Temporal and Spatial Variation and Influencing Factors of Heavy Metals in the Water of the Chenjiagou River in a Certain Place

GONG Huishan; XU Youning; CHEN Huaqing; KE Hailing

doi:10.12401/j.nwg.2023107

2023 Vol. 56, No. 4

Article Contents

Article navigation > Northwestern Geology > 2023 > 56(4): 169-184

Next Article Previous Article

GONG Huishan, XU Youning, CHEN Huaqing, KE Hailing. 2023. Temporal and Spatial Variation and Influencing Factors of Heavy Metals in the Water of the Chenjiagou River in a Certain Place. Northwestern Geology, 56(4): 169-184. doi: 10.12401/j.nwg.2023107

Citation:

GONG Huishan, XU Youning, CHEN Huaqing, KE Hailing. 2023. Temporal and Spatial Variation and Influencing Factors of Heavy Metals in the Water of the Chenjiagou River in a Certain Place. Northwestern Geology, 56(4): 169-184. doi: 10.12401/j.nwg.2023107

Temporal and Spatial Variation and Influencing Factors of Heavy Metals in the Water of the Chenjiagou River in a Certain Place

1.
School of Earth Sciences and Resources, Chang’an University, Xi’an 710054, Shaanxi, China
2.
Xi’an Center of China Geological Survey, Xi’an 710119, Shaanxi, China
3.
Shaanxi Typical Mine Geological Environment Field Scientific Observation and Research Station, Ministry of Natural Resources, Xi’an 710119, Shaanxi, China

More Information

Corresponding author: XU Youning, 948477575@qq.com

Received Date: 06 March 2023

Revised Date: 02 June 2023

Accepted Date: 02 June 2023

Publish Date: 20 August 2023

Abstract

Abstract

River water heavy metal pollution has always been a hot spot problem in the field of environmental pollution prevention and control. The heavy metal content in the water of the Chenjiagou river in a stone coal mining area in Qinling exceeded the standard seriously, but the source of heavy metals was unknown, which caused trouble for pollution control. In order to find out the source and temporal and spatial changes of heavy metals in the Chenjiagou river, surface water samples such as Phase II river water, waste stone coal mine drainage and waste residue pile leaching water were collected, and the pollution index method, principal component analysis and Pearson correlation analysis methods were used to study the degree and spatial distribution of heavy metal pollution in river water, and the sources of heavy metals in river water were analyzed. The results show that the heavy metal content of the river water at the source of Chenjiagou (control point) can reach the Class I standard of surface water, and the heavy metal content in the middle reaches is significantly increased by the drainage of waste stone coal mines and the leaching water of waste residue pile in the middle reach, and the heavy metal content in the river water before entering the main stream is 3.5～312 times that of the control point; the heavy metals such as Cd, Cu, Zn, Ni, and Mn in the river water are homologous, all from the mine drainage and waste residue leaching water in the upper reaches of the river. The spatial distribution of heavy metal content in river water is related to geological bodies, pollution source distribution, river pH, salinity and other factors. The research results provide a scientific basis for the prevention and control of heavy metal pollution in Chenjiagou river.
- stone coal mine /
- river water is polluted by heavy metals /
- space–time changes /
- source analysis /
- influencing factors

FullText(HTML)

