Mountaintop removal mining
Mountaintop removal mining (MTR), also known as mountaintop mining (MTM), is a form of surface mining at the summit or summit ridge of a mountain. Coal seams are extracted from a mountain by removing the land, or overburden, above the seams. This process is considered to be safer compared to underground mining because the coal seams are accessed from above instead of underground. In the United States, this method of coal mining is conducted in the Appalachian Mountains in the eastern United States. Explosives are used to remove up to 400 vertical feet (120 m) of mountain to expose underlying coal seams. Excess rock and soil is dumped into nearby valleys, in what are called "holler fills" ("hollow fills") or "valley fills".[1][2][3]
The practice of MTM has been controversial. While there are economic benefits to this practice as well as important contributions to the availability of affordable energy, there are also concerns for environmental and human health costs. Recognizing mountaintop removal as a "humanitarian crisis," members of Congress with the support of Appalachian residents introduced the ACHE ACT in 2012 to enact a moratorium on the mining practice until a health report could be undertaken. Author and journalist Jeff Biggers, who covered the coal mining industry in his Reckoning in Appalachia reports for 25 years, called mountaintop removal "an immoral crime against nature and our citizenry, and it must be abolished, not regulated.”
Overview
[edit]The examples and perspective in this article deal primarily with the United States and do not represent a worldwide view of the subject. (February 2016) |
Mountaintop removal mining (MTR), also known as mountaintop mining (MTM), is a form of surface mining that involves the topographical alteration and/or removal of a summit, hill, or ridge to access buried coal seams.
The MTR process involves the removal of coal seams by first fully removing the overburden lying atop them, exposing the seams from above. This method differs from more traditional underground mining, where typically a narrow shaft is dug which allows miners to collect seams using various underground methods, while leaving the vast majority of the overburden undisturbed. The overburden from MTR is either placed back on the ridge, attempting to reflect the approximate original contour of the mountain,[4] and/or is moved into neighboring valleys.[5] When excess rock and soil containing mining byproducts are disposed into nearby valleys, the valleys are called "holler fills" or "valley fills".[1][3][6]
MTR in the United States is most often associated with the extraction of coal in the Appalachian Mountains. Google Earth Engine and Landsat imagery report the extent of newly mined land from 1985 to 2015 to be 2,900 km2. Considering surface mining sites prior to 1985, the cumulative total of mined land was calculated to be 5,900 km2. Further studies calculated that 12 m2 of mined land produced one metric ton of coal.[7] There are many MTR site locations ranging from Ohio to Virginia.[5] It occurs most commonly in West Virginia and Eastern Kentucky, the top two coal-producing states in Appalachia. At current rates, MTR in the U.S. will mine over 1.4 million acres (5,700 km2) by 2010,[8] an amount of land area that exceeds that of the state of Delaware. More than 500 mountains in the US have been destroyed by this process, resulting in the burial of 3,200 km (2,000 mi) of streams.[9]
Mountaintop removal has been practiced since the 1960s.[5] Increased demand for coal in the United States, sparked by the 1973 and 1979 oil crises, created incentives for a more economical form of coal mining than the traditional underground mining methods involving hundreds of workers, triggering the first widespread use of MTR. Its prevalence expanded further in the 1990s to retrieve relatively low-sulfur coal, a cleaner-burning form, which became desirable as a result of amendments to the U.S. Clean Air Act that tightened emission limits on high-sulfur coal processing.[10]
Process
[edit]Mining
[edit]Land is deforested prior to mining operations and the resultant lumber is either sold[10] or burned.[11] According to the Surface Mining Control and Reclamation Act of 1977 (SMCRA), the topsoil is supposed to be removed and set aside for later reclamation.[10] However, coal companies are often granted waivers and instead reclaim the mountain with "topsoil substitute". The waivers are granted if adequate amounts of topsoil are not naturally present on the rocky ridge top. Once the area is cleared, miners use explosives to blast away the overburden, the rock and subsoil, to expose coal seams beneath. The overburden is then moved by various mechanical means to areas of the ridge previously mined. These areas are the most economical area of storage as they are located close to the active pit of exposed coal. If the ridge topography is too steep to adequately handle the amount of spoil produced then additional storage is used in a nearby valley or hollow, creating what is known as a valley fill or hollow fill.[12] Any streams in a valley are buried by the overburden.[5]
A front-end loader or excavator then removes the coal, where it is transported to a processing plant. Once coal removal is completed, the mining operators back stack overburden from the next area to be mined into the now empty pit. After backstacking and grading of overburden has been completed, topsoil (or a topsoil substitute) is layered over the overburden layer. Next, grass seed is spread in a mixture of seed, fertilizer, and mulch made from recycled newspaper. Depending on the surface land owner's wishes the land will then be further reclaimed by adding trees if the pre-approved post-mining land use is forest land or wildlife habitat. If the land owner has requested other post-mining land uses the land can be reclaimed to be used as pasture land, economic development or other uses specified in SMCRA.[13]
Because coal usually exists in multiple geologically stratified seams, miners can often repeat the blasting process to mine over a dozen seams on a single mountain, increasing the mine depth each time. This can result in a vertical descent of hundreds of extra feet into the earth.[10]
Reclamation
[edit]Surface Mining Control and Reclamation Act
[edit]Established in 1977, the Surface Mining Control and Reclamation Act set up a program "for the regulation of surface mining activities and the reclamation of coal-mined lands".[14] Although U.S. mountaintop removal sites by law must be reclaimed after mining is complete, reclamation has traditionally focused on stabilizing rock formations and controlling for erosion, and not on the reforestation of the affected area.[15] However, the Surface Mining Control and Reclamation Act of 1977 list "the restoration of land and water resources" as a priority.[14]
The act also introduced the Abandoned Mine Land Fund (AML) that provides financial assistance to reclaim mines abandoned before the act was implemented. However, subjective environmental quality assessments and the many forgotten or missed locations has lead to disagreements on its effectiveness.[16] The fund also promotes job creation and economic revitalization through reclamation projects. Workers are needed to dismantle dangerous mine locations and reclaimed areas become available for municipal development. [17]
In 2022, OSMRE (Office of Surface Mining and Reclamation Enforcement), along with states and tribes issued over 5,400 permits for reclamation sites and active mines. Totaling 2.7 million acres, the mines and supporting equipment are regulated through inspections, enforcements permits, and reclamation bonding requirements. Additionally in 2022, it was found that 91.3% of permitted sites had no off-site effects after 570 partial and 289 complete inspections were performed. [18]
Appalachian Regional Reforestation Initiative (ARRI)
[edit]Historically, reforested mining sites have been characterized by seedling mortality, slow growth and poor production. Challenges associated with returning forests to their pre-mining state enabled grassland conversion to become standard.[19] The Appalachian Regional Reforestation Initiative (ARRI), established in 2004, works to promote the growth of hardwood trees on reclaimed mining sites. The ARRI operates utilizing the Forestry Reclamation Approach (FRA). In an effort to apply specific forest restoration practices, the FRA focuses on five main reclamation components: (1) establish suitable soil deeper than four feet to enhance root growth, (2) ensure non-compacted topsoil is present, (3) plan vegetative ground cover to support tree growth (4) include tree species that support local wildlife, as well as commercially desired products, (5) ensure that proper planting techniques are utilized.[20] This group also facilitates restoration efforts by educating and training members of the coal industry on their role in promoting and adopting effective management practices.[19]
Valley fill sites
[edit]Valley fill sites can be characterized by high sulfur concentrations from the weathering process of mountaintop sulfur-rich debris. Additionally, acid mine drainage (AMD) increases the concentration of sulfate, iron, aluminum and manganese in surrounding streams. Some of the most common treatments include plugging mine openings, altering the landscape to divert incoming water from at-risk ecosystems, alkaline inputs, limestone channels and treatment ponds or wetlands.[21]
Biotic stream remediation index
