International Joint Research Center for Persistent Toxic Substances (IJRC-PTS), School of Water Conservancy and Civil Engineering, Northeast Agricultural University, Harbin 150030, China.
Research Center for Eco-Environment Protection of Songhua River Basin, Northeast Agricultural University, Harbin 150030, China.
Int J Environ Res Public Health. 2020 Mar 9;17(5):1766. doi: 10.3390/ijerph17051766.
Heavy metal pollution in the river environment has been a source of widespread interest due to potential threats to human health and ecosystem security. Many studies have looked at heavy metal pollution in the context of single source-pathway-receptor relationships, however few have sought to understand pollution from a more wholistic multi-media perspective. To investigate potential risks in a more wholistic way, concentrations of six heavy metals (Cd, Cr, Ni, Cu, Zn and Pb) were detected in multi-media (water, sediment and riparian soil) collected from 14 sampling sites in the main stream of the Songhua River. Chemical analyses indicated that the average concentration of heavy metals in water followed: Zn > Cr > Cu > Pb > Ni > Cd, with a different trend observed in sediments and riparian soil: Zn > Cr > Ni > Pb > Cu > Cd. The potential risk was evaluated using the heavy metal pollution index (), Nemerow pollution index (), hazard index () and carcinogenic risk () metrics. Results showed that all values were lower than the critical level of 100 indicating that the levels of these targeted heavy metals were within drinking water safety limits. The indicated that both sediment (2.64) and soil (2.95) could be considered "moderately polluted", with Cd and Zn providing the most significant contributions. A human health risk assessment suggested that the non-carcinogenic risks were within acceptable levels ( < 1), as was the cancer risk associated with dermal adsorption ( <10). However, the associated with ingestion exposure (4.58 × 10) exceeded the cancer risk threshold (10) indicative of elevated cancer incidence in exposed populations. Health-risk estimates were primarily associated with Cd in the Songhua River. Source apportionment was informed by Pearson correlation analysis coupled with principal component analysis () which indicated that Cu was mainly derived from natural (geogenic) sources; Cr and Ni were associated with industrial emissions; Pb might be derived from agricultural and transportation sources; Zn might be from industrial, agricultural activities and transportation; while Cd is likely from industrial and agricultural emissions. The source apportionment information could provide the basis for a risk-management strategy focused on reducing Cd and Zn emissions to the riverine environment. Results from this study will provide the scientific knowledge that is needed for measuring and controlling heavy metals sources and pollution characteristics, and identifying the potential cancer risk with different exposure pathways, as well as making effective environmental management policies at catchment or regional scales.
河流环境中的重金属污染因其对人类健康和生态系统安全的潜在威胁而引起了广泛关注。许多研究都着眼于单一来源-途径-受体关系中的重金属污染,但很少有研究试图从更整体的多介质角度来理解污染。为了更全面地研究潜在风险,在松花江干流的 14 个采样点采集了多介质(水、沉积物和河岸土壤)样本,检测了六种重金属(Cd、Cr、Ni、Cu、Zn 和 Pb)的浓度。化学分析表明,重金属在水中的平均浓度依次为:Zn > Cr > Cu > Pb > Ni > Cd,而在沉积物和河岸土壤中的浓度则呈现出不同的趋势:Zn > Cr > Ni > Pb > Cu > Cd。利用重金属污染指数()、内梅罗污染指数()、危害指数()和致癌风险()评估潜在风险。结果表明,所有的 值均低于临界值 100,表明这些目标重金属的含量均在饮用水安全限值范围内。 表明,沉积物(2.64)和土壤(2.95)都可以被认为是“中度污染”,其中 Cd 和 Zn 的贡献最大。人体健康风险评估表明,非致癌风险处于可接受水平( < 1),与皮肤吸附相关的致癌风险( <10)也是如此。然而,与摄入暴露相关的致癌风险(4.58 × 10)超过了致癌风险阈值(10),表明暴露人群癌症发病率升高。健康风险评估主要与松花江中的 Cd 有关。基于 Pearson 相关性分析与主成分分析()的源分配表明,Cu 主要来源于自然(地质)源;Cr 和 Ni 与工业排放有关;Pb 可能来自农业和交通源;Zn 可能来自工业、农业活动和交通源;而 Cd 可能来自工业和农业排放。源分配信息可以为河流环境中减少 Cd 和 Zn 排放的风险管理策略提供依据。本研究的结果将为衡量和控制重金属来源和污染特征、识别不同暴露途径的潜在癌症风险以及在流域或区域尺度上制定有效的环境管理政策提供必要的科学知识。
