Mountaintop mining and valley fill (MTM/VF) coal extraction, which is heavily practiced in the Central Appalachian region of the eastern United States, represents a dramatic landscape-scale disturbance. The process includes removing as much as 300m of rock, soil, and vegetation from ridge tops to access deep coal seams; the overburden material is then placed in adjacent valleys, burying headwater streams. Post-mining topography, vegetation, soils, and runoff pathways can be severely altered during the mining and reclamation process, greatly altering the landscape’s hydrology and the biochemistry of the watershed. This paper will attempt to synthesize research related to MTM/VF coal extraction as to convey an understanding of the effects of …show more content…
MTM/VF has become an increasingly polarized issue following several devastating floods in southern West Virginia, which have been linked by environmentalists to the potential for MTM to increase flooding in communities surrounding mining operations.
While MTM/VF is broadly categorized as surface mining and synonymous with traditional strip and contour mining, MTM is distinct in terms of its scale and management of overburden material. While surface mining for coal in Appalachia has been ongoing since the mid-20th century, it was until the 1980s primarily on the scale of areas smaller than 400 hectares. MTM in West Virgina, southwestern Virgina, eastern Kentucky, and Tennessee, by contrast, disturbs areas on the scale of thousands of hectares. While techniques for valley fill construction vary across the region and are often site-specific, the general definition involves the placement of overburden – which is the displaced minespoil created in the detonation of as much as 300m of ridge top – in adjacent valleys, burying headwaters streams and springs. In the Appalachian region it is estimated that nearly 4000 km of headwater streams have been buried under valley fills. The Surface Mining Control and Reclamation Act (SMCRA) was passed in 1977 as an attempt to regulate the
The Rocky Mountains contain many resources, like oil, logs, and coal, that people utilize in their daily lives. With such a high demand for these resources, people are going to the Rocky Mountains to extract these valuable goods. Resource extraction, such as logging, oil exploration, and mining, however, is extremely harmful to the Rockies’ ecosystem. The Rocky Mountains are experiencing slope erosion- where the top layer of soil falls off usually into areas of water- and according to Armand Eardley, from Encyclopedia Britannica, “Logging and oil exploration have been responsible for accelerated slope erosion, both from operations themselves and from the access roads built to reach them. Erosion has stripped away the often thin soil cover and caused serious silting of streams.” Erosion is harmful because it leads to this serious silting of streams. According to the National Geographic, “Silt is a solid, dust-like
Fossil Fuels are extremely harmful to the environment, especially in the ways the fuel is obtained, such as mining or hydraulic fracturing. Coal, a commonly used fossil fuel, can be obtained by strip mining, mountaintop mining, or underground mining (“Coal Explained”). Strip mining has disastrous effects on the environment because of the destructive nature of the process, which removes all soil, rock, trees, and plants above coal deposits. The runoff from this pollutes streams and rivers nearby, which can harm aquatic life and disfigure the body of water,
Appalachia, a vast, beautiful panoply of lush green mountains. At least, most of the thin line of peaks that make up the Appalachian Mountains used to be that way. Currently, the continued spread of a method of coal extraction known as mountaintop removal mining has plagued areas of the eastern United States, mainly including the state of West Virginia. Throughout its increasing stages of implementation, mountaintop removal mining has caused numerous hampering effects, including causing serious harm to nearby residents, and polluting a once-pure environment. Because of this, mountaintop removal mining needs to be limited in order to preserve the natural state of the Appalachian Mountains.
The process to mine the coal is quite complex. First, surveyors are called on site to document the layout of the land so that in can be restored to
Once these mines were abandoned water slowly began to fill these mines. The water came in contact with all of the leftover minerals, including sulfide, and chemicals began to dissolve into the water. This process of dissolving chemicals into the water essentially turned the water into acid (1). Once the mines finally filled, water began to pour out of the mines into the surrounding area, mostly into a body of water now known as “Tar Creek” (1). This creek then spread the contaminated water throughout the community and into numerous water sources.