[edit]Current remediation methods may vary, but expensive treatment costs persist. The cost efficiency of treatments can be increased through the use of models that are able to accurately predict ecosystem responses to various inputs; thus enabling restoration groups to determine the overall most effective treatment combination. Biotic indicators present within stream ecosystems impacted by valley fill (VF) activity and AMD are valuable assets to increase the cost efficiency of restoration efforts. Mayflies (Order Ephemeroptera) are abundant in streams in the Appalachian Mountain region. They are highly sensitive to water quality, as their immature forms require unpolluted water. VF and AMD are the leading causes of water chemistry and habitat alterations in this region, the driving factors limiting mayfly populations. Thus, they can be utilized as an effective indicator species to quantify restoration progress through modeling efforts focused on mountaintop mining driven changes in adjacent ecosystems. Effectively developed biotic response models can improve and refine restoration efforts by establishing target indicator species population goals and by enabling the monitoring and assessment of water chemistry and habitat changes impacting particular species.[21]
Economics
[edit]As of 2023, approximately 16% of U.S. generated electricity was coal-based, down from around one third in 2015. [22] MTR accounted for less than 5% of U.S. coal production as of 2001.[8] In some regions, however, the percentage is higher, for example, MTR provided 30% of the coal mined in West Virginia in 2006.[23] As of 2023, only West Virginia was noted as producing coal through MTR. With a total of nearly 1,800 tons, that accounted for 0.5% of total coal production in the U.S. [24]
Historically in the U.S. the prevalent method of coal acquisition was underground mining which is very labor-intensive. In MTR, through the use of explosives and large machinery, more than two and a half times as much coal can be extracted per worker per hour than in traditional underground mines,[25] thus greatly reducing the need for workers. In Kentucky, for example, the number of workers has declined over 60% from 1979 to 2006 (from 47,190 to 17,959 workers).[26] The industry overall lost approximately 10,000 jobs from 1990 to 1997, as MTR and other more mechanized underground mining methods became more widely used.[27] The coal industry asserts that surface mining techniques, such as mountaintop removal, are safer for miners than sending miners underground.[28]
Proponents argue that in certain geologic areas, MTR and similar forms of surface mining allow the only access to thin seams of coal that traditional underground mining would not be able to mine. MTR is sometimes the most cost-effective method of extracting coal.[29]
Several studies of the impact of restrictions to mountaintop removal were authored in 2000 through 2005. Studies by Mark L. Burton, Michael J. Hicks and Cal Kent identified significant state-level tax losses attributable to lower levels of mining (notably the studies did not examine potential environmental costs, which the authors acknowledge may outweigh commercial benefits).[30] Mountaintop removal sites are normally restored after the mining operation is complete, but "reclaimed soils characteristically have higher bulk density, lower organic content, low water-infiltration rates, and low nutrient content".[31]
Reclamation projects designed in conjunction with community needs can aid local economic development. Previously mined land can be reclaimed as sustainable agricultural land and solar farms. These efforts can help to diversify and stimulate the local economy by providing jobs and other economic opportunities.[32]
Legislation in the United States
[edit]This section needs to be updated.(June 2017) |
In the United States, MTR is allowed by section 515(c)(1) of the Surface Mining Control and Reclamation Act of 1977 (SMCRA). Although most coal mining sites must be reclaimed to the land's pre-mining contour and use, regulatory agencies can issue waivers to allow MTR.[33] In such cases, SMCRA dictates that reclamation must create "a level plateau or a gently rolling contour with no highwalls remaining".[34]
In 2012, Appalachian residents led a movement to enact the ACHE ACT, The Appalachian Communities Health Emergency Act, which called on Congress to establish a moratorium until proper health studies could be undertaken.
Rulings in Chronological Order
[edit]The Abandoned Mine Land Fund (AML) introduced in the SMCRA act of 1977. This act provides financial assistance to reclaim mines abandoned before the act was implemented. [35]
The OSMRE (Office of Surface Mining and Reclamation Enforcement), founded in 1977, allows states to create their own regulatory plans in accordance with the SMCRA. When approved by OSMRE, the states get to issue and enforce mining permits. [35]
The George W. Bush administration appealed one of these rulings in 2001 because the Act had not explicitly defined "fill material" that could legally be placed in a waterway. The U.S. Environmental Protection Agency (EPA) and the Army Corps of Engineers changed a rule to include mining debris in the definition of fill material, and the ruling was overturned.[36][37]
A 2002 ruling by a West Virginia judge was made against dumping waste material in streams in Appalachia. The judge declared a loophole in the Bush administrations mining regulations an "obvious perversity" of the Clean Water Act. Due to this ruling, mining companies found to be dumping waste into waterways would no longer be eligible to receive permits from the Army Corps of Engineers. [38]
In 2007, a U.S. District Court judge ruled that using settling ponds to remove mining waste from streams violates the Clean Water Act. He also declared that the Army Corps of Engineers has no authority to issue permits allowing discharge of pollutants into such in-stream settling ponds, which are often built just below valley fills.[39]
Permits must be obtained to deposit valley fill into streams. On four occasions, federal courts have ruled that the US Army Corps of Engineers violated the Clean Water Act by issuing such permits.[36][40] Massey Energy Company appealed a 2007 ruling, but was allowed to continue mining while the appeal was pending, because "most of the substantial harm has already occurred," according to the judge.[36]
On December 2, 2008, the Bush Administration made a rule change to remove the Stream Buffer Zone protection provision from SMCRA allowing coal companies to place mining waste rock and dirt directly into headwater waterways.[41]
On January 15, 2008, the environmental advocacy group Center for Biological Diversity petitioned the United States Fish and Wildlife Service (FWS) to end a policy that waives detailed federal Endangered Species Act reviews for new mining permits. Under current policy, as long as a given MTR mining operation complies with federal surface mining law, the agency presumes conclusively, despite the complexities of intra- and inter-species relationships, that the instance of MTR in question is not damaging to endangered species or their habitat. Since 1996, this policy has exempted many strip mines from being subject to permit-specific reviews of impact on individual endangered species.[42] Because of the 1996 Biological Opinion by FWS making case-by-case formal reviews unnecessary, the Interior's Office of Surface Mining and state regulators require mining companies to hire a government-approved contractor to conduct their own surveys for any potential endangered species. The surveys require approval from state and federal biologists, who provide informal guidance on how to minimize mines' potential effects to species. While the agencies have the option to ask for formal endangered species consultations during that process, they do so very rarely.[43]
On May 25, 2008, North Carolina State Representative Pricey Harrison introduced a bill to ban the use of mountaintop removal coal from coal-fired power plants within North Carolina. This proposed legislation would have been the only legislation of its kind in the United States; however, the bill was defeated.[44]
A Memorandum of Understanding (MOU) and Interagency Action Plan (IAP) were signed by officials of EPA, the Corps, and the Department of the Interior on June 11, 2009. The MOU and IAP outlined different administrative actions that would help decrease "the harmful environmental impacts of mountaintop mining". The plan also includes near and long-term actions that highlight "specific steps, improved coordination, and greater transparency of decisions".[45]
The top metallurgical coal supplier in the U.S., Alpha Natural Resources, Inc., was found guilty of exceeding permits 6,289 times in 2014. Through a settlement with the EPA, the company was issued a civil penalty of $27,500,000 for its violations. Additionally, Alpha and other subsidiaries committed to spending $200,000,000 to create and upgrade wastewater treatment systems to reduce pollution discharge from mines in several Appalachian states.[46]
The Clean Water Rule, a 2015 regulation published by EPA and the Army Corps of Engineers, "...more precisely defines waters protected under the Clean Water Act". The Energy Information Administration (EIA) stated that the Office of Surface Mining Reclamation and Enforcement (OSMRE), EPA and the Army are collaborating to prepare an environmental impact statement, "analyzing environmental impacts of coal surface mining in the Appalachian region".[47]
Different organizations have tried to revise a stream buffer rule placed in 1977. The rule states that certain conditions must be met, or the mining operation must take place "within 100 feet of a stream".[48] The Obama Administration, in July 2015, wrote up a draft "Stream Protection Rule".[48] This draft adds "more protections to downstream waters", but it will also debilitate the current buffer requirements.[48]
Through a 2016 settlement between the EPA, DOJ, and several surface mining companies, new upgrade requirements were put in place. These upgrades must comprehensively reduce the amount of polluted wastewater that occurs from their Appalachian sites. [49]
In February 2017, President Donald Trump repealed the valley-fill protections installed by the Obama Administration. This ruling removed restrictions on dumping mining waste into streams and waterways. [50]
On Tuesday, April 9, 2019, the House Subcommittee on Energy and Mineral Resources held a legislative hearing, "Health and Environmental Impacts of Mountaintop Removal Mining".[51] This hearing involved the H.R. 2050 (Rep. Yarmuth) bill.[51] This bill stated that "until health studies are conducted by the Department of Health and Human Services", there will be a suspension on permitting for mountaintop removal coal mining.[51]
