Department of Earth and Environmental Sciences, Faculty of Science and Engineering, Macquarie University, North Ryde, Sydney, NSW, 2109, Australia.
Department of Earth and Planetary Sciences, WIGS, University of California Santa Cruz, Santa Cruz, CA, 95064, United States.
Environ Pollut. 2020 Jul;262:114235. doi: 10.1016/j.envpol.2020.114235. Epub 2020 Feb 20.
Communities in low-income and middle-income countries (LMIC) are disproportionally affected by industrial pollution compared to more developed nations. This study evaluates the dispersal and associated health risk of contaminant-laden soil and dust at a copper (Cu) smelter in Tsumeb, Namibia. It is Africa's only smelter capable of treating complex Cu ores that contain high arsenic (As) contents (<1%). The analyses focused on the primary trace elements associated with ore processing at the smelter: As, Cu, and lead (Pb). Portable X-Ray fluorescence spectrometry (pXRF) of trace elements in soils (n = 83) and surface dust wipes (n = 80) showed that elemental contamination was spatially associated with proximity to smelter operations. Soil concentrations were below US EPA soil guidelines. Dust wipe values were elevated relative to sites distal from the facility and similar to those at other international smelter locations (As = 1012 μg/m (95% CI 687-1337); Cu = 1838 μg/m (95% CI 1191-2485); Pb = 1624 μg/m (95% CI 862-2385)). Source apportionment for Pb contamination was assessed using Pb isotopic compositions (PbIC) of dust wipes (n = 22). These data revealed that the PbIC of 73% (n = 16/22) of these wipes corresponded to the PbIC of smelter slag and tailings, indicating contribution from industrial emissions to ongoing exposure risk. Modeling of carcinogenic risk showed that dust ingestion was the most important pathway, followed by inhalation, for both adults and children. Dermal contact to trace elements in dust was also determined to pose a carcinogenic risk for children, but not adults. Consequently, contemporary smelter operations remain an ongoing health risk to the surrounding community, in spite of recent efforts to improve emissions from the operations.
与较发达国家相比,中低收入国家(LMIC)的社区受到工业污染的影响不成比例。本研究评估了纳米比亚楚梅布(Tsumeb)一家铜(Cu)冶炼厂污染土壤和灰尘的扩散及其相关健康风险。这是非洲唯一能够处理含有高砷(As)含量(<1%)的复杂铜矿石的冶炼厂。分析主要集中在冶炼厂矿石加工过程中相关的痕量元素上:砷(As)、铜(Cu)和铅(Pb)。土壤(n=83)和表面灰尘擦拭物(n=80)中痕量元素的便携式 X 射线荧光光谱法(pXRF)分析表明,元素污染与靠近冶炼厂作业的空间位置有关。土壤浓度低于美国环保署的土壤指导值。灰尘擦拭物的值相对于远离该设施的地点较高,与其他国际冶炼厂地点的值相似(As=1012μg/m(95%CI 687-1337);Cu=1838μg/m(95%CI 1191-2485);Pb=1624μg/m(95%CI 862-2385))。使用灰尘擦拭物的 Pb 同位素组成(PbIC)(n=22)评估 Pb 污染的来源分配。这些数据表明,这些擦拭物中 73%(n=16/22)的 PbIC 与冶炼厂炉渣和尾矿的 PbIC 相对应,表明工业排放物对持续暴露风险的贡献。致癌风险模型表明,对于成人和儿童来说,灰尘摄入是最重要的途径,其次是吸入。儿童也被确定为通过灰尘接触痕量元素而致癌,但对成人则没有。因此,尽管最近努力改善运营排放,但当代冶炼厂的运营仍然对周围社区构成持续的健康风险。
