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Revision as of 19:50, 10 March 2024 edit Opolito (talk \| contribs) Extended confirmed users 4,500 edits →Extraction: Rewrite, reimplify the convoluted explanation and make it clear that this is just one method of locating an ore body ← Previous edit		Latest revision as of 23:51, 12 August 2025 edit undo CeruleanBancroft (talk \| contribs) 10 edits Reduced proportion of lead given to environmental and health concerns, moving most of the content down into main article. Mentioned in Talk.
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Line 4: [[File:Ende Gelände 2017 CHB 23 (cropped).jpg\|thumb\|The giant [[bucket-wheel excavator]]s in the German Rhineland coal mines are among the world's biggest land vehicles.]] '''Open-pit mining''', also known as '''open-cast''' or '''open-cut mining''' and in larger contexts '''mega-mining''',<ref>{{Cite web\|last=Serafini\|first=Paula\|title=The Argentinian fight against 'mega mining'\|url=http://theconversation.com/the-argentinian-fight-against-mega-mining-95672\|access-date=2021-04-22\|website=The Conversation\|date=4 May 2018 }}</ref> is a [[surface mining]] technique ofthat ~~extracting~~extracts [[rock (geology)\|rock]] or [[minerals]] from the earth ~~from an open-air pit, sometimes known as a [[Borrow pit\|borrow]]~~. ~~This form of [[mining]] differs from extractive methods that require tunnelling into the earth, such as [[long wall mining]].~~ Open-pit mines are used when deposits of commercially useful ore or rocks are found near ~~the surface. It is applied to ore or rocks found at~~ the surface ~~because~~where the [[overburden]] is relatively thin ~~or the material of interest is structurally unsuitable for tunnelling (as would be the case for cinder, sand, and gravel)~~. In contrast, ~~minerals~~deeper ~~that~~mineral ~~have been found underground but are difficult to retrieve due to hard rock,~~deposits can be reached using ~~a form of~~ underground mining.<ref>{{Cite book\|url=https://www.nap.edu/read/10318/chapter/5\|title=Read "Evolutionary and Revolutionary Technologies for Mining" at NAP.edu\|year=2002\|doi=10.17226/10318\|isbn=978-0-309-07340-0}}</ref> [[File:Kittilä mine.jpg\|thumb\|Kittilä Gold Mine in [[Kittilä\|Kittilä, Finland]] is the largest primary gold producer in ~~the whole~~ Europe.<ref>{{cite web\|url=https://www.avkvalves.eu/en/cases/water-cases/agnico-eagle-finland\|title=Supplying more than 100 valves to the largest gold mine in Europe\|publisher=AVK International\|access-date=11 December 2023}}</ref><ref>{{cite web\|url=https://www.mining.com/agnico-has-kittila-operating-permit-restored-expects-30000-oz-of-additional-production/\|title=Agnico operating permit restored for Kittila mine in Finland\|first=Jackson\|last=Chen\|publisher=Mining.com\|date=27 October 2023\|access-date=11 December 2023}}</ref>]] ~~Materials typically extracted from open-pit mines include:~~ ~~{{div col\|small=no}}~~ [[Bitumen]] [[Clay]] [[Coal]] [[Copper]] [[Coquina]] [[Chromite]] [[Diamonds]] [[Gravel]] and [[Rock (geology)\|stone]] [[Granite]] [[Gritstone]] [[Gypsum]] [[Limestone]] [[Marble]] [[Metal]] [[ores]], such as [[copper]], [[iron]], [[gold]], [[silver]] and [[molybdenum]] [[Phosphate]] [[Uranium]] ~~{{div col end}}~~ This form of mining carries several risks to the health and safety of miners, and can have a significant negative impact on the environment. Open-pit mining is to be considered one of the most dangerous [[industrial sector\|sectors in the industrial world]]. It causes significant effects to miners' health, as well as damage to the ecological land and water. Open-pit mining causes changes to vegetation, soil, and bedrock, which ultimately contributes to changes in surface hydrology, groundwater levels, and flow paths.