The Biden-Harris Administration approved $725 million towards Abandoned Mine Land Fund (AML) reclamation work. This funding was approved for distribution to 22 states and the Navajo Nation in June 2024. [52]
Bad Practice
[edit]Despite extensive regulation, coal companies have great influence in the mining industry. The SMCRA was created by the U.S. Congress in reaction to concerns about states relaxing regulation to increase competitiveness. Additionally, the SMCRA has issues with dynamic issue resolution, which in turn keeps outdated science in practice.[53]
The Clean Air Act inadvertently caused an increase in MTR. The 1990 amendments to the act encouraged seeking low-sulfur coal, which is abundant in Appalachia and accessible through MTR mining.[54] A 2011 study found that between 2002 and 2008, poor mining communities received fewer inspections for MTR mines than affluent ones. The authors proposed that the lack of regular inspections lead companies in those areas to operate in violation of regulations.[55]
Environmental impacts
[edit]MTR negatively impacts the environment. Practices of explosion and digging release many pollutants to the surrounding environment and community and alternation of the ecosystem. Associated air pollutants such as particulate matter, nitrogen oxides, sulfur dioxide not only raise health concerns, they also have effects on all ecosystems. Air pollution contributes to issues such as water and soil acidification, chemicals bioaccumulation in the food web and eutrophication.[56] Operations of valley fills buried more than 2,000 km of headwater and streams in the Appalachians. MTR reduces the freshwater resource that supports biodiversity. In addition, the operation provides opportunities for contamination leaching. Ca2+, Mg2+ and SO42− alter water chemistry by increasing pH, salinity and electrical conductivity. Increasing phosphorus and nitrogen can cause nutrient pollution. Selenium is toxic and can bioaccumulate.[57][58] Land disturbance from forestry cutting, soil and bedrock displacement/removal and use of heavy machinery can decrease soil infiltration rate, terrestrial habitat and carbon sequestration, increase in runoff and sediment weathering. As the consequence, hydrology, geochemistry and the ecosystem's health can be permanently impacted.[59][60]
2010 report
[edit]A January 2010 report in the journal Science reviews current peer-reviewed studies and water quality data and explores the consequences of mountaintop mining. It concludes that mountaintop mining has serious environmental impacts that mitigation practices cannot successfully address.[60] For example, the extensive tracts of deciduous forests destroyed by mountaintop mining support several endangered species and some of the highest biodiversity in North America. There is a particular problem with burial of headwater streams by valley fills which causes permanent loss of ecosystems that play critical roles in ecological processes.
In addition, increases in metal ions, pH, electrical conductivity, total dissolved solids due to elevated concentrations of sulfate are closely linked to the extent of mining in West Virginia watersheds.[60] Declines in stream biodiversity have been linked to the level of mining disturbance in West Virginia watersheds.[61]
Impact statement
[edit]A 2005 environmental impact statement prepared by EPA stated that streams near some valley fills from mountaintop removal contain higher levels of minerals in the water and decreased aquatic biodiversity.[6] Mine-affected streams also have high selenium concentrations, which can bioaccumulate and produce toxic effects (e.g., reproductive failure, physical deformity, mortality), and these effects have been documented in reservoirs below streams.[62][63] Because of higher pH balances in mine-affected streams, metals such as selenium and iron hydroxide are rendered insoluble, bringing attendant chemical changes to the stream.[64]
The statement also estimates that 724 miles (1,165 km) of Appalachian streams were buried by valley fills between 1985 and 2001.[6] On September 28, 2010, the EPA Science Advisory Board (SAB) released its first draft review of EPA's research into the water quality impacts of valley fills associated with mountaintop mining, agreeing with EPA's conclusion that valley fills are associated with increased levels of conductivity threatening aquatic life in surface waters.[65] A 2012 review published in Science of the Total Environment cited elevated concentrations of SO42-, HCO3−, Ca2+ and Mg2+ downstream from VF sites. These elevated concentrations are driving factors contributing to overall increases in water conductivity. Measured conductivity values ranging from 159 to 2720 μS/cm were recorded downstream. In comparison, the reference site that did not experience MTM measured conductivity values that ranged from 30 to 260μS/cm.[66]
Stream ecosystems
[edit]Headwater streams play a major role in the physicochemical quality of larger rivers and streams because of their close association to the surrounding landscape. They function to retain floodwaters, store nutrients and reduce sediment accumulation.[67] VF processes limit these functions, negatively impacting surrounding rivers and watersheds. Factors contributing to disturbed stream flow include vegetation removal, subsequent aquifer formation, compaction of fill surface and overall loss of headwater streams. The removal of vegetation for mining sites reduces evapotranspiration rates from the watershed and ultimately leads to an increase in average discharge rates. Changes in flow can also be attributed to the formation of aquifers from VF that can store water entering from groundwater sources, surface run-off and precipitation. Compaction of VF sites from MTM equipment can increase the surface run-off contribution. The overall loss of headwater streams from VF practices reduces surface- groundwater connections.[68]
Terrestrial impacts
[edit]While aquatic ecosystems and resources are vulnerable to pollution and geomorphological changes due to MTM and VF leaching, the terrestrial environment is also negatively impacted. The destruction of mountaintops results in forest loss and fragmentation. The overall loss of forest cover reduces suitable soil for revegetation efforts, carbon sequestration and biodiversity.[69]
The Appalachian region is characterized by its high biodiversity and steep topography. The varying elevations from mountains to valleys results in subsequent varying of forest ecosystem distributions. Forest loss and fragmentation exacerbate forest community distribution by altering the terrestrial environment.[70] Fragmentation results in an increase in edge forests and a decrease in interior forests. This is an important distinction because forest conditions vary from both classifications. Edge forests are warmer, drier, more susceptible to windier conditions and can be better suited for invasive species. As edge forests become more prevalent, biodiversity is threatened.[71] Forest communities as well as flora and fauna diversity depend on habitats provided by old growth forests. For example, a reduction in salamander populations on reclaimed sites can be attributed to an overall loss in mesic conditions.[70] These conditions are not present in emerging edge forests. Additionally, terrestrial changes have transformed natural forest carbon sinks into carbon sources.[69]
Environmental effects of reclamation
[edit]Reclaimed soil generally has high bulk density and lower in infiltration rate, nutrients content and organic matter; reclaimed sites are generally not successful to reestablish the pre-mining forests that once occupied due to poor soil quality. Mine sites are often converted to non-native grassland and shrub land habitat with primarily invasive vegetation. Fast-growing, non-native flora such as Lespedeza cuneata, planted to quickly provide vegetation on a site, compete with tree seedlings, and trees have difficulty establishing root systems in compacted backfill.[72] In addition, reintroduced elk (Cervus canadensis) on mountaintop removal sites in Kentucky are eating tree seedlings. The new ecosystem differs from the original forest habitat and can have lower diversity and productivity. A study conducted in 2017 found that herpetofaunal (reptiles and amphibians) habitat generalists are associated with all habitats, while habitat specialists are only associated with forest sites. Reclaimed grassland and shrub land are unsuitable for habitat specialists in the near future.[73] Consequently, biodiversity suffers in a region of the United States with numerous endemic species.[74]
Streams are reclaimed by regrading mine land, reconfiguring the mine drain, or building new stream channels in an effort to resemble the buried ones. Although the mitigation focuses on rebuilding the structure, it has not successfully restored the ecological function of the natural streams. Evidence suggests that such methods can decrease the biodiversity over time.[57] Studies comparing the characteristics of natural and constructed channels find that constructed channels are higher in specific conductance, temperature, ion concentration and lower in organic matter, leaves breakdown rate, invertebrate density and richness. Researchers have concluded that MTR has detrimental impacts on the aquatic system and the current assessments cannot adequately evaluate the quality of the constructed channels and failed to address the functional importance of the natural stream.[75]
Advocates
[edit]Advocates of MTR claim that once the areas are reclaimed as mandated by law, the area can provide flat land suitable for many uses in a region where flat land is at a premium. They also maintain that the new growth on reclaimed mountaintop mined areas is better suited to support populations of game animals.[76] While some of the land is able to be turned into grassland which game animals can live in, the amount of grassland is minimal. The land does not retake the form it had before the MTR. The ecological benefits after MTR are far below the level of the original land.