Clean coal technology usually addresses atmospheric problems resulting from burning coal. Historically, the primary focus was on sulfur dioxide and particulates, since it is the most important gas in the causation of acid rain. More recent focus has been on carbon dioxide (due to its impact on global warming) as well as other pollutants. Concerns exist regarding the economic viability of these technologies and the timeframe of delivery, potentially high hidden economic costs in terms of social and environmental damage, and the costs and viability of disposing of removed carbon and other toxic matter. More, the byproducts of coal power production range from fly ash sludge ponds full of mercury, arsenic, and sulfur in unlined ponds that can leak into the water supply.
Coal ash is a byproduct of burning coal in power plants and is composed mainly of aluminum and silicon oxides. This ash is commonly stored away in dump sites, only to leach out solutions of concentrated toxic heavy metals. Such issues are detrimental to the health of water systems, posing both a human and environmental health risk. However, there are solutions to this problem. Coal ash possesses unique chemical properties that allow for the remediation of other environmental concerns, such as the treatment of soil polluted with heavy metals, the removal of nutrients from wastewater, and the remediation of acid mine drainage in streams.
Burns, Shirley Stewart. Bringing Down the Mountains: The Impact of Mountaintop Removal Surface Coal Mining on Southern West Virginia Communities, 1970-2004. Morgantown: West Virginia University Press, 2007. Print.
The Copper Basin of southeastern Tennessee is an area that is climatically unique with a rich history rooted in copper mining. It is thought that man is responsible for the total destruction of the environment over this large area, but it is mostly contributed to the exclusive location. The Copper Basin was susceptible to negative environmental effects due to its topographical, geological, climatic, edaphic, and meteorological location. However, the copper mining had a transformative effect on the surrounding lands that of which are still recovering.
Are you for coal or against coal? Maybe better yet, are you for the preservation of the mountains and nature or are you against it? These questions held such a deep meaning and understanding that on the surface seemed immaterial to large corporations such as the Coal Mining Industry or political leaders within the State of West Virginia. Combating Mountaintop Removal by Bryan McNeil gives us the views of what it looks like from a grassroots environmental activist within the West Virginia coal country. In the book you see how the social and moral arguments are framed from different agents such as the Ant-MTRM (Mountain top removal) organization, the Coal Miners and Union works, to the Coal Mining Companies, and finally the State through political
Deforestation’s accompaniment is erosion. Since much of strip mined land lacks proper restoration, weather causes further loss of soil and vital nutrients needed for native vegetation to grow. “Mountain Top Mining and Valley Fills Report” published by the EPA cites KA Harper and others educated and conducting studies in the fields of biology, environmental studies, and renewable sources. According to Harper, the change in mineral content of land affected by surface mining prohibits growth of indigenous plant life and allows foreign plant life to invade, changing the areas ecosystem (Harper).
Located in the western United States, the Powder River Basin is currently the United States largest producer of coal, and the coal that is produced here is some of the cleanest coal that is used in coal burning power plants. By producing such large quantities of low sulfur, clean burning coal, the Powder River Basin is of great interest, and we will examine the conditions and factors that helped to form some of the largest and cleanest coal seams in the world, along with coal production and other coal bed resources.
They get to murder innocent creatures. For their own benefit as well which is just saddening. Mountaintop mining is horrible because it destroys ecosystems and damages biodiversity over an extreme scale.
Surface mining is the coal mining process that accounts for around 60% of the United States’ coal. It tends to be very efficient, with a single worker recovering up to 30 to 40 tons of coal in a day. To begin surface mining coal, a drill must
Acid mine drainage is most common with hardrock mines where metal ore is bound together with sulfur. The increased acidity created from acid mine drainage has a series of negative effects, depending on the severity of change in the pH level. The acid mine drainage creates inhospitable environments to aquatic life in river systems and former mine sites, with the exception of "extremophile" bacteria (Coil, D., McKittrick, E., and Higman, B., 2010). Acid mine drainage can severely degrade the quality of the water, especially if it's a essential water supply.