<ref>{{Cite journal\|last1=Chen\|first1=Jianping\|last2=Li\|first2=Ke\|last3=Chang\|first3=Kuo-Jen\|last4=Sofia\|first4=Giulia\|last5=Tarolli\|first5=Paolo\|date=2015-10-01\|title=Open-pit mining geomorphic feature characterisation\|journal=International Journal of Applied Earth Observation and Geoinformation\|volume=42\|pages=76–86\|doi=10.1016/j.jag.2015.05.001\|issn=0303-2434}}</ref> Additionally, open-pit produces harmful [[pollutant]]s depending on the type of mineral being mined, and the type of mining process being used.▼ ==Extraction== {{missing information\|section\| the truck and shovel mining method with specific extraction steps: drilling into benches vertically, ammonium nitrate explosive deposition, blasting, removal of material from pit walls for extracting ore, horizontal? mine expansion due to extraction of ore from walls or bottom of the pit, creation of new pits during a mine's life\|date=February 2025}} [[File:Sunrise Dam Gold Mine open pit 11.jpg\|thumb\|alt=Refer to caption.\|Note the angled and stepped sides of the [[Sunrise Dam Gold Mine]], Australia.]] [[File:Tagebau Garzweiler bei Otzerath Schaufelradbagger Januar2008.ogv\|thumb\|A bucket-wheel excavator extracting lignite from [[Garzweiler surface mine]] in Germany during 2008]] Miners typically drill a series of test holes to locate an underground ore body. From the extracted samples, they can determine the extent of the ore. This helps them determine the likely ___location of the veins or benches of ore and its commercial value.<ref name=eb>{{Cite web\|url=https://www.britannica.com/technology/mining\|title=Mining\|website=Encyclopedia Britannica\|access-date=2019-04-01}}</ref> Open-pit mines that produce [[building material]]s and [[dimension stone]] are commonly referred to as [[quarries]]. Open-pit mines are typically enlarged until either the [[mineral resource classification\|mineral resource]] is exhausted, or an increasing ratio of overburden to ore makes further mining uneconomic. When this occurs, the exhausted mines are sometimes converted to [[landfill]]s for disposal of solid wastes. However, some form of water control is usually required to keep the mine pit from becoming a lake, if the mine is situated in a climate of considerable [[precipitation (meteorology)\|precipitation]] or if any layers of the pit forming the mine border productive [[aquifer]]s. In Germany and adjacent countries several former open-pit mines have been deliberately converted into artificial lakes, forming areas such as the [[Lusatian Lake District]], the [[Central German Lake District]] or the [[Upper Palatinate Lake District]]. A particular concern in the formation of these lakes is [[acid mine drainage]].▼ Open-cast mines are dug on [[Bench (geology)\|benches]], which describe vertical levels of the hole. The interval of the benches depends on the deposit being mined, the mineral being mined, and the size of the machinery that is being used. Generally, large mine benches are 12 to 15 metres thick.<ref name="Mark A. Prelas 1997 pp. 496">Mark A. Prelas; Galina Popovici; Louis K. Bigelow (23 September 1997). Handbook of Industrial Diamonds and Diamond Films. CRC Press. pp. 496–. {{ISBN\|978-0-8247-9994-6}}.</ref> In contrast, many quarries do not use benches, as they are usually shallow.<ref name="Mark A. Prelas 1997 pp. 496"/> Mining can be conducted on more than one bench at a time, and access to different benches is done with a system of ramps. The width of each bench is determined by the size of the equipment being used, generally 20–40 metres wide.<ref name=eb /> Downward ramps are created to allow mining on a new level to begin. This new level will become progressively wider to form the new pit bottom.<ref name=eb /> Line 44 ⟶ 24: A haul road is usually situated at the side of the pit, forming a ramp up which [[truck]]s can drive, carrying [[ore]] and waste rock.