Health impacts
[edit]Published studies also show a high potential for human health impacts. These may result from contact with streams or exposure to airborne toxins and dust. Adult hospitalization for chronic pulmonary disorders and hypertension are elevated as a result of county-level coal production. Rates of mortality, lung cancer, as well as chronic heart, lung and kidney disease are also increased.[60] A 2011 study found that counties in and near mountaintop mining areas had higher rates of birth defects for five out of six types of birth defects, including circulatory/respiratory, musculoskeletal, central nervous system, gastrointestinal, and urogenital defects.
These defect rates were more pronounced in the most recent period studied, suggesting the health effects of mountaintop mining-related air and water contamination may be cumulative.[77] Another 2011 study found "the odds for reporting cancer were twice as high in the mountaintop mining environment compared to the non mining environment in ways not explained by age, sex, smoking, occupational exposure, or family cancer history".[78] A 2017 study found that people residing in Kentucky mining communities were 37% more likely to be diagnosed with clinical depression. Likewise, they were 41% more likely to have substance abuse issues when compared with residents of non-mining communities. [79]
Air quality
[edit]Research has shown that MTR increases human exposure to particulate matters, PAHs and crustal-derived elements. Other than occupational exposure, data and models suggested that deposits of such pollutants in lungs of the residents are significantly higher in mining areas.[80] PM samples collected from residential sites around the mining area had higher concentrations of silica, aluminum, inorganic lithogenic components and organic matter. A comparison study that surveyed residents from both the MTR mining community and non-mining community reported that people living near the MTR site experienced more symptoms of respiratory disease. Many studies conclude that exposure to MTR environments can lead to impaired respiratory health issues.[81] Laboratory experiments on mice also suggested that PM collected from the Appalachian MTR site can damage microvascular function that may contribute to cardiovascular disease found in the area.[82]
Drinking water quality
[edit]MTR has negative effects on surface and ground water quality. Surface water in MTM regions has higher concentrations of arsenic, selenium, lead, magnesium, calcium, aluminum, manganese, sulfates and hydrogen sulfide from overburden. Wastewater from the coal cleaning process contains surfactants, flocculants, coal fines, benzene and toluene, sulfur, silica, iron oxide, sodium, trace metals and other chemicals. Wastewater is often injected and stored underground and has the potential to contaminate other water sources. Ground water samples from domestic wells in mining areas documented contaminations of arsenic, lead, barium, beryllium, selenium, iron, manganese, aluminum and zinc levels surpassing drinking water standards. A statistical study showed that water treatment facilities in MTR counties had significantly higher violations under the Safe Drinking Water Act compared to non-MTR counties and non-mining counties.[83] Another study showed that ecological integrity of streams negatively correlates with cancer mortality rate in West Virginia; unhealthy streams correlates with higher cancer mortality rate. However, more studies are required on MTR impacts on public water and human health, some studies indicate the possibility of the two. Given the evidence that MTR impaired surface and ground water quality, safety of drinking water requires more efforts for protection and prevention.[84]
Environmental justice
[edit]Poverty and mortality disparities in Central Appalachia
[edit]The Appalachian region has a long history characterized by poverty. From 2013 to 2017, 6.5% to 41.0% of the population in Appalachia was impoverished. The average poverty rate for this region is 16.3%, above the national average of 14.6%.[85] Poverty rates are directly proportional to mountaintop mining areas. Poverty rates in MTM areas were found to be significantly higher than in non-mining areas. In 2007, adult poverty rates in MTM areas were 10.1% greater than adult poverty rates in non-mining areas in Appalachia. Mortality rates show a similar relationship.[86] Economic and health disparities are concentrated in MTM areas.[86]
Alliance for Appalachia
[edit]The Alliance for Appalachia was established in 2006, with the mission to promote a healthy Appalachia centered around community empowerment. Today, The Alliance for Appalachia includes fifteen different member organizations working directly with impacted communities throughout Appalachia and participating in regional and federal-level campaigns. This group has been instrumental in advocating for the RECLAIM Act.[87]
Appalachian women-led activism
[edit]Appalachian ironweed has become a symbol for the women of the Appalachian region. It represents their dedication to environmental activism and their tremendous strength to bear the burden of mountaintop mining while sustaining the grassroots fight for change. Activists like Maria Gunnoe and Maria Lambert dedicated their efforts to protect their families and their land from the adverse effects of MTM.[88] Gunnoe and Lambert both organized and led grassroots efforts to educate their communities on the human health risks of MTM, with an emphasis on safe drinking water. Gunnoe advocated for the federal Clean Water Protection Act and continues to promote renewable energy efforts for the region. Lambert established the Prenter Water Fund which provides clean water to communities whose water has become polluted due to local MTM.[89][90]
Reckoning in Appalachia dispatches by Jeff Biggers
[edit]With a specific focus on Appalachian and community-based movements, dispatches from the front lines on coal mining by author Jeff Biggers, collected from the Huffington Post, Al Jazeera America, The Guardian, Washington Post, Salon, The Nation, Public Radio International, Alternet, EcoWatch, CNN, MSNBC, Midwest Energy News, Yes Magazine, Common Dreams and other news sites, 2001-2021. In 2021, Biggers wrote on Salon.com: "We still blow up mountains to mine coal: Time to end the war on Appalachia."
Other sites
[edit]- Laciana Valley, Spain (1994–2014)
Art, entertainment, and media
[edit]News
[edit]- The Guardian, 2015: PNC Bank, along with other national finance institutions, reduced financing for MTR companies. This came in response to several pressures from environmentalists, banking customers, and campuses. [91]
- Kentucky Lantern, 2023: Kentuckians For The Commonwealth (KFTC), a grassroots lobbying organization, requested that the SMCRA research the effects of MTR on the severity of a July 2022 flood. The organization claimed that the floodwaters were 600% above normal levels. [92]
- The U.S. Energy Information Administration (EIA) reported in 2015 that MTR had reduced by 62% since 2008. The EIA noted the reduced demand for coal, an increase in coal alternatives, and environmental regulations contributed to this decline. [93]
Short Videos
[edit]- videographer Trip Jennings highlights communities at risk of MTR and emphasizes the importance of reviving the economy in order to create a healthy future. Communities at Risk (2015).[94]
- The Smithsonian Channel provides an aerial visual of the extent and scale of the process of MTR. The Land of Mountaintop Removal (2013).[95]
Documentaries
[edit]- Chet Pancake released a feature-length documentary on mountaintop removal, Black Diamonds: Mountaintop Removal & The Fight for Coalfield Justice (2006), a selection in the Documentary Fortnight at the Museum of Modern Art.[96] The film features Julia Bonds, who won the 2003 Goldman Environmental Prize.