References

[1]	陈雪, 汪小祥, 刘敬青. 小流域矿集区土壤重金属污染评价与来源综合解析[J]. 有色金属(矿山部分), 2022, 74(06): 74-81 Google Scholar CHEN Xue, WANG Xiaoxiang, LIU Jingqing. Assessment and sources comprehensive identification of soil heavy metal pollution in small-scale drainage catchment of mining areas[J]. Nonferrous Metals(Mining Section), 2022, 74(06): 74-81. Google Scholar
[2]	陈西民, 马合川, 魏东等. 安康石煤资源特征及勘查开发建议[J]. 陕西地质, 2010, 28(01): 1-5+81 doi: 10.3969/j.issn.1001-6996.2010.01.001 CrossRef Google Scholar CHEN Ximing, MA Hechuan, WEI Dong, et al. An kang stone coal resource characteristics and exploration and development suggestions[J]. Geology of Shananxi, 2010, 28(01): 1-5+81. doi: 10.3969/j.issn.1001-6996.2010.01.001 CrossRef Google Scholar
[3]	曹佰迪, 李文明, 周一凡, 等. 鄱阳湖流域沉积物中重金属元素分布特征及生态风险浅析[J]. 西北地质, 2022, 55(4): 343−353. Google Scholar CAO Baidi, LI Wenming, ZHOU Yifan, et al. Geochemical Characteristic and Fluxes of Trace Metal in Water System of the Poyang Lake[J]. Northwestern Geology, 2022, 55(4): 343−353. Google Scholar
[4]	崔炜, 张佳伟, 苏文让, 等. 石煤采矿区水流域重金属污染治理实践[A].《环境工程》编委会, 工业建筑杂志社有限公司. 《环境工程》2019年全国学术年会论文集[C]. 《工业建筑》杂志社有限公司, 2019: 6 Google Scholar CUI Wei, ZHANG Jiawei, SU Wenrang, et al. Prractice of Heavy Metal Pollution Control in Water Basin of Stone Coal Mining Area[A]. Editorial Board of Environmental Engineering, Industrial Architecture Magazine. Proceedings of the 2019 National Annual Conference of Environmental Engineering[C]. Industrial Construction Magazine Limited, 2019: 6. Google Scholar
[5]	崔雅红, 崔炜, 孟庆俊等. 陕西蒿坪石煤矿区重金属污染及生态风险评价[J]. 矿产保护与利用, 2021, 41(02): 157-162 doi: 10.13779/j.cnki.issn1001-0076.2021.02.022 CrossRef Google Scholar CUI Yahong, CUI Wei, MENG Qinjun, et al. Heavy Metal Pollution and Ecological Risk Assessment in Haoping Stone Coal Mine Area of Shaanxi Province[J]. Conservation and Utilization of Mineral Resources, 2021, 41(02): 157-162. doi: 10.13779/j.cnki.issn1001-0076.2021.02.022 CrossRef Google Scholar
[6]	杜蕾, 朱晓丽, 安毅夫等. 石煤尾矿区土壤重金属污染风险评价[J]. 化学工程, 2018, 46(03): 6-9+15 doi: 10.3969/j.issn.1005-9954.2018.03.002 CrossRef Google Scholar DU Lei, ZHU Xiao-li, AN Yi-fu, et al. Potential ecological risk assessment of soil heavy metalsin a stone-like coal tailing using TCLP and Hakanson method[J]. Chemical Engineering(China), 2018, 46(03): 6-9+15. doi: 10.3969/j.issn.1005-9954.2018.03.002 CrossRef Google Scholar
[7]	冯博鑫, 徐多勋, 张宏宇, 等. 基于最小数据集的周至地区土壤重金属地球化学特征及成因分析[J]. 西北地质, 2023, 56(1): 284−292. Google Scholar FENG Boxin, XU Duoxun, ZHANG Hongyu, et al. Geochemical Characteristic of Heavy Metal in Zhouzhi Area and Analysis of Their Causes Based on Minimum Data Set[J]. Northwestern Geology, 2023, 56(1): 284−292. Google Scholar
[8]	韩宝华, 胡永浩, 段星星, 等. 西北地区重金属元素累积现状及典型地区成因分析[J]. 西北地质, 2022, 55(3): 318−325. Google Scholar HAN Baohua, HU Yonghao, DUAN Xingxing, et al. Accumulation Status of Heavy Metals in Northwest China and Analysis of Causes in Typical Areas[J]. Northwestern Geology, 2022, 55(3): 318−325. Google Scholar
