This is coupled with the waste disposal that takes place at the site. The mining activity and waste disposal action has resulted into tailings, waste in form of rocks and slag hence the widespread constituents of the ore covering a very big area. The widespread of such forms of harmful substances has made their accessibility to human and animal as well as ecological receptors quite easy. Contamination has hence been noted in the soils, sediment, surface and ground water in the proportions indicated in the excel sheets. This has the impact of posing a threat to public health as has been witnessed in some of the instances (Gusek & Waples, 2009).The reports also indicate findings from leaching as reported of metals from the waste rocks and tailings as they cause serious ecological impacts. Findings within pond 4 and 5, school house brook, Elly brook, vernal pool 1 and the five tributaries of Elly brook as indicated on the regional map are reported as these places are experience severe ecological impacts. The data indicates that human contact with water and the sediments of the ponds mentioned together with the school do not result into an exposure of any human health risk (Gusek & Waples, 2009). This risk exposure is though brought about by the human contact with the mine site and the soil contaminated with the mineral ores.Furthermore, it is found that the ground water and surrounding the waste rock piles, tailings, slag, and piles are vastly contaminated and hence unsuitable for consumption by humans and animals. On the other hand, the fact that the area is not extensively exploited for recreational activities does not present any threat to human health whatsoever.Elly mine site is an abandoned copper mine that is located in Vershire, Vermont in Orange county. The area has a land covering approximately 350 acres and it extends through the slopes of Dwight hill, through schoolhouse Brooke and to the south of the Vershire road, see map. The features included in the site would involve waste rocks, intact and collapsed adits and shafts, the foundations that have since remained of the buildings that hosted the mining operations. This site also hosts a 1500-foot long smoke flue and about 3000 feet of workings underground. The waste area extends around, the roast beds that were used previously, waste rock piles, a tailings pile, slag pile and smelter area all within the water shade. As shown, the Ely brook joins
Argue D.M., Kiah, R.G., Piatak, N.M., Seal, R.R., Hammarstrom, J.M., Hathaway, E., and Coles, J., (2008). Selected Water- and Sediment-Quality, Aquatic Biology, and Mine Waste Data from the Ely Copper Mine Superfund Site, Vershire, VT, 1998-2007. Data Series 378.
Gusek & Waples (2009). Passive Treatment of Metal-Bearing Runoff/Seepage 101: An Overview of the Technologies. Ottawa, Ont.: Lexington, KY.
Johnson and Hallberg (2002). Metal Mine Rock and Waste Characterization Tools: An Overview. Minnesota Department of Natural Resources, Division of Lands and Minerals, St. Paul, Minnesota. April.
Kierstead, M. A., (2001). History and Historical Resources of the Vermont Copper Belt. Society of Economic Geologist Guidebook Series, v. 35, p. 165-191.
Piatak, N.M., Hammarstrom, J.M., Seal II, R.R., Briggs, P.H., Meier, A.L., Muzik, T.L., Jackson, J.C., (USGS), (2004a). Geochemical Characterization of Mine Waste at the Ely Copper Mine Superfund Site, Orange County, Vermont. OFR 2004-1248.
Walton-Day, (2003). Passive treatment of water and sources. Selection for specific source data: Ontario: Canada.
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