The environmental impact of mining includes erosion, formation of sinkholes, loss of biodiversity, and contamination of soil, groundwater, surface water by chemicals from mining processes. In some cases, additional forest logging is done in the vicinity of mines to increase the available room for the storage of the created debris and soil.[1] Besides creating environmental damage, the contamination resulting from leakage of chemicals also affect the health of the local population.[2] Mining companies in some countries are required to follow environmental and rehabilitation codes, ensuring the area mined is returned to close to its original state. Some mining methods may have significant environmental and public health effects. Nuss and Eckelman (2014)[3] provide an overview of the life-cycle wide environmental impacts of metals production associated with 62 metals in year 2008.

Erosion of exposed hillsides, mine dumps, tailings dams and resultant siltation of drainages, creeks and rivers can significantly impact the surrounding areas, a prime example being the giant Ok Tedi Mine in Papua New Guinea. In areas of wilderness mining may cause destruction and disturbance of ecosystems and habitats, and in areas of farming it may disturb or destroy productive grazing and croplands. In urbanised environments mining may produce noise pollution, dust pollution and visual pollution.


Water pollutionEdit

File:Lagoa vermelha na Mina do Losal 05.jpg

Mining can have bad effects on surrounding surface and ground water if protective measures are not taken. The result can be unnaturally high concentrations of some chemicals, such as As, sulfuric acid, and Hg over a significant area of surface or subsurface.[4] Runoff of mere soil or rock debris -although non-toxic- also devastates the surrounding vegetation. The dumping of the runoff in surface waters or in forests is the worst option here. Submarine tailings disposal is regarded as a better option (if the soil is pumped to a great depth).[5] Mere land storage and refilling of the mine after it has been depleted is even better, if no forests need to be cleared for the storage of the debris. There is potential for massive contamination of the area surrounding mines due to the various chemicals used in the mining process as well as the potentially damaging compounds and metals removed from the ground with the ore. Large amounts of water produced from mine drainage, mine cooling, aqueous extraction and other mining processes increases the potential for these chemicals to contaminate ground and surface water. In well-regulated mines, hydrologists and geologists take careful measurements of water and soil to exclude any type of water contamination that could be caused by the mine's operations. The reducing or eliminating of environmental degradation is enforced in modern American mining by federal and state law, by restricting operators to meet standards for protecting surface and ground water from contamination. This is best done through the use of non-toxic extraction processes as bioleaching. If the project site becomes nonetheless polluted, mitigation techniques such as acid mine drainage (AMD) need to be performed.

The five principal technologies used to monitor and control water flow at mine sites are diversion systems, containment ponds, groundwater pumping systems, subsurface drainage systems, and subsurface barriers. In the case of AMD, contaminated water is generally pumped to a treatment facility that neutralizes the contaminants.[6]

A 2006 review of environmental impact statements found that "water quality predictions made after considering the effects of mitigations largely underestimated actual impacts to groundwater, seeps, and surface water".[7]

Acid rock drainageEdit

Main article: Acid mine drainage

Heavy metalsEdit

Dissolution and transport of metals and heavy metals by run-off and ground water is another example of environmental problems with mining, such as the Britannia Mine, a former copper mine near Vancouver, British Columbia. Tar Creek, an abandoned mining area in Picher, Oklahoma that is now an Environmental Protection Agency superfund site, also suffers from heavy metal contamination. Water in the mine containing dissolved heavy metals such as Pb and Cd leaked into local groundwater, contaminating it.[8] Long-term storage of tailings and dust can lead to additional problems, as they can be easily blown off site by wind, as occurred at Skouriotissa, an abandoned copper mine in Cyprus.

Effects of mining activity on biodiversityEdit

The implantation of a mine is a major habitat modification, and smaller perturbations occurs on an larger scale than exploitation site, mine-waste residuals contamination of the environment for example. Adverse effects can be observed long after the end of the mine activity.[9] Destruction or drastic modification of the original site and anthropogenic substances release can have majors impact on biodiversity in the area. Destruction of the habitat is the main component of biodiversity losses, but direct poisoning caused by mine extracted material, and indirect poisoning through food and water can also affects animals, vegetals and microorganisms. Habitat modification such as pH and temperature modification disturb communities in the area. Endemics species are especially sensitive, since they need really specific environmental conditions. Destruction or slight modification of their habitat put them at the risk of extinction. Habitats can be damaged as well by non-chemicals products, such as large rocks from the mines that are discarded in the surrounding landscape with no concern for impacts on natural habitat.[10]

Concentration of heavy metals are known to decrease with distance from the mine,[9] and effects on biodiveristy follow the same pattern. Impacts can vary a lot depending on mobility and bioavailability of the contaminant : less mobile molecules will stay inert in the environment while highly mobile molecules will easily move into another compartment or be taken up by organisms. For example, speciation of metals in sediments could modify their bioavailability, and thus their toxicity for aquatic organisms.[11]

Bioaccumulation plays an important role in polluted habitats : mining impacts on biodiversity should be, assuming that concentration levels are not high enough to directly kill exposed organisms, greater on the species on top of the food chain because of this phenomenon.