- The documentary, Mountain Top Removal (2007), focuses on Mountain Justice Summer activists, coal field residents, and coal industry officials. On April 18, 2008, the film received the Reel Current award selected and was presented by Al Gore at the Nashville Film Festival.
- The feature documentary, Burning the Future: Coal in America (2008), was awarded the International Documentary Association's 2008 Pare Lorentz award for Best Documentary.[97]
- The Last Mountain (2011), directed by Bill Haney, details the effects on the land and people living near mountaintop removal and coal burning sites. Maria Gunnoe, the 2009 Goldman Environmental Prize winner, Robert F. Kennedy, Jr., and others present the devastation, confront the politicians and corporate interests, and offer wind power as one solution for Coal River Mountain, West Virginia.
- The autoethnographic documentary film Goodbye Gauley Mountain: An Ecosexual Love Story (2013), by Beth Stephens with Annie Sprinkle, raises awareness on the issue of mountain top removal in West Virginia by bringing together environmental activism, performance art, and queer activism against the issue. Stephens says: "My hope for this film, is that in addition to it being a compelling story, it will inspire and raise awareness in groups of people not normally associated with the environmental movement, and especially in LGBTQ communities. There are relatively few films about environmental issues that feature out queers."[98]
Non-fiction books
[edit]- In April 2005, a group of Kentucky writers traveled together to see the devastation from mountaintop removal mining, and Wind Publishing produced the resulting collection of poems, essays and photographs, co-edited by Kristin Johannesen, Bobbie Ann Mason, and Mary Ann Taylor-Hall in Missing Mountains: We went to the mountaintop, but it wasn't there. [citation needed]
- Dr. Shirley Stewart Burns, a West Virginia coalfield native, wrote the first academic work on mountaintop removal, titled Bringing Down The Mountains (2007),[99] which is loosely based on her 2005 Ph.D. dissertation of the same name.[10]
- Burns was also a co-editor, with Kentucky author Silas House and filmmaker Mari-Lynn Evans, of Coal Country (2009), a companion book for the nationally recognized feature-length film of the same name.[citation needed]
- House, Silas & Howard, Jason (2009). Something's Rising: Appalachians Fighting Mountaintop Removal.[100]
- Howard, Jason (Editor) (2009). We All Live Downstream: Writings about Mountaintop Removal.[101]
- Dr. Rebecca Scott, another native West Virginian, examined the sociological relationship of identity and natural resource extraction in central Appalachia in her book, Removing Mountains (2010).[citation needed]
- Hedges, Chris; Sacco, Joe (2012). Days of Destruction, Days of Revolt. Chapter 3. "Days of Devastation: Welch, West Virginia."[102]
- Cultural historian Jeff Biggers published The United States of Appalachia (2006), which examined the cultural and human costs of mountaintop removal.[citation needed]
Additionally, many personal interest stories of coalfield residents have been written, including:
- Lost Mountain: A Year in the Vanishing Wilderness—Radical Strip Mining and the Devastation of Appalachia (2006) by Erik Reese[103]
- Moving Mountains: How One Woman and Her Community Won Justice from Big Coal (2007) by Penny Loeb[104]
Fiction books
[edit]- Mountaintop removal is a major plot element of Jonathan Franzen's best-selling novel Freedom (2010), wherein a major character helps to secure land for surface mining with the promise that it will be restored and turned into a nature reserve.[105]
- Same Sun Here by Silas House and Neela Vaswani is a novel for middle grade readers that deals with issues of mountaintop removal and is set over the course of one school year 2008–2009.
- In John Grisham's novel Gray Mountain (2014), Samantha Kofer moves from a large Wall Street law firm to a small Appalachian town where she confronts the world of coal mining.
- Transgender author Carter Sickels refers to Mountaintop removal in his book The Evening Hour (2012). Sickels uses the mining method as a parallel for the opioid crisis occurring in Appalachia at the time.[106]
Music
[edit]- Caroline Herring's song "Black Mountain Lullaby" (on the album Camilla, 2012) is based on the story of Jeremy Davidson, age 3, who was killed by a mountaintop mining accident in 2004.[107] She was inspired to write the song after reading an editorial about mountaintop removal written by Silas House that appeared in the New York Times on 19 February 2011.
- Lissie's album Back to Forever contains a moving protest song on the topic called simply "Mountaintop Removal".
- Liam Wilson of The Dillinger Escape Plan wore a homemade shirt saying "stop mtm/vf" during the band's performance on Late Night with Conan O'Brien.
- Jean Ritchie's song "Black Waters" describes the horror of coal mining in the Appalachians.
- John Prine's song "Paradise" addresses the impacts of strip mining in Appalachia, referencing the impacts of the technique on the Green River area in Kentucky.
- In 2010, David Rovics wrote and performed a song titled "Hills of Tennessee", lamenting the tragedy of mountaintop removal mining near Nashville.
- In 2010, a concert series titled "Music Saves Mountains" raised funds and awareness for mountaintop removal, featuring artists Ben Sollee, Big Kenny, Buddy Miller, Dave Matthews, Emmylou Harris, Gloriana, Kathy Mattea, Naomi Judd, Patty Griffin, Patty Loveless, and Alison Krauss.
See also
[edit]- Battle of Blair Mountain
- Coal phase out
- Environmental impact of the coal industry
- Environmental justice and coal mining in Appalachia
- Julia Bonds
- Larry Gibson
- Maria Gunnoe
- Mount Fubilan
- Silas House
- Wendell Berry
References
[edit]- ^ a b "Appeals Court Upholds Mountaintop Removal Mining". www.ens-newswire.com. Retrieved 19 June 2017.
- ^ U.S. Environmental Protection Agency, "Mountaintop Mining/Valley Fills in Appalachia: Final Programmatic Environmental Impact Statement," issued 2005 June 25, available at http://www.epa.gov/region03/mtntop/index.htm (accessed 2006 August 20).
- ^ a b "Mountaintop Mining and Valley Fills in Appalachia (MTM/VF) - Programmatic Environmental Impact Statement". Retrieved 19 June 2017.
- ^ "Abstract". Landscape Ecology. 22: 179–187. doi:10.1007/s10980-006-9040-z. S2CID 14656322.
- ^ a b c d Copeland (2004) pp.39
- ^ a b c U.S. Environmental Protection Agency (2005-10-25). "Mountaintop Mining/Valley Fills in Appalachia: Final Programmatic Environmental Impact Statement". Retrieved August 20, 2006.
- ^ Pericak, Andrew A.; Thomas, Christian J.; Kroodsma, David A.; Wasson, Matthew F.; Ross, Matthew R. V.; Clinton, Nicholas E.; Campagna, David J.; Franklin, Yolandita; Bernhardt, Emily S.; Amos, John F. (2018-07-25). Añel, Juan A. (ed.). "Mapping the yearly extent of surface coal mining in Central Appalachia using Landsat and Google Earth Engine". PLOS ONE. 13 (7): e0197758. Bibcode:2018PLoSO..1397758P. doi:10.1371/journal.pone.0197758. ISSN 1932-6203. PMC 6059389. PMID 30044790.
- ^ a b "Frequently Asked Questions about Mountaintop Removal". Appalachian Voices. Retrieved April 29, 2007.
- ^ Hendryx, Michael; Zullig, Keith J.; Luo, Juhua (2020-01-08). "Impacts of Coal Use on Health". Annual Review of Public Health. 41: 397–415. doi:10.1146/annurev-publhealth-040119-094104. ISSN 0163-7525. PMID 31913772.
- ^ a b c d e Burns, Shirley Stewart (2005). "Bringing Down the Mountains: the Impact of Mountaintop Removal Surface Coal Mining on Southern West Virginia Communities, 1970–2004" (PDF). Ph.D. dissertation. West Virginia University. Archived from the original (PDF) on 2013-10-21. Retrieved 2013-03-25.
