
2000 18,000 short tons (16,000 t) Sulfuric acid Flange failure

The EPA has estimated a 72-square-mile (190 km2) plume of contaminated groundwater has been created over the course of the mine due to multiple spills and runoff. Long-term effects of the underground water supply contamination may include an increased demand for surface water solutions as the population of the Salt Lake valley grows since the county will not be able to tap into the groundwater supply.[57]

In 2007, Kennecott Utah Copper LLC was considering expanding its land holdings to Rose Canyon Ranch in the southern Oquirrh mountains and Yellow Fork Canyon land in Salt Lake County. Kennecott claims rights to file a mining claim in accordance with the Stock-Raising Homestead Act of 1916.[58]

In 2008, the United States Department of Interior Fish and Wildlife Service sued Kennecott after the release of hazardous substances including selenium, copper, arsenic, zinc, lead, and cadmium. A federal biologist claimed that these chemicals have caused great damage to the ecosystems and resources that support the migrant bird populations, as well as other fish and wildlife habitats.[54]

In the northern zone near Magna, Utah, the extensive southern tailings pond has been collecting the tailings since the mine first started mining production. Kennecott Utah Copper LLC has requested permission for a Tailings Expansion Project (TEP) to expand the tailings pond impoundment in Magna, which is already at 1.8-billion-short-ton (1.6-billion-tonne) capacity,[55] and to expand on 721 acres (1.1 sq mi; 2.9 km2) of wetlands south of the Great Salt Lake. The company has come under scrutiny for the instability of the structure. The Salt Lake Tribune published a report in 2007 revealing that the company failed to disclose information on possible damages that could occur if the tailings pond collapsed in the event of a major earthquake.[59] From 2001 through 2009 there have been six earthquakes ranging from 2.3 to 3.4 in magnitude with an average epicenter only three miles (4.8 km) away from Magna.[60]

[edit]

Bingham Canyon Mine was featured in the 1973 made-for-TV movie Birds of Prey, with protagonist helicopter pilot Harry Walker (played by David Janssen) piloting his Hughes 500 into the crater to track down three bank robbers and their female hostage in an Aérospatiale SA 315B Lama, which was hiding behind heavy mining machinery. It was also featured prominently in The Fundamentals of Caring. In the PC video game American Truck Simulator, players can simulate hauling cargo at the mine.

See also

[edit]

