Water Stewardship Information Sources

ID	1729
Citation	Clark, D.E. (2013) Effect of Mining on Fine Sediment Geochemistry in the Horsefly River Catchment, British Columbia, Canada: A study on Black Creek Mine. MSc, University of Utrecht, The Netherlands - Supervisors: Marcel van der Perk, Phil Owens and Ellen Petticrew.
Organization	Utrecht University
URL	http://www.unbc.ca/sites/default/files/sections/quesnel-river-research-centre/clarke2013.pdf
Abstract/Description or Keywords	Canada has 7% of the world's renewable freshwater and is also one of the top world producers of metals like uranium, gold and zinc. Consequently, it is not surprising that monitoring the environmental impacts of the country's mining industry is in the interest of many. Mining exposes metals in sediments to weathering allowing the sediments to erode and redeposit elsewhere, most commonly in rivers, streams and lakes. As bed sediments from these surface waters retain, store or release heavy metals, those metals can be further transported, deposited and remobilised in either particulate or dissolved form. Previous studies have shown that most metals are in particulate form, specifically in the fine (<63 m) sediment fraction. Sediment geochemistry of gold mining was characterised and quantied to determine the spatial effects in the Horsefly catchment area of British Columbia, Canada, for the reason that the region has been extensively mined since the nineteenth century. Samples of channel bed sediments were collected from a creek near the abandoned Black Creek mine that drains into the Horsefly River. Sediment was also resuspended in the Horsefly River and collected with buckets and a continuous centrifuge. Both types of sediment were used to investigate spatial variability and trace any effects from the mine down along the creek and river. Heavy metal concentrations (arsenic, cadmium, copper, selenium and zinc) of the fine (<63 m) sediments for each sample were quantified using aqua regia digestion and BCR's (European Community Bureau of Reference) modified sequential extraction procedure and analysed by ICP-OES (inductively coupled plasma optical emission spectrometry). The percentage of organic matter and particle sizes were also determined. There were elevated levels of arsenic associated with the Black Creek mine in addition to local increases in arsenic concentrations along the Black Creek. Despite this, no recent mining effects were observed along the Horsefly River, which the Black Creek drains into, likely due to the mine's inactive status and small size.
Information Type	MSc Thesis
Regional Watershed	Quesnel River
Sub-watershed if known	Horsefly River
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