[9]	郝向英, 赵慧, 刘卫. 黄河中游主要重金属污染物的迁移转化[J]. 内蒙古环境保护, 2000, 12(3): 27-28 Google Scholar HAO Xiang Ying, ZhAO Hui, LIU wei. Migration of the Main Heavy Metal in the Middle Reaches of the Yellow River[J]. Environment and Development, 2000, 12(3): 27-28. Google Scholar
[10]	何宇, 洪欣, 闭潇予, 等. 九洲江流域水环境重金属污染特征及来源解析[J]. 环境化学, 2021, 40(01): 240-253 doi: 10.7524/j.issn.0254-6108.2020062812 CrossRef Google Scholar HE Yu, HONG Xin, BI Xiaoyu, et al. Characteristics and sources of heavy metal pollution in water environment of Jiuzhou River basin[J]. Environmental Chemistry, 2021, 40(01): 240-253. doi: 10.7524/j.issn.0254-6108.2020062812 CrossRef Google Scholar
[11]	纪冬丽, 曾琬晴, 张新波, 等. 天津近郊农田土壤重金属风险评价及空间主成分分析[J]. 环境化学, 2019, 38( 9): 1955-1965 doi: 10.7524/j.issn.0254-6108.2018111201 CrossRef Google Scholar JI Dongli, ZENG Wanqing, ZHANG Xinbo, et al. Ecological risk assessment and principal component analysis of heavy metals in suburban farmlandsoils of Tianjin[J]. Environmental Chemistry, 2019, 38( 9): 1955-1965( in Chinese). doi: 10.7524/j.issn.0254-6108.2018111201 CrossRef Google Scholar
[12]	蒋起保, 欧阳永棚, 章敬若, 等. 江西省贵溪市水系沉积物重金属污染及其潜在生态风险评价[J]. 西北地质, 2022, 55(3): 326−334. Google Scholar JIANG Qibao, OUYANG Yongpeng, ZHANG Jingruo, et al. Evaluation of Heavy Metal Pollution and Its Potential Ecological Risk in Stream Sediments in Guixi City, Jiangxi Province[J]. Northwestern Geology, 2022, 55(3): 326−334. Google Scholar
[13]	贾志刚. 安康市蒿坪石煤矿带地质特征[J]. 价值工程, 2014, 33(30): 310-311 doi: 10.14018/j.cnki.cn13-1085/n.2014.30.171 CrossRef Google Scholar JIA Zhigang. Geological Characteristics of the Stone Coal Belt in Haoping, Ankang City[J]. Value Engineering, 2014, 33(30): 310-311. doi: 10.14018/j.cnki.cn13-1085/n.2014.30.171 CrossRef Google Scholar
[14]	贾志刚, 吕婷婷. 安康市双龙一带斑鸠关组地质特征及其含石煤性分析[J]. 煤, 2014, 23(02): 52-53+76. Google Scholar
[15]	李莹, 叶际达, 张亮等. 石煤开发利用重金属污染现状调查研究[J]. 能源环境保护, 2005(02): 58-61 doi: 10.3969/j.issn.1006-8759.2005.02.018 CrossRef Google Scholar LI Ying, YE Jida, ZHANG Liang, et al. The survey of status quo on heavy-metal contamination in the bone-coal mining and utilization[J]. Energy Environmental Protection, 2005(02): 58-61. doi: 10.3969/j.issn.1006-8759.2005.02.018 CrossRef Google Scholar
[16]	廖红为, 蒋忠诚, 周宏, 等.铅锌矿周边岩溶流域重金属污染及健康风险评价[J/OL].环境科学, 2023:1−15. Google Scholar LIAO Hongwei,JIANG Zhongcheng,ZHOU Hong,et al.Heavy Metal Pollution and Health Risk Assessment in Karst Basin Around a Lead-Zinc Mine[J/OL]. Environmental Science, 2023:1−15. Google Scholar
[17]	刘瑞平, 徐友宁, 张江华等. 小秦岭金矿带枣香河重金属及氰化物分布特征及污染成因[J]. 黄金, 2012, 33(11): 59-64 Google Scholar LIU Ruiping, XU Youning, ZHANG Jianghua, et al. Distribution characteristics of heavy metals and cyanide in Zaoxiang River in Xiaoqinling gold mine belt and pollution causes, Gold, 2012, 33(11): 59-64. Google Scholar
[18]	刘志逊, 代鸿章, 刘佳等. 我国石煤资源勘查开发利用现状及建议[J]. 中国矿业, 2016, 25(S1): 18-21 doi: 10.3969/j.issn.1004-4051.2016.z1.005 CrossRef Google Scholar LIU Zhixun, DAI Hongzhang, LIU Jia, et al. Status quo and suggestions for exploration, development and utilization of stone coal resources in China[J]. China Mining Magazine, 2016, 25(S1): 18-21. doi: 10.3969/j.issn.1004-4051.2016.z1.005 CrossRef Google Scholar