References

[edit]
  1. ^ "National Register Information System". National Register of Historic Places. National Park Service. January 23, 2007.
  2. ^ a b "Bingham Canyon Open Pit Copper Mine". National Historic Landmark summary listing. National Park Service. Archived from the original on March 23, 2009. Retrieved July 12, 2008.
  3. ^ Mcfarland, Sheena. "Kennecott Copper Mine recovering faster than predicted". The Salt Lake Tribune. Retrieved April 28, 2015.
  4. ^ Lee, Jasen. "Kennecott laying off 200 workers". DeseretNews.com. Archived from the original on March 4, 2016. Retrieved March 6, 2016.
  5. ^ a b c "Rio Tinto's Kennecott wins clean air lawsuit in the US | MINING.com". MINING.com. June 9, 2016. Retrieved June 5, 2017.
  6. ^ Second landslide hits Rio's Bingham Canyon mine, 100 workers evacuated Archived September 27, 2013, at the Wayback Machine September 16, 2013
  7. ^ Crump, Scott (1994), "Bingham Canyon", Utah History Encyclopedia, University of Utah Press, ISBN 9780874804256, archived from the original on December 3, 2023, retrieved April 13, 2024
  8. ^ The Descendants of Erastus Bingham and Lucinda Gates, Ogden, Utah: Bingham Family Corp, 1970. pp. 3-4.
  9. ^ "Guide to Mining Records at the Salt Lake County Archives, 1863-2000" (PDF). Salt Lake County Archives. October 8, 2021. Retrieved January 18, 2023.
  10. ^ "By-Laws of West Mountain Quartz Mining District". Union Vedette. November 20, 1863. Retrieved January 18, 2023.
  11. ^ "Mining Abstracts, Book A". Salt Lake County Archives. September 17, 1863. p. 102. Retrieved January 18, 2023.
  12. ^ "Mining Abstracts, Book A". Salt Lake County Archives. January 26, 1864. p. 87. Retrieved January 18, 2023.
  13. ^ "Mining Abstracts, Book A". Salt Lake County Archives. July 4, 1864. p. 82. Retrieved January 18, 2023.
  14. ^ "Mining Abstracts, Book A". Salt Lake County Archives. January 6, 1865. p. 51. Retrieved January 18, 2023.
  15. ^ "Mining Abstracts, Book A". Salt Lake County Archives. January 6, 1865. p. 20. Retrieved January 18, 2023.
  16. ^ "Mining Abstracts, Book B". Salt Lake County Archives. November 30, 1870. p. 401. Retrieved January 18, 2023.
  17. ^ a b c d e f g Charles Caldwell Hawley (2014). A Kennecott Story. The University of Utah Press. pp. 37–40.
  18. ^ a b c d e f Edwin W. Tooker (1990). Gold in Bingham District, Utah in USGS Bulletin 1857 Gold in Copper Porphyry Copper Systems. United States Government Printing Office. p. E2.
  19. ^ Tasa, Frederick K. Lutgens, Edward J. Tarbuck; illustrated by Dennis (2012). Essentials of geology (11th ed.). Boston: Prentice Hall. p. 57. ISBN 978-0321714725.{{cite book}}: CS1 maint: multiple names: authors list (link)
  20. ^ "Sizing up the Landslide at Bingham Canyon Mine". Earth Observatory. NASA. June 13, 2013.
  21. ^ Dave (April 26, 2013). "An update on the Bingham Canyon mine landslide". Blogs.agu.org. Archived from the original on May 4, 2014. Retrieved May 4, 2014.
  22. ^ Dave (April 30, 2013). "Analysing the Bingham Canyon mine landslide part 1: the landslide source area". Blogs.agu.org. Archived from the original on May 4, 2014. Retrieved May 4, 2014.
  23. ^ Dave (May 17, 2013). "Was the Bingham Canyon landslide the largest historic non-volcanic landslip in North America?". Blogs.agu.org. Archived from the original on May 4, 2014. Retrieved May 4, 2014.
  24. ^ Romero, McKenzie; Adams, Andrew (April 11, 2013). "Massive landslide stops production at Bingham Canyon Mine". Deseret News. Archived from the original on April 12, 2013.
  25. ^ "Bingham slide could cut output by 110,000 ST". Mining Engineering. April 17, 2013. Archived from the original on October 3, 2013.
  26. ^ Romero, McKenzie (September 11, 2013). "Movement at Bingham Canyon Mine stops operation, evacuates 100 employees". Deseret News.
  27. ^ "The 31 May 2021 landslide at the Bingham Canyon mine". June 4, 2021.
  28. ^ Bell and Laurance J. Donnelly., Fred G. (2006). Mining and its Impact on the Environment. CRC Press.
  29. ^ "Kennecott Utah Copper's South End Removed from the National Priorities List" (PDF). www.kennecott.com. Kennecott. Archived from the original (PDF) on June 3, 2016. Retrieved June 23, 2014.
  30. ^ "Website Omar Alminagorta List". Retrieved March 6, 2017.
  31. ^ Bingham Mining: crushing and conveying the ore. Mining World Company. January 1, 1911.
  32. ^ a b c "Kennecott Utah Copper's Bingham Canyon Mine". Utah.com. Archived from the original on July 15, 2010. Retrieved July 11, 2010.
  33. ^ a b "Bingham Canyon". Global InfoMine. Archived from the original on March 22, 2007. Retrieved July 11, 2010.