{{cite journal}}
: Cite journal requires|journal=
(help) - ^ Mitchell, John G. (March 2006). "When Mountains Move". National Geographic.
- ^ "When Mountains Move" by John G. Mitchell, March 2006, National Geographic (3 September 2008)
- ^ "Appalachian Regional Reforestation Initiative". Retrieved September 5, 2006.
- ^ a b Digest of Federal Resource Laws of Interest to the U.S. Fish and Wildlife Service Surface Mining Control and Reclamation Act | url=https://www.fws.gov/laws/lawsdigest/surfmin.html
- ^ "Appalachian Regional Reforestation Initiative Forest Reclamation Advisory" (PDF). Office of Surface Mining and Reclamation. Retrieved July 11, 2007.
- ^ Yonk, Ryan M., Josh T. Smith, and Arthur R. Wardle. 2019. "Exploring the Policy Implications of the Surface Mining Control and Reclamation Act" Resources 8, no. 1: 25. https://doi.org/10.3390/resources8010025
- ^ U.S. Department of the Interior. 2024. “Biden-Harris Administration Announces $725 Million from President Biden’s Investing in America Agenda to Clean up Legacy Pollution | U.S. Department of the Interior.” Www.doi.gov. June 5, 2024. https://www.doi.gov/pressreleases/biden-harris-administration-announces-725-million-president-bidens-investing-america.
- ^ Office of Surface Mining Reclamation and Enforcement. 2024. "Surface Mining Reclamation and Enforcement, BUDGET JUSTIFICATIONS and Performance Information Fiscal Year 2024". https://www.doi.gov/sites/doi.gov/files/fy2024-osmre-greenbook.pdf-508.pdf.
- ^ a b Adams, Mary Beth (2017). Adams, Mary Beth (ed.). "The Forestry Reclamation Approach: guide to successful reforestation of mined lands". doi:10.2737/NRS-GTR-169.
{{cite journal}}
: Cite journal requires|journal=
(help) - ^ "ARRI". arri.osmre.gov. Retrieved 2020-11-08.
- ^ a b Johnson, Kelly S.; Rankin, Ed; Bowman, Jen; Deeds, Jessica; Kruse, Natalie (2018-03-07). "Predicting mayfly recovery in acid mine-impaired streams using logistic regression models of in-stream habitat and water chemistry". Environmental Monitoring and Assessment. 190 (4): 196. doi:10.1007/s10661-018-6548-z. ISSN 1573-2959. PMID 29516268. S2CID 3888579.
- ^ EIA. 2024. “Annual Coal Report - Energy Information Administration.” Eia.gov. October 30, 2024. https://www.eia.gov/coal/annual/.
- ^ J. O. Britton and others, West Virginia, Mining Engineering, May 2007, p.125.
- ^ U.S. Energy Information Administration. 2024. “Annual Coal Report - Energy Information Administration.” Eia.gov. October 30, 2024. https://www.eia.gov/coal/annual/.
- ^ "Most Requested Statistics - U.S. Coal Industry" (PDF). National Mining Association. Retrieved December 1, 2007.
- ^ "Online KY Coal Facts". Kentucky Office of Energy Policy, Division of Fossil Fuels & Utility Services. Retrieved December 28, 2009.
- ^ McFerrin. "An Odd Partnership: UMW, Coal Association arm in arm". Archived from the original on 2000-08-18.
- ^ Banerjee, Neela (2006-10-28). "Taking On a Coal Mining Practice as a Matter of Faith". The New York Times. Retrieved 2006-10-28.
- ^ "Online KY Coal Facts". Kentucky Office of Energy Policy, Division of Fossil Fuels & Utility Services. Retrieved March 6, 2018.
- ^ Burton, Mark L. Michael Hicks and Cal Kent (2001) "The Fiscal Implications of Judicially Imposed Surface Mining Restrictions in West Virginia", West Virginia Legislature, Joint Committee of Government and Finance, June, 2001 Center for Business and Economic Research, Marshall University
- ^ Purtle, Joshua R. "Mingo Logan Coal Co. V. Epa." Harvard Environmental Law Review 37.1 (2013): 283-300. Environment Complete. Web. 18 Feb. 2014.
- ^ "Reclaiming the Future of Appalachia". The Observer. 2019-03-09. Retrieved 2020-12-15.
- ^ Office of Surface Mining Reclamation and Enforcement (June 2000). "Postmining Land Use" (PDF). pp. 12–16.
- ^ "Public Law 95-87 Surface Mining Control and Reclamation Act of 1977". 1977-08-03.
- ^ a b Yonk, R. M., Smith, J. T., & Wardle, A. R. (2019). "Exploring the policy implications of the surface mining control and reclamation act." Resources (Basel), 8(1), 25. https://doi.org/10.3390/resources8010025
- ^ a b c Laura Parker (2007-04-18). "Mining battle marked by peaks and valleys". USA Today.
- ^ Lazaroff, Cat (2003-02-03). "Appeals Court Upholds Mountaintop Removal Mining". Environment News Service.
- ^ Clines, F. X. (2002, May 19). Judge takes on the White House on mountaintop mining; a ruling against dumping waste in streams stuns the coal industry. New York Times, 18. https://0-link-gale-com.wizard.umd.umich.edu/apps/doc/A86030154/ITOF?u=lom_umichdearb&sid=summon&xid=7a2bca7e
- ^ "Judge rules against mountaintop mining". NBC News. Associated Press. 2007-06-14.
- ^ Ken Ward Jr. (2002-05-10). "Key players react cautiously to mountaintop removal decision". The Charleston Gazette. Archived from the original on 2015-01-15. Retrieved 2015-01-15.
- ^ Pear, Robert; Barringer, Felicity (2008-12-03). "Coal Mining Debris Rule Is Approved". The New York Times.
- ^ Ward Jr., Ken (2008-01-16). "Mining impact on species review sought". The Charleston Gazette. Archived from the original on 2012-03-09.
- ^ Reis, P. "Enviro groups tread lightly with Endangered Species Act in Appalachia". COAL.
- ^ "House Bill 2709-First Edition". North Carolina General Assembly. Retrieved 19 June 2017.
- ^ Copeland, Claudia (2015). Mountaintop Mining: Background on Current Controversies (PDF) (Report). U.S. Congressional Research Service. p. 13.
- ^ EPA. 2014. “Alpha Natural Resources Inc. Settlement | US EPA.” Www.epa.gov. March 4, 2014. https://www.epa.gov/enforcement/alpha-natural-resources-inc-settlement.
- ^ "Coal production using mountaintop removal mining decreases by 62% since 2008". Today in Energy. U.S. Energy Information Administration (EIA). Retrieved 2019-04-24.
- ^ a b c "Mountaintop Removal in Appalachia | Southern Environmental Law Center". www.southernenvironment.org. Retrieved 2019-04-24.
- ^ EPA. 2024. “What EPA Is Doing to Reduce the Adverse Impacts of Surface Coal Mining in Appalachia.” Www.epa.gov. November 7, 2024. https://www.epa.gov/sc-mining/what-epa-doing-reduce-adverse-impacts-surface-coal-mining-appalachia.
- ^ Plumer, Brad. 2017. “Why Trump Just Killed a Rule Restricting Coal Companies from Dumping Waste in Streams.” Vox. February 16, 2017. https://www.vox.com/2017/2/2/14488448/stream-protection-rule.
- ^ a b c "Health and Environmental Impacts of Mountaintop Removal Mining". U.S. House of Representatives, Committee on Natural Resources. Retrieved 2019-04-24.
- ^ "Biden-Harris Administration Announces $725 Million from President Biden's Investing in America Agenda to Clean Up Legacy Pollution | U.S. Department of the Interior". www.doi.gov. 2024-06-05. Retrieved 2024-11-16.