[19]	刘总堂, 李春海, 章钢娅. 运用主成分分析法研究云南湖库水体中重金属分布[J]. 环境科学研究, 2010, 23(04): 459-466 doi: 10.13198/j.res.2010.04.85.liuzt.012 CrossRef Google Scholar LIU Zongtang, LI Chunhai, ZHANG Gangya. App lication of P rinc ipal Component Ana lysis to the D istributions o f Heavy Meta ls in the W ater of Lakes and Reservo irs in Yunnan P rov ince[J]. R Research of Environmental Sciences, 2010, 23(04): 459-466. doi: 10.13198/j.res.2010.04.85.liuzt.012 CrossRef Google Scholar
[20]	卢秋, 邓渠成, 卢苇等. 龙江河水体重金属污染状况及健康风险评价[J]. 广西科学, 2016, 23(05): 478-484 Google Scholar LU Qiu, DENG Qucheng, LU Wei, et al. Assessment on the Status and Health Risks of Heavy Metal Pollutions of Longjiang River[J]. Guangxi Sciences, 2016, 23(5): 478-484. Google Scholar
[21]	孟春芳, 何长海, 田珂宁等. 卫河水系新乡段水质时空分异及污染因子识别[J]. 安全与环境学报, 2019, 19(04): 1461-1467 doi: 10.13637/j.issn.1009-6094.2019.04.049 CrossRef Google Scholar MENG Chunfang, HE Changhai, TIAN Kening, et al. Identification of water pollutants in Xinxiang section of Wei River Basin in terms of spatio-temporal features and pollution contributors[J]. Journal of Safety and Environment, 2019, 19(04): 1461-1467. doi: 10.13637/j.issn.1009-6094.2019.04.049 CrossRef Google Scholar
[22]	秦欢欢, 高柏, 黄碧贤等. 拉萨河流域河水重金属分布特征及污染风险评价[J]. 有色金属(冶炼部分), 2020(10): 79-86 Google Scholar QIN Huanhuan, GAO Bai, HUANG Bixian, et al. Distribution Characteristics and Pollution Risk Assessment of Heavy Metals in Lhasa River Basin[J]. Nonferrous Metals (Extractive Metallurgy), 2020(10): 79-86. Google Scholar
[23]	邱小琮, 赵红雪, 尹娟等. 爱伊河水环境容量与水体自净能力研究[J]. 人民黄河, 2015, 37(01): 87-90 doi: 10.3969/j.issn.1000-1379.2015.01.022 CrossRef Google Scholar QIU Xiaozong, ZHAO Hongxue, YIN Juan, et al. Study on the Water Environmental Capacity and the Water Self- Purification Ability of Aiyi River[J]. Yellow River, 2015, 37(01): 87-90. doi: 10.3969/j.issn.1000-1379.2015.01.022 CrossRef Google Scholar
[24]	舒旺, 王鹏, 肖汉玉等. 鄱阳湖流域乐安河水化学特征及影响因素[J]. 长江流域资源与环境, 2019, 28(03): 681-690 Google Scholar SHU Wang, WANG Peng, XIAO Han-yu, et al. Hydrochemical Characteristics and Influencing Factors in the Le’an River, Poyang Lake Basin[J]. Resources and Environment in the Yangtze Basin, 2019, 28(03): 681-690. Google Scholar
[25]	宿文姬, 徐友宁, 凡生等. 广东大宝山矿区横石河沿岸水土重金属分布规律及其累积风险[J]. 地质通报, 2014, 33(08): 1231-1238 doi: 10.3969/j.issn.1671-2552.2014.08.019 CrossRef Google Scholar SU Wenji, XU Youning, FAN Sheng, et al. The distribution regularity and accumulation risk of heavy metals in water and soil along the Hengshi River in the Dabaoshan mining area, Guangdong Province[J]. Geological bulletin of China, 2014, 33(08): 1231-1238. doi: 10.3969/j.issn.1671-2552.2014.08.019 CrossRef Google Scholar
[26]	孙玉宝, 张金水. 霍邱县石煤矿床地质特征及其开发利用前景初探[J]. 矿产保护与利用, 2007(02): 24-27 doi: 10.3969/j.issn.1001-0076.2007.02.007 CrossRef Google Scholar SUN Yubao, ZHANG Jinshui. Geological Characteristics of the Stone Coal Deposits and its Prospects of the Development and Utilization in Huoqiu County [J]. Conservation and Utilization of Mineral Resources, 2007(02): 24-27. doi: 10.3969/j.issn.1001-0076.2007.02.007 CrossRef Google Scholar