  34. ^ a b Voynick, Steve. "Bingham Canyon Copper: Finding Chalcopyrite at "The Richest Hole on Earth"". Archived from the original on June 30, 2010. Retrieved July 11, 2010.
  35. ^ "National Energy Foundation's Out of The Rock" (PDF). Rio Tinto. p. 22. Archived from the original (PDF (2.1MB)) on November 24, 2010. Retrieved May 6, 2010.
  36. ^ "Global copper mines based on capacity 2023".
  37. ^ Bon, R.L.; Krahulec, K.A. (May 2006). Utah, Mining Engineering. p. 117.
  38. ^ Bon, R.L.; Krahulec, K.A. (May 2007). Utah, Mining Engineering. p. 120.
  39. ^ White, Edward; Hook, Leslie (August 15, 2023). "Miner Rio Tinto to test 'new frontiers' as copper age dawns". Financial Times. Archived from the original on August 11, 2023. Retrieved August 15, 2023.
  40. ^ "Kennecott South Zone / Bingham". EPA. Archived from the original on May 8, 2014. Retrieved May 8, 2014.
  41. ^ Butler, Kaitlin (April 11, 2014). "When the copper is gone, our children will get the pit". The Salt Lake Tribune. Retrieved May 8, 2014.
  42. ^ "EPA withdraws proposal to list Kennecott South Zone as Superfund site". Region 8 superfund. EPA. September 3, 2008. Archived from the original on September 22, 2017. Retrieved May 8, 2014.
  43. ^ EPA Superfund Program: Kennecott South Zone, Copperton, UT EPA, April 26, 2016
  44. ^ Arrington and Gary B. Hansen, Leonard J. (1963). "The richest hole on earth: a history of the Bingham copper mine" (PDF). Utah State Univ Pr. 11 (1).
  45. ^ "United States Investor". Volume 17, Part 2. No. 27–52.
  46. ^ a b Richards, Deanna J. (1997). The Industrial Green Game:: Implications for Environmental Design and Management. National Academies Press.
  47. ^ a b Miller and Scott Spoolman, George (2011). Living in the environment: principles, connections, and solutions. Cengage Learning.
  48. ^ "Miglietta v. Kennecott Copper Corporation". Appellate Division of Supreme Court of the State of New York. 25 A.D.2d 57, 266 N.Y.S.2d 936. 1966. Retrieved June 10, 2014.
  49. ^ Frosch & Gallopoulos, N, Robert (1992). "Towards an industrial ecology." The treatment and handling of wastes. Chapman & Hall. pp. 269–292.
  50. ^ Eppinger, Robert (2000). "Environmental Geochemical studies of selected Mineral Deposits". U.S. Geological Survey Professional Paper. doi:10.3133/pp1619.
  51. ^ "Kennecott Copper Mine". he Mesothelioma Cancer Alliance at Mesothelioma.com. Retrieved June 23, 2014.
  52. ^ a b "EPA Superfund Record of Decision" (PDF). EPA.gov. EPA. Retrieved June 23, 2014.
  53. ^ "Kennecott Utah Copper Company: Natural Resource Damage Claim and Settlement". Southern Utah University; Michael O. Leavitt Center for Politics and Public Service. Southern Utah University. Retrieved June 23, 2014.
  54. ^ a b "Problems with Bingham Canyon Mine" (PDF). Earthworksaction.org. EARTHWORKS. Archived from the original (PDF) on September 26, 2014. Retrieved June 23, 2014.
  55. ^ a b Fahys, Judy (March 24, 2008). "Special Report: How Kennecott concealed warnings of a possible disaster from the people of Magna". Salt Lake Tribune. Salt Lake Tribune. Archived from the original on March 3, 2016. Retrieved June 23, 2014.
  56. ^ Archer, Victor E. (1990). "Air pollution and fatal lung disease in three Utah counties" (PDF). Archives of Environmental Health. 45 (6): 325–334. doi:10.1080/00039896.1990.10118751. PMID 2270951.
  57. ^ a b "THE TRACK RECORD OF WATER QUALITY IMPACTS RESULTING FROM PIPELINE SPILLS, TAILINGS FAILURES AND WATER COLLECTION AND TREATMENT FAILURES" (PDF). www.patagoniaalliance.org/. EARTHWORKS. Retrieved June 23, 2014.
  58. ^ Dethman, Leigh (September 19, 2008). "Kennecott eyes land in canyon". Deseret News. Archived from the original on October 23, 2015. Retrieved June 23, 2014.
  59. ^ Fahys, Judy (March 24, 2008). "Special Report: How Kennecott concealed warnings of a possible disaster from the people of Magna". Salt Lake Tribune. Archived from the original on August 15, 2023. Retrieved August 15, 2023.
  60. ^ "Scoping Summary Report: Kennecott Utah Copper LLC Tailings Expansion Project" (PDF). United States Department of the Army Corps of Engineers. August 2011. Retrieved June 23, 2014.

Further reading

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  • (1994) "Copper Mining" article in the Utah History Encyclopedia. The article was written by Philip F. Notarianni and the Encyclopedia was published by the University of Utah Press. ISBN 9780874804256. Archived from the original on November 3, 2022 and retrieved on April 12, 2024.
  • (September 15, 2014) Charles Caldwell Hawley. A Kennecott Story: Three Mines, Four Men, and One Hundred Years, 1887–1997. University of Utah Press, ISBN 1607813696, 336 pages
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