- ^ Yonk, Ryan M., Josh T. Smith, and Arthur R. Wardle. 2019. “Exploring the Policy Implications of the Surface Mining Control and Reclamation Act.” Resources 8 (1): 25. https://doi.org/10.3390/resources8010025.
- ^ Holzman, David C. 2011. “Mountaintop Removal Mining: Digging into Community Health Concerns.” Environmental Health Perspectives 119 (11): a476–83. https://doi.org/10.1289/ehp.119-a476.
- ^ Stretesky, Paul B. and Michael J. Lynch. 2011. "Coal Strip Mining, Mountaintop Removal, and the Distribution of Environmental Violations Across the United States, 2002–2008." Landscape Research 36 (2): 209-230.
- ^ Lovett, Gary M.; Tear, Timothy H.; Evers, David C.; Findlay, Stuart E.G.; Cosby, B. Jack; Dunscomb, Judy K.; Driscoll, Charles T.; Weathers, Kathleen C. (Apr 2009). "Effects of Air Pollution on Ecosystems and Biological Diversity in the Eastern United States". Annals of the New York Academy of Sciences. 1162 (1): 99–135. Bibcode:2009NYASA1162...99L. doi:10.1111/j.1749-6632.2009.04153.x. PMID 19432647. S2CID 9368346.
- ^ a b Bernhardt, Emily S.; Palmer, Margaret A. (Mar 2011). "The environmental costs of mountaintop mining valley fill operations for aquatic ecosystems of the Central Appalachians: Mountaintop mining impacts on aquatic ecosystems". Annals of the New York Academy of Sciences. 1223 (1): 39–57. doi:10.1111/j.1749-6632.2011.05986.x. PMID 21449964. S2CID 2106549.
- ^ Brooks, Alexander C.; Ross, Matthew R. V.; Nippgen, Fabian; McGlynn, Brian L.; Bernhardt, Emily S. (2019). "Excess Nitrate Export in Mountaintop Removal Coal Mining Watersheds". Journal of Geophysical Research: Biogeosciences. 124 (12): 3867–3880. Bibcode:2019JGRG..124.3867B. doi:10.1029/2019JG005174. ISSN 2169-8961.
- ^ Miller, Andrew; Zégre, Nicolas (2016-07-05). "Landscape-Scale Disturbance: Insights into the Complexity of Catchment Hydrology in the Mountaintop Removal Mining Region of the Eastern United States". Land. 5 (3): 22. doi:10.3390/land5030022. ISSN 2073-445X.
- ^ a b c d M.A. Palmer et al. Mountaintop Mining Consequences, Science, 8 January 2010, Vol. 327, p. 148.
- ^ Pond, P.J.; et al. (2008). "Downstream effects of mountaintop coal mining: comparing biological conditions using family- and genus-level macro invertebrate bio-assessment tools". Journal of the North American Benthological Society. 27 (3): 717–737. doi:10.1899/08-015.1. S2CID 16607599.
- ^ Wickham, James; et al. (2013). "The Overlooked Terrestrial Impacts Of Mountaintop Mining". BioScience. 63 (5): 335–348. doi:10.1525/bio.2013.63.5.7. S2CID 86107224.
- ^ Pumure, I.; et al. (2011). "The interstitial location of selenium and arsenic in rocks associated with coal mining using ultrasound extractions and principal component analysis (PCA)". Journal of Hazardous Materials. 198: 151–158. doi:10.1016/j.jhazmat.2011.10.032. PMID 22056124.
- ^ Griffith, Michael; et al. (2012). "The effects of mountaintop mines and valley fills on the physicochemical quality of stream ecosystems in the central Appalachians: A review". Science of the Total Environment. 417–418: 1–12. Bibcode:2012ScTEn.417....1G. doi:10.1016/j.scitotenv.2011.12.042. PMID 22264919.
- ^ Isa, Jalil. "Independent Science Advisory Board Draft Review Supports EPA Science on Mountaintop Mining Impacts". EPA.
- ^ Griffith, Michael B.; Norton, Susan B.; Alexander, Laurie C.; Pollard, Amina I.; LeDuc, Stephen D. (2012-02-15). "The effects of mountaintop mines and valley fills on the physicochemical quality of stream ecosystems in the central Appalachians: A review". Science of the Total Environment. 417–418: 1–12. Bibcode:2012ScTEn.417....1G. doi:10.1016/j.scitotenv.2011.12.042. ISSN 0048-9697. PMID 22264919.
- ^ "Headwater Streams". Painesville, OH: Lake County, Ohio. Retrieved 2020-11-08.
- ^ Griffith, Michael; et al. (2012). "The effects of mountaintop mines and valley fills on the physicochemical quality of stream ecosystems in the central Appalachians: A review". Science of the Total Environment. 417–418: 1–12. Bibcode:2012ScTEn.417....1G. doi:10.1016/j.scitotenv.2011.12.042. PMID 22264919.
- ^ a b Wickham, James; Wood, Petra Bohall; Nicholson, Matthew C.; Jenkins, William; Druckenbrod, Daniel; Suter, Glenn W.; Strager, Michael P.; Mazzarella, Christine; Galloway, Walter; Amos, John (May 2013). "The Overlooked Terrestrial Impacts of Mountaintop Mining". BioScience. 63 (5): 335–348. doi:10.1525/bio.2013.63.5.7. ISSN 1525-3244. S2CID 86107224.
- ^ a b Wood, Petra Bohall; Williams, Jennifer M. (2013). "Terrestrial salamander abundance on reclaimed mountaintop removal mines". Wildlife Society Bulletin. 37 (4): 815–823. doi:10.1002/wsb.319. ISSN 1938-5463.
- ^ Becker, Douglas A.; Wood, Petra B.; Strager, Michael P.; Mazzarella, Christine (2015-02-01). "Impacts of mountaintop mining on terrestrial ecosystem integrity: identifying landscape thresholds for avian species in the central Appalachians, United States". Landscape Ecology. 30 (2): 339–356. doi:10.1007/s10980-014-0134-8. ISSN 1572-9761. S2CID 11058270.
- ^ U.S. Environmental Protection Agency (2005-10-25). "Mountaintop Mining/Valley Fills in Appalachia: Final Programmatic Environmental Impact Statement". Retrieved August 20, 2006.
- ^ Williams, Jennifer M.; Brown, Donald J.; Wood, Petra B. (2017-12-01). "Responses of Terrestrial Herpetofauna to Persistent, Novel Ecosystems Resulting from Mountaintop Removal Mining". Journal of Fish and Wildlife Management. 8 (2): 387–400. doi:10.3996/102016-JFWM-079. ISSN 1944-687X.
- ^ "Biology: Plants, Animals, & Habitats - We live in a hot spot of biodiversity". Apalachicola Region Resources on the Web. Retrieved September 18, 2006.
- ^ Fritz, Ken M.; Fulton, Stephanie; Johnson, Brent R.; Barton, Chris D.; Jack, Jeff D.; Word, David A.; Burke, Roger A. (Jun 2010). "Structural and functional characteristics of natural and constructed channels draining a reclaimed mountaintop removal and valley fill coal mine". Journal of the North American Benthological Society. 29 (2): 673–689. doi:10.1899/09-060.1. ISSN 0887-3593. S2CID 86199068.
- ^ J.S. Gardner and P Sainato, Mountaintop mining and sustainable development in Appalachia, Mining Engineering, March 2007, p.48-55.
- ^ "Large numbers of birth defects seen near mountaintop mining operations". Retrieved 19 June 2017.
- ^ Hendryx, M.; Wolfe, L.; Luo, J.; Webb, B. (2011). "Self-Reported Cancer Rates in Two Rural Areas of West Virginia with and Without Mountaintop Coal Mining". Journal of Community Health. 37 (2): 320–327. doi:10.1007/s10900-011-9448-5. PMID 21786205. S2CID 27263143.
