唐山陡河水库沉积物汞的分布、来源及污染评价

为弄清陡河燃煤电厂大气汞沉降对毗邻的陡河水库沉积物中总汞、甲基汞的贡献及其污染程度,于2013年8月对陡河水库沉积物进行了采样,测定了沉积物中总汞、甲基汞、有机质以及孔隙水中溶解态汞含量等参数,运用地累积指数法评价了陡河水库沉积物的汞污染现状和污染程度.结果表明,陡河水库沉积物中总汞含量(dw)范围为19~97 ng·g~(-1),甲基汞含量(dw)范围为0.02~1.27 ng·g~(-1),均表现为表层高于底层,说明陡河水库沉积物的汞含量正逐年升高,外源汞输入对陡河沉积物负荷产生了一定的影响.受电厂大气汞干湿沉降影响,陡河水库周边土壤汞含量(dw)平均值为22 ng·g~(-1),而陡河水库3个沉积物柱库心总汞含量最高,其次为西支,东支最低.结合上游大黑汀水库较高的沉积物汞含量(总汞平均值为176 ng·g~(-1)),以及陡河水库附近较低的土壤汞含量,初步判断陡河水库沉积物中汞的主要来源为大黑汀水库的高汞水源输入,电厂汞沉积输入贡献相对较小.陡河沉积物总汞、甲基汞与有机质之间均呈显著的正相关关系,表明沉积物中有机质具有较好的吸附总汞和甲基汞的能力,并对甲基汞产生具有重要作用.地累积指数Igeo的评价结果表明,陡河水库各点位沉积物的汞污染程度依次为库心西支东支,库心和西支属于中度污染,东支属于轻微污染.大黑汀水库受周边采矿企业影响,两个采样点沉积物的地累积指数污染评价属于中强污染和强污染.

Distributions, Sources and Pollution Assessment of Hg in Sediment of Douhe Reservoir in Tangshan City

Sediment cores from Douhe reservoir in Tangshan City were sampled in August 2013, in order to evaluate the mercury (Hg) pollution degree and its possible sources. Agriculture soils surrounding the Douhe reservoir and sediments from an upstream reservoir (Daheiting) were also collected. Total mercury (THg), methylmercury (MeHg), dissolved mercury in pore water (DHg) and organic matter (OM) in sediment of Douhe reservoir were analyzed, while, only THg in the agriculture soils and upstream reservoir sediments was determined. Finally, the geoaccumulation index method was applied to evaluate the Hg pollution status in soils and reservoir sediments. The results showed that THg content in sediment of Douhe reservoir ranged from 19 to 97 ng·g^-1. dw, MeHg (dw) from 0.02 to 1.27 ng·g^-1, and the contents of both THg and MeHg were higher in the upper layers than the deeper layers, indicating that Hg in sediments was increasing in recent years by the exogenetic loadings. THg (dw) in soils offshore the Douhe reservoir, which is close to a large coal-fired power plant, averaged at 22 ng·g^-1. Among the three sediment cores of Douhe reservoir, the central point had the highest THg, followed by the western site, and the eastern site had the lowest THg. While, THg content (dw) in sediments of Daheiting reservoir was much higher, with a mean of 176 ng·g^-1. Combining all the above information, we concluded that Hg in Douhe reservoir was mainly derived from the Daheiting reservoir and the mercury atmospheric deposition from the nearby coal-fired power plant contributed a less content. THg and MeHg in the sediments of Douhe reservoir were positively correlated with OM, indicating that OM in sediments had good ability of adsorbing THg and MeHg, and also played an important role in Hg methylation. The geoaccumulation index (I_geo) showed that the Hg pollution status deceased in this order:central of Daheting, Daba of Daheting, central of Douhe, western of Douhe, eastern of Douhe, soils surrounding Douhe. Central and western sites in Douhe belonged to moderate pollution and the eastern site belonged to slight pollution. While, sediments of Daheiting reservoir, affected by the iron ore mining activities, were in the moderate and strong pollution status.