Adverse mining effects on biodiversity depends on a great extend on the nature of the contaminant, the level of concentration at which it can be found in the environment, and on the nature of the ecosystem itself. Some species are really resistant to anthropogenic disturbances, while some other will completely disappear from the contaminated zone. Time alone does not seem to allow the habitat to recover completely from the contamination.[12] Remediation takes time,[13] and in most of the cases will not enable the recovery of the diversity present before the mining activity.

Aquatic organismsEdit

Mining industry can impact aquatic biodiversity through different ways. Direct poisoning is the first one,[14][15] and risks are higher when contaminants are mobile in the sediment [14] or bioavailable in the water. Mine drainage can modify water pH,[16] and it is hard to differentiate direct impact on organisms from impacts caused by pH changes. Effects can nonetheless be observed and proved to be caused by pH modifications.[15] Contaminants can also affect aquatic organisms through physical effects:[15] streams with high concentrations of suspended sediment limit light, thus diminushing algae biomass.[17] Metal oxide deposition can limit biomass by coating algae or their substrate, thereby preventing colonization.[15]
File:Osisko lake.JPG

Factors that impact communities in acid mine drainage sites vary temporaly and seasonally : temperature, rainfall, pH, salinisation and metal quantity all displays variations on the long-term, and can heavily affect communities. Changes in pH or temperature can affect metal solubilisation, and thereby the bioavailable quantity that directly impact organisms. Morover, contamination persists over time : ninety years after a pyrite mine closure, water pH was still really low and microorganisms populations consisted mainly of acidophil bacteria.[18]

Algae communities are less diverse in acidic water containing high zinc concentration,[15] and mine drainage stress decrease their primary production. Diatoms community is greatly modified by any cheminal change.[19] pH phytoplankton assemblage,[20] and high metal concentration dimishises the abondance of planktonic species.[19] Some diatom species may however grow in high metal concentration sediments.[19] In sediments close to the surface, cysts suffer from corrosion and heavy coating.[19] In really polluted conditions, total algae biomass is really low, and the planktic diatom community missing.[19] In case of functional complementarity however, it is possible that phytoplankton and zooplankton mass remains stable.

Water insect and crustacea communities are modified around a mine,[21] resulting in a low trophic completeness, community being dominated by predators. However, biodiversity of macroinvertebrates can remain high, if sensistive species are replaced with tolerant ones.[22] When diversity is on the contrary reduced, there is sometimes no effect of stream contamination on abundance or biomass,[22] suggesting that tolerant species fulfilling the same function take the place of sensible species in polluted sites. pH diminution in addition of elevated metal concentration can also have adverse effects on macroinvertebrates behaviour, showing that direct toxicity is not the only issue. Fishes are also affected by pH,[23] temperature variations and chemical concentrations.

Terrestrials organismsEdit

Soils texture and water content can be greatly modified in disturbed sites,[13] leading to plants communities changes in the area. Most of the plants have a low concentration tolerance for metals in the soil, but sensitivity differs among species. Grass diversity and total cover is less affected by high contaminant concentration than forbs and shrubs.[13] Mines waste-material rejects or traces due to mining activity can be found in the vicinity of the mine, sometimes pretty far away from the source.[24] Established plants cannot move away from perturbations, and will eventually die if their habitat is contaminated by heavy metals or metalloids at concentration too elevated for their physiology. Some species are more resistant and will survive these levels, and some non-native species that can tolerate these concentrations in the soil, will migrate in the mine surrounding lands to occupy the ecological niche.