[27]	汤爱坤. 调水调沙前后黄河口重金属的变化及其影响因素[D]. 青岛: 中国海洋大学, 2011 Google Scholar TANG Aikun. The influence Factors and Behavior Characteristics of Heavy Metals from River to Sea in Yellow River [D]. Qingdao: Ocean University of China, 2011. Google Scholar
[28]	汪泽秋. 湖南石煤资源的开发利用与保护[J]资源开发与保护, 1992(01): 63-64+81 Google Scholar WANG Zeqiu. Development, utilization and protection of Hunan stone coal resources[J]. Resources Development and Conservation, 1992(01): 63-64+81. Google Scholar
[29]	王国星. 陕南利用资源循环发展[J]. 西部大开发, 2012, No. 140(09): 90-91 Google Scholar WANG Guoxing. Southern Shaanxi uses resources for circular development[J]. Great Development of the Western Region, 2012, No. 140(09): 90-91. Google Scholar
[30]	王磊. 西秦岭火鸡山地区地球化学异常分形解析及成矿预测研[D]. 兰州: 西北师范大学, 2020 Google Scholar WANG Lei. Fractal Analysis and Metallogenic Prediction of Geochemical Anomalies in Huojishan Area, Western Qinling[D]. Lanzhou: Northwest Normal University, 2020. Google Scholar
[31]	王美华. 浙江常山江源石煤矿山周边耕地土壤重金属分布特征与生态风险评价[J]. 浙江国土资源, 2021(S1): 13-21 doi: 10.16724/j.cnki.cn33-1290/p.2021.s1.004 CrossRef Google Scholar WANG Meihua. Distribution Characteristics and Ecological Risk Assessment of Heavy Metals in Cultivated Soil Around Jiangyuan Stone Coal Mine in Changshan, Zhejiang[J]. Zhejinag Land & Resources, 2021(S1): 13-21. doi: 10.16724/j.cnki.cn33-1290/p.2021.s1.004 CrossRef Google Scholar
[32]	王宇. 铜陵某矿区小流域重金属污染及风险评价[D]. 合肥: 安徽农业大学, 2022 Google Scholar WANG Yu. Heavy Metal Pollution and Ecological Risk Assessment of a Small Watershed draining a mining area in Tongling[D]. Anhui Agricultural University, 2022. Google Scholar
[33]	王宇彤. 沉积物中重金属迁移释放规律研究[D]. 北京: 中国矿业大学, 2021 Google Scholar WANG Yutong. Study on the Migration and Release Rules of Heavy Metals in Sediments[D]. Beijing: China University of Mining and Technology, 2021. Google Scholar
[34]	吴海霞. SPSS在试卷相关性分析和再测信度计算中的应用[J]. 电脑知识与技术, 2008, 4(S2): 148-149 doi: 10.3969/j.issn.1009-3044.2008.z2.091 CrossRef Google Scholar WU Haixia. SPSS Application in Examination Paper Correlation Analysis and Retest Reliability[J]. Computer Knowledge and Technology, 2008, 4(S2): 148-149. doi: 10.3969/j.issn.1009-3044.2008.z2.091 CrossRef Google Scholar
[35]	徐友宁.矿山环境地质与地质环境[J].西北地质,2005, 38(04): 108−112 Google Scholar XU Youning. Mine environmental geology and mine geological environment[J]. Northwestern Geology, 2005, 38(4): 108−112. Google Scholar
[36]	徐友宁, 陈社斌, 陈华清等. 大柳塔煤矿开发土壤重金属污染响应研究[J]. 中国矿业, 2007, No. 119(07): 47-50+54 doi: 10.3969/j.issn.1004-4051.2007.07.015 CrossRef Google Scholar XU Youning, CHEN Shebin, CHEN Huaqing, et al. Study on soil heavy metals pollution in daliuta coal mine area[J]. China Mining Magazine, 2007, No. 119(07): 47-50+54. doi: 10.3969/j.issn.1004-4051.2007.07.015 CrossRef Google Scholar
[37]	许飞亚, 姬亚军, 王玲玲等. 信阳市浉河水体重金属污染监测与评价[J]. 山东化工, 2022, 51(12): 222-225+228 doi: 10.3969/j.issn.1008-021X.2022.12.068 CrossRef Google Scholar XU Feiya, JI Yajun, WANG Lingling, et al. Monitoring and Evaluation of Heavy Metal Pollution of Shihe River in Xinyang City[J]. