黄色直播

 

Andrea Mosher

2005_a_mosher
2001-The Michael J. Keen Award

B.Sc. (Honours) Thesis

(PDF - 22.8 Mb)


Since the first Nova Scotian gold rush in the early 1860s, gold mining and milling processes have generated tailings piles containing mercury, arsenic, cyanide, and other potentially toxic elements. Most of the gold deposits occur in the Cambro-Ordovician Meguma Group of southern Nova Scotia, and mining has been carried out at more than 60 formal gold districts for a total production of 47 t of gold. The Cochrane Hill gold deposit is located in Guysborough County, approximately 15 km north of Sherbrooke. The host rocks consist of amphibolite-facies quartzites and slates, and most of the gold is associated with quartz veins that intrude slates rich in arsenopyrite. Mining and milling of gold ore at Cochrane Hill took place from 1877 to 1928, and again from 1981 to 1988, resulting in two separate tailings piles. During the first period of operation, stamp milling and mercury amalgamation were used to extract gold from the ore, and the tailings were slurried into a local drainage. In the 1980s, ball milling and cyanidation were used to process the ore, and the tailings were deposited into an on-site impoundment. The main objectives of this study are to: (1) characterize the mineralogy and metal concentrations in the two tailings piles; (2) assess the relative reactivity of metals and metalloids in the amalgamation versus cyanidation tailings; and (3) examine the downstream impacts of drainage from the tailings piles. Forty five samples of tailings were collected from 16 different sites at Cochrane Hill in September 2003, and water samples were collected at 12 locations within and downstream of the tailings in November 2003. Efflorescent salts were also collected from the surface of the cyanidation tailings, and stream sediments were collected to determine the distance that tailings have been transported downsteam. X-ray diffraction, scanning electron microscopy and electron microprobe analyses have been completed on select tailings samples. The primary mineralogy of the tailings includes muscovite, biotite, staurolite, quartz, anorthite, and actinolite/tremolite. Secondary mineralogy includes ferric hydroxide, basaluminite, gypsum and turnbull's blue. Geochemical results show that the amalgamation tailings contain significantly higher Hg concentrations (21-63,000 ppb) than the cyanidation tailings (< 5-25 ppb). Both tailings piles also contain high concentrations of As (280-41,000 ppm), which occurs naturally in the ore. There is a strong correlation present in the amalgamation tailings between Hg, Au, and Ag indicating that there is amalgam present. In the cyanidation there are high concentrations of Zn and Ca that would have been lost during the cyanidation process. There are elevated concentrations of Al, Mn, Ni, Zn, Pb, and S found in the waters at the mine site. The tailings are having a direct effect on the chemistry of the waters close to the mine site but this effect is diminished downstream.

Keywords:
Pages: 105
Supervisor: Michael Parsons / Marcos Zentilli