Plants can be affected through direct poisoning, for example arsenic soil content reduces bryophyte diversity.[14] Soil acidification through pH diminution by chemical contamination can also lead to a diminished species number.[14] Contaminants can modify or disturb microorganims, thus modifying nutrient availability, causing a loss of vegetation in the area.[14] Some tree roots avoid the deeper soil layer in order to avoid the contaminated zone, and thus miss ancrage and might be uprooted by the wind when their height and shoot weight increase.[24] In general, root exploration is reduced in contaminated areas compared to non-polluted ones.[13] Even in reclaimed habitats, plant species diversity is lower than in undisturbed areas.[13]

Cultivated crops might be a problem in mines neighbourhood. Most of our crops can grow on weakly contaminated sites, but yield is generally lower than it would have been in regular growing conditions. Plants also tend to accumulate heavy metals in their aerian organs, possibly leading to human intake through fruits and vegetables. Regular consumptions might lead to health problems caused by long-term metal exposure.[9] Cigarettes made from tobacco growing on contaminated sites might as well have adverse effects on human population, as tobacco tend to accumulate Cd and Zn in its leaves.

Animals :
File:Malartik mine - Osisko.JPG

Habitat destruction is one of the main issue of mining activity. Huge areas of natural habitat are destroyed during mine construction and exploitation, forcing animals to leave the site.

Animals can be poisoned directly by mine products and residuals. Bioaccumulation in the plants or the smaller organisms they eat can also lead to poisoning : horses, goats and sheep are exposed in certain areas to potentially toxic concentration of Cu and Pb in grass.[12] They are fewer number of ants species in soil containing high copper levels, in the vicinity of a copper mine.[10] If fewer ants are found, chances are great that other organisms leaving in the surrounding landscape are strongly affected as well by this high copper levels, since ants are a good environmental control : they live directly in the soil and are thus pretty sensible to environmental disruptions.

Microorganisms :
Because of their size, microorganisms are extremely sensitive to environmental modification, such as modified pH,[14] temperature changes or chemicals concentration. For example, the presence of As and Sb in soils led to a diminution in total soil bacteria.[14] Morover, as in water, a small change in the soil pH can provoke the remobilization of contaminants,[25] in addition of direct impact on pH-sensitive organisms.

Microorganisms have a wide variety of genes among their total population, so there is a greater chance of survival of the species due to the existence of resistance or tolerance genes in some colonies,[26] as long as modifications are not too extreme. Nevertheless, survival in these conditions will imply a big loss of gene diversity, resulting in reduced potential adaptations to subsequent changes. The presence of few developed soil in heavy metal contaminated areas could be a sign of reduced activity by soils microfauna and microflora, indicating a reduced number of individuals or reduced activity.[14] Twenty years after disturbance, even in rehabilitation area, microbial biomass is still greatly reduced compared to undisturbed habitat.[13] Arbuscular mycorrhiza fungi are especially sensitive to the presence of chemicals, and the soil is sometimes so disturbed that they are no longer able to associate with root plants. Some fungi possess however contaminant accumulation capacity, soil cleaning capacity by changing the biodisponibility of contaminants,[24] and can protect plants from damages caused by chemicals.[24] Their presence in contaminated sites could prevent loss of biodiversity due to mine-waste contamination,[24] or allow bioremediation, that is, the removal of undesired chemicals from contaminated soils. On the contrary, some microbes can deteriorate the environment: elevated SO4 in the water can also increase microbial production of hydrogen sulfide, a toxin for many aquatic plants and organisms.[24]

Effects of mine pollution on humansEdit

Humans are also effected by mining. There are many diseases that can come from the pollutants that are released into the air and water during the mining process.

Coal miningEdit

Main article: Environmental effects of coal


With open cast mining the overburden, which may be covered in forest, must be removed before the mining can commence. Although the deforestation due to mining may be small compared to the total amount it may lead to species extinction if there is a high level of local endemism.

Oil shaleEdit

Main article: Environmental impact of the oil shale industry

Mountaintop removal miningEdit

Main article: Mountaintop removal mining

Sand miningEdit

Main article: Sand mining

Sand mining and gravel mining creates large pits and fissures in the earth's surface. At times, mining can extend so deeply that it affects ground water, springs, underground wells, and the water table.


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Salt mining and salt dome collapsing in Assumption Parish, Louisiana caused the Bayou Corne sinkhole in 2012. As of August 2013, the sinkhole continues to expand.

Tailings and spoilEdit


To ensure completion of reclamation, or restoring mine land for future use, many governments and regulatory authorities around the world require that mining companies post a bond to be held in escrow until productivity of reclaimed land has been convincingly demonstrated, although if cleanup procedures are more expensive than the size of the bond, the bond may simply be abandoned. Since 1978 the mining industry has reclaimed more than 2 million acres (8,000 km²) of land in the United States alone. This reclaimed land has renewed vegetation and wildlife in previous mining lands and can even be used for farming and ranching.

Specific sitesEdit

Film and literatureEdit

External linksEdit

See alsoEdit


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