Gold mining impact on riverine heavy metal transport in a sparsely monitored region: the upper Lake Baikal Basin case.

Journal of Environmental Monitoring Pub Date : 2012-10-26 Epub Date: 2012-09-13 DOI:10.1039/c2em30643c
Josefin Thorslund, Jerker Jarsjö, Sergey R Chalov, Ekaterina V Belozerova
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引用次数: 92

Abstract

Mining and ore excavation can cause the acidification and heavy metal pollution of downstream water systems. It can be difficult to assess the load contributions from individual mining areas, which is commonly required for environmental impact assessments. In the current study, we quantified the net impact of the unmonitored mining activities in the Zaamar Goldfield (Mongolia) on heavy metal transport in the downstream Tuul River-Selenga River-Lake Baikal water systems. We also noted that the Zaamar site shares the conditions of limited monitoring with many rapidly developing regions of the world. The heavy metal concentrations and flow data were obtained from historical measurement campaigns, long-term monitoring, and a novel field campaign. The results indicate that natural mass flows of heavy metals in dissolved form increased by an order of magnitude because of mining. Prevailing alkaline conditions in the vicinity of Zaamar can limit the dissolution, maintaining the on-site concentrations below health-risk based guideline values. However, suspended river concentrations are much higher than the dissolved concentrations. The placer gold mining at the Zaamar site has increased the total riverine mass flows of Al, As, Cu, Fe, Mn, Pb and Zn by 44.300, 30.1, 65.7, 47.800, 1.480, 76.0 and 65.0 tonnes per year respectively. We suggest that local to regional transformation and enrichment processes in combination with suspended sediment transport from numerous existing upstream mining areas contribute to high concentrations of dissolved heavy metals in downstream parts of the Selenga River, including its delta area at Lake Baikal. Furthermore, single hydrological events can increase the suspended load concentrations by at least one order of magnitude. Overall, the Selenga River Basin, which drains into Lake Baikal, should be recognised as one of the world's most impacted areas with regard to heavy metal loads, and it contributes to 1% and 3% of the world flux of dissolved Fe and Pb, respectively.

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少监测地区金矿开采对河流重金属运输的影响:贝加尔湖上游流域案例。
采矿和矿石挖掘会造成下游水系酸化和重金属污染。评估个别矿区的负荷贡献可能很困难,这通常是环境影响评估所需要的。在本研究中,我们量化了Zaamar金矿(蒙古)不受监测的采矿活动对下游图勒河-色楞嘎河-贝加尔湖水系重金属运输的净影响。我们还注意到,扎马尔场址与世界上许多迅速发展的地区一样,都有有限监测的条件。重金属浓度和流量数据是通过历史测量活动、长期监测和一项新的现场活动获得的。结果表明,由于开采,溶解态重金属自然质量流量增加了一个数量级。Zaamar附近普遍存在的碱性条件可以限制溶解,使现场浓度保持在基于健康风险的指导值以下。然而,悬浮的河流浓度远高于溶解的浓度。Zaamar矿区砂金开采使Al、As、Cu、Fe、Mn、Pb和Zn的河流总流量分别增加了44.300、30.1、65.7、47.800、1.480、76.0和65.0吨/年。我们认为,局部到区域的转变和富集过程,加上来自众多现有上游矿区的悬浮沉积物运输,导致色楞格河下游地区(包括贝加尔湖三角洲地区)溶解重金属浓度很高。此外,单个水文事件可以使悬浮荷载浓度增加至少一个数量级。总体而言,流入贝加尔湖的色楞格河流域应该被认为是世界上受重金属负荷影响最严重的地区之一,它分别占世界溶解铁和铅通量的1%和3%。
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Journal of Environmental Monitoring
Journal of Environmental Monitoring 环境科学-分析化学
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2.3 months
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