Temporal and spatial distribution of waterborne mercury in a gold miner's river.

Journal of Environmental Monitoring Pub Date : 2012-10-26 Epub Date: 2012-09-06 DOI:10.1039/c2em30203a
Francisco Picado, Göran Bengtsson
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引用次数: 7

Abstract

We examined the spatial and temporal (hourly) variation of aqueous concentrations of mercury in a gold miner's river to determine factors that control transport, retention, and export of mercury. The mercury flux was estimated to account for episodic inputs of mercury through mining tailings, variations in flow rate, and the partitioning of mercury between dissolved and particulate phases. Water samples were collected upstream and downstream of two gold mining sites in the Artiguas river, Nicaragua. The samples were analyzed for dissolved and suspended mercury, total solids, dissolved organic carbon, and total iron in water. Water velocity was also measured at the sampling sites. We found that mercury was mainly transported in a suspended phase, with a temporal pattern of diurnal peaks corresponding to the amalgamation schedules at the mining plants. The concentrations decreased with distance from the mining sites, suggesting dilution by tributaries or sedimentation of particle-bound mercury. The lowest total mercury concentrations in the water were less than 0.1 μg l(-1) and the highest concentration was 5.0 μg l(-1). The mercury concentrations are below the present WHO guidelines of 6 μg l(-1) but are considered to lead to a higher risk to aquatic bacteria and fish in the stream than to humans. The aqueous concentrations exceed the hazard endpoints for both groups by a probability of about 1%. Particulate mercury accounted for the largest variation of mercury fluxes, whereas dissolved mercury made up most of the long-range transport along the stream. The estimated total mass of mercury retained due to sedimentation of suspended solids was 2.7 kg per year, and the total mass exported downstream from the mining area was 1.6 kg per year. This study demonstrates the importance of the temporal and spatial resolution of observations in describing the occurrence and fate of mercury in a river affected by anthropogenic activities.

某金矿工人河流中水运汞的时空分布。
为了确定控制汞的运输、滞留和输出的因素,我们研究了金矿工人河流中汞水浓度的时空(每小时)变化。据估计,汞通量考虑了汞通过采矿尾矿的偶发性输入、流量的变化以及汞在溶解相和颗粒相之间的分配。在尼加拉瓜阿蒂瓜斯河两个金矿的上游和下游采集了水样。对样品进行了溶解和悬浮汞、总固体、溶解有机碳和水中总铁的分析。在采样点也测量了水的流速。我们发现汞主要以悬浮相运输,其日峰值的时间模式与采矿厂的汞化时间表相对应。浓度随距离采矿地点的远近而降低,表明微粒结合的汞被支流稀释或沉淀。水中总汞浓度最低均小于0.1 μg l(-1),最高为5.0 μg l(-1)。汞浓度低于世卫组织目前6 μg l(-1)的指导方针,但被认为对溪流中的水生细菌和鱼类的风险高于对人类的风险。两组的水溶液浓度均以约1%的概率超过危险终点。颗粒汞是汞通量变化最大的因素,而溶解汞则是沿河流长距离迁移的主要因素。由于悬浮固体沉降而保留的汞的估计总质量为每年2.7公斤,从矿区下游出口的总质量为每年1.6公斤。这项研究证明了观测的时空分辨率在描述受人为活动影响的河流中汞的发生和命运方面的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Environmental Monitoring
Journal of Environmental Monitoring 环境科学-分析化学
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审稿时长
2.3 months
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