- ^ Canu, Will H., John Paul Jameson, Ellen H. Steele, and Michael Denslow. 2017. "Mountaintop Removal Coal Mining and Emergent Cases of Psychological Disorder in Kentucky." Community Mental Health Journal 53 (7): 802-810.
- ^ Boyles, Abee L.; Blain, Robyn B.; Rochester, Johanna R.; Avanasi, Raghavendhran; Goldhaber, Susan B.; McComb, Sofie; Holmgren, Stephanie D.; Masten, Scott A.; Thayer, Kristina A. (Oct 2017). "Systematic review of community health impacts of mountaintop removal mining". Environment International. 107: 163–172. doi:10.1016/j.envint.2017.07.002. PMC 5562233. PMID 28738262.
- ^ Hendryx, Michael; Luo, Juhua (2015-05-04). "An examination of the effects of mountaintop removal coal mining on respiratory symptoms and COPD using propensity scores". International Journal of Environmental Health Research. 25 (3): 265–276. doi:10.1080/09603123.2014.938027. ISSN 0960-3123. PMID 25056823. S2CID 35054228.
- ^ Knuckles, Travis L.; Stapleton, Phoebe A.; Minarchick, Valerie C.; Esch, Laura; McCawley, Michael; Hendryx, Michael; Nurkiewicz, Timothy R. (Feb 2013). "Air Pollution Particulate Matter Collected from an Appalachian Mountaintop Mining Site Induces Microvascular Dysfunction". Microcirculation. 20 (2): 158–169. doi:10.1111/micc.12014. PMC 4852712. PMID 22963349.
- ^ Hendryx, Michael; Fulk, Florence; McGinley, Andrea (Sep 2012). "Public Drinking Water Violations in Mountaintop Coal Mining Areas of West Virginia, USA". Water Quality, Exposure and Health. 4 (3): 169–175. doi:10.1007/s12403-012-0075-x. ISSN 1876-1658. S2CID 128921691.
- ^ Hitt, Nathaniel P.; Hendryx, Michael (Aug 2010). "Ecological Integrity of Streams Related to Human Cancer Mortality Rates". EcoHealth. 7 (1): 91–104. doi:10.1007/s10393-010-0297-y. ISSN 1612-9202. PMID 20361230. S2CID 22283182.
- ^ "Poverty Rates in Appalachia, 2013–2017". Appalachian Regional Commission. Retrieved 2020-11-08.
- ^ a b Hendryx, Michael (2012-03-21). "Poverty and Mortality Disparities in Central Appalachia: Mountaintop Mining and Environmental Justice". Journal of Health Disparities Research and Practice. 4 (3). ISSN 2166-5222.
- ^ "Environmental Justice Now Tour: Appalachia". The Alliance for Appalachia. Retrieved 2020-12-14.
- ^ Bell, Shannon Elizabeth (2013-10-30). Our Roots Run Deep as Ironweed: Appalachian Women and the Fight for Environmental Justice. University of Illinois Press. ISBN 978-0-252-09521-4.
- ^ "Coping With Contamination > Appalachian Voices". 2009-08-25. Retrieved 2020-11-08.
- ^ "Featured Hero: Maria Gunnoe". One Earth. Retrieved 2020-11-08.
- ^ Srinivas, Siri. 2015. “PNC Bank Reduces Financing for Coal Mining Projects Involving Mountaintop Removal.” The Guardian. The Guardian. March 3, 2015. https://www.theguardian.com/sustainable-business/2015/mar/03/pnc-bank-coal-financing-environment-mountaintop-removal-mining.
- ^ Niemeyer, Liam. 2023. “KFTC Seeks Investigation of Surface Mining’s Role in Deadly Kentucky Floods.” Kentucky Lantern. February 14, 2023. https://kentuckylantern.com/2023/02/13/kftc-seeks-investigation-of-surface-minings-role-in-deadly-kentucky-floods/.
- ^ EIA. 2015. “Coal Production Using Mountaintop Removal Mining Decreases by 62% since 2008.” Www.eia.gov. July 7, 2015. https://www.eia.gov/todayinenergy/detail.php?id=21952.
- ^ "Communities at Risk: End Mountaintop Removal Now - YouTube". www.youtube.com. Archived from the original on 2021-12-13. Retrieved 2020-12-14.
- ^ "The Land of Mountaintop Removal - YouTube". www.youtube.com. Archived from the original on 2021-12-13. Retrieved 2020-12-15.
- ^ "Black Diamonds: Mountaintop Removal & The Fight For Coalfield Justice". Bullfrog Films. Retrieved June 2, 2017.
- ^ "IDA's 2008 IDA Documentary Awards Competition Nominees Announced | International Documentary Association". Documentary.org. 2008-10-28. Retrieved 2010-09-27.
- ^ Stephens, Elizabeth. "Director's statement". Goodbye Gauley Mountain: An Ecosexual Lovestory. Retrieved 22 October 2013.
- ^ "New Book on Mountaintop Removal: Bringing Down the Mountains". West Virginia: Sierra Club. September 2007. Archived from the original on 2008-11-20.
- ^ House, Silas; Howard, Jason (2009). Something's Rising: Appalachians Fighting Mountaintop Removal. Lexington, KY: The University Press of Kentucky. ISBN 978-0-8131-2546-6.
- ^ Howard, Jason, ed. (2009). We All Live Downstream: Writings about Mountaintop Removal. Louisville, KY: Motes Books. ISBN 978-1-934894-07-1.
- ^ Hedges, Chris; Sacco, Joe (2012). "3. Days of Devastation: Welch, West Virginia". Days of Destruction, Days of Revolt. Nation Books. ISBN 978-1568586434.
- ^ Reese, Erik (2006). Lost Mountain: A Year in the Vanishing Wilderness—Radical Strip Mining and the Devastation of Appalachia. New York: Riverhead Books. ISBN 1594489084.
- ^ Loeb, Penny (2007). Moving Mountains: How One Woman and Her Community Won Justice from Big Coal. Lexington, KY: University Press of Kentucky. ISBN 9780813124414. JSTOR j.ctt130jn7c.
- ^ Ruth Franklin (23 September 2010). "Impact Man". The New Republic. Retrieved 27 September 2010.
- ^ Eckard, Paula Gallant. 2018. "Queerness, Opioids, and Mountaintop Removal: The Politics of Destruction in the Evening Hour." South Atlantic Review 83 (3): 24-43.
- ^ Herring, Caroline. "The Story Behind Black Mountain Lullaby". Retrieved 11 December 2015.
- ^ Parton, Chris. “Dave Matthews Joins Nashville Stars in Rallying Against Mountaintop Removal Mining: Music Saves Mountains Concert Calls Attention to Destruction in Appalachia.” CMT, CMT, 20 May 2010. [1]
Cited texts
[edit]- Copeland, C. (2004). "Mountaintop removal mining". In Humphries, M. (ed.). U.S. Coal: A Primer on the Major Issues. Nova Publishers. ISBN 1-59454-047-0.
Further reading
[edit]- 100 Arrested at White House Calling for End to Mountaintop Coal Removal. Democracy Now! video report.
- Burns, Shirley Stewart (September 30, 2009). "Mountaintop Removal in Central Appalachia". Southern Spaces.
- McQuaid, John (January 2009). "Mining the Mountains". Smithsonian. Vol. 39, no. 10. pp. 74–85. Archived from the original on 16 January 2009. Retrieved 25 April 2009.
- "Surface Coal Mining in Appalachia". United States EPA. 18 June 2022.
- Mountaintop Mining: Background on Current Controversies (PDF). Congressional Research Service.
- "Mountaintop removal mining is a crime against Appalachia". Al Jazeera America. April 7, 2015.
- "Toxic West Virginia". Vice. 2010. Archived from the original on 2014-10-24. Retrieved 2017-09-05.
- "Mapping mountaintop coal mining's yearly spread in Appalachia". Phys.org. July 25, 2018.