<ref>G.E. Blight; A.B. Fourie; G.R. Wardle (1 January 1999). Geotechnics for Developing Africa: Proceedings of the 12th regional conference for Africa on soil mechanics and geotechnical engineering, Durban, South Africa, 25–27 October 1999. CRC Press. pp. 49–. {{ISBN\|978-90-5809-082-9}}.</ref> == After closure == ▲Open-pit mines are typically ~~enlarged~~worked until either the [[mineral resource classification\|mineral resource]] is exhausted, or an increasing ratio of overburden to ore makes further mining uneconomic.{{cn\|date=March ~~When~~2024}} ~~this~~After ~~occurs,~~open-pit ~~the~~mines ~~exhausted~~are ~~mines~~closed, they are sometimes converted to [[landfill]]s for disposal of solid ~~wastes~~waste. ~~However, some~~Some form of water control is usually required to keep the mine pit from becoming a lake~~, if the mine is situated in a climate of considerable [[precipitation (meteorology)\|precipitation]] or if any layers of the pit forming the mine border productive [[aquifer]]s~~. ~~In Germany and adjacent countries several~~Several former open-pit mines have been deliberately converted into artificial lakes, forming areas such as the [[Lusatian Lake District]], the [[Central German Lake District]] or the [[Upper Palatinate Lake District]]. A particular concern in the formation of these lakes is [[acid mine drainage]]. ==Impacts== ▲Open-pit mining is ~~to be~~ considered one of the most dangerous [[industrial sector\|sectors in the industrial world]].,{{cnl\|date=March It2024}} ~~causes~~and can cause significant ~~effects~~harm to miners' health,. asIt ~~well~~can asalso ~~damage~~have tosignificant ~~the~~negative ~~ecological~~environmental ~~land~~impact, ~~and~~depending ~~water.~~on ~~Open-pit~~the ~~mining~~type ~~causes~~of ~~changes~~mineral tobeing ~~vegetation, soil~~mined, and ~~bedrock,~~the ~~which~~type ~~ultimately~~of ~~contributes~~mining toprocess ~~changes~~being inused. ~~surface hydrology, groundwater levels, and flow paths.~~<ref>{{Cite journal\|last1=Chen\|first1=Jianping\|last2=Li\|first2=Ke\|last3=Chang\|first3=Kuo-Jen\|last4=Sofia\|first4=Giulia\|last5=Tarolli\|first5=Paolo\|date=2015-10-01\|title=Open-pit mining geomorphic feature characterisation\|journal=International Journal of Applied Earth Observation and Geoinformation\|volume=42\|pages=76–86\|doi=10.1016/j.jag.2015.05.001\|issn=0303-2434\|hdl=11577/3159353\|hdl-access=free}}</ref> ~~Additionally, open-pit produces harmful [[pollutant]]s depending on the type of mineral being mined, and the type of mining process being used.~~ ===Waste=== Open-pit mines create a significant amount of waste. Almost one million tons of ore and waste rock can move from the largest mines per day, and a couple thousand tons moved from small mines per day.<ref name=eb /> There are generally four main operations in a mine that contribute to this load: [[drilling]], blasting, loading, and [[hauling]]. Line 54 ⟶ 40: ===Pollutants=== Open-pit mining involves the process of disrupting the ground, which leads to the creation of air pollutants. The main source of air pollutants comes from the transportation of minerals, but there are various other factors including drilling, blasting and the loading and unloading of overburden.<ref name=impact>{{Cite journal \|last1=Huertas \|first1=José I. \|last2=Huertas \|first2=María E. \|last3=Izquierdo \|first3=Sebastián \|last4=González \|first4=Enrique D. \|title=Air quality impact assessment of multiple open pit coal mines in northern Colombia \|journal=Journal of Environmental Management \|volume=93 \|issue=1 \|pages=121–129 \|date=January 2012 \|pmid=22054578 \|doi=10.1016/j.jenvman.2011.08.007\|bibcode=2012JEnvM..93..121H }}</ref> These ~~type~~types of pollutants cause significant damage to public health and safety in addition to damaging the air quality. The inhalation of these pollutants can cause issues to the lungs and ultimately increase mortality.<ref name=impact /> Furthermore, the pollutants affect flora and fauna in the areas surrounding open-pit mines. Open-pit gold mining is one of the highest potential mining threats on the environment as it affects the air and water chemistry. The exposed dust may be toxic or radioactive, making it a health concern for the workers and the surrounding communities.<ref>{{Cite journal\|last1=Abdul-Wahab\|first1=Sabah\|last2=Marikar\|first2=Fouzul\|date=2012-01-01\|title=The environmental impact of gold mines: pollution by heavy metals\|journal=Open Engineering\|volume=2\|issue=2\|page=304\|doi=10.2478/s13531-011-0052-3\|bibcode=2012CEJE....2..304A\|s2cid=3916088\|issn=2391-5439\|doi-access=free}}</ref> ===Deforestation=== Open-pit [[Nickel mine\|nickel mining]] has led to environmental degradation and pollution in developing countries such as the [[List of mines in the Philippines\|Philippines]] and [[List of mines in Indonesia\|Indonesia]].<ref>{{cite news \|last1=Rick \|first1=Mills \|title=Indonesia and China killed the nickel market \|url=https://www.mining.com/web/indonesia-and-china-killed-the-nickel-market/ \|work=MINING.COM \|date=4 March 2024}}</ref><ref>{{cite news \|title=Land grabs and vanishing forests: Are 'clean' electric vehicles to blame? \|url=https://www.aljazeera.com/news/2024/3/14/land-grabs-and-cleared-forests-why-electric-vehicles-are-getting-a-bad-rep \|work=Al Jazeera \|date=14 March 2024}}</ref> In 2024, nickel mining and processing was one of the main causes of [[deforestation in Indonesia]].<ref>{{cite news \|title=Indonesia's massive metals build-out is felling the forest for batteries \|url=https://apnews.com/article/indonesia-nickel-deforestation-rainforest-mining-tesla-ev-184550cddf1df6aad8e883862ab366df \|work=AP News \|date=15 July 2024}}</ref><ref>{{cite news \|title=EU faces green dilemma in Indonesian nickel \|url=https://www.dw.com/en/eu-faces-green-dilemma-in-sourcing-nickel-from-indonesia/a-69681557 \|work=Deutsche Welle \|date=16 July 2024}}</ref> Open-pit [[Copper extraction\|cobalt mining]] has led to [[Deforestation in the Democratic Republic of the Congo\|deforestation]] and habitat destruction in the [[Mining industry of the Democratic Republic of the Congo\|Democratic Republic of Congo]].<ref>{{cite news \|title=How 'modern-day slavery' in the Congo powers the rechargeable battery economy \|url=https://www.npr.org/sections/goatsandsoda/2023/02/01/1152893248/red-cobalt-congo-drc-mining-siddharth-kara \|work=[[NPR]] \|date=1 February 2023}}</ref> ===Safety=== Open-pit mining is considered one of the most dangerous [[industrial sector\|sectors in the industrial world]].{{cnl\|date=March 2024}} and can cause significant effects to miners' health. ==Hydrology in mining== Line 81 ⟶ 74: ==Largest open-pit mines== Open-pit mining is a common method to extract minerals and samples from the Earth. Due to being cost-effective, this method is very popular and is used all over the world. Listed are the world's ten largest open-pit mines in 2015.<ref>{{Cite web\|author=Mining Global\|date=September 9, 2015\|title=Top 10 Largest Open Pit Mines in the World\|url=https://www.miningglobal.com/top-10/photos-top-10-largest-open-pit-mines-world}}</ref> {{div col\|small=yes}} 1. [[Bingham Canyon Mine]] - ~~Utah~~United States 2. [[Mir Mine]] - ~~Eastern Siberia,~~ Russia 3. [[Super Pit Gold Mine]] - Australia 4. [[Big Hole]] - South Africa 5. [[Diavik Diamond Mine]] - Canada 6. [[Hull–Rust–Mahoning Open Pit Iron Mine]] - ~~Minnesota~~United States 7. [[Grasberg Mine]] - Indonesia 8. [[Chuquicamata]] - Chile 9. [[Udachnaya Pipe]] - ~~Siberia,~~ Russia 10. [[Escondida]] - Chile {{Div col end}} Line 97 ⟶ 90: ==See also== * {{annotated link\|Artisanal mining}} * [[Rheinisches Braunkohlerevier]] * {{annotated link\|Closure problem#Applications\|Closure problem}} applied to open-pit mines for optimal extraction (not related to closing the mine) * {{annotated link\|Cut (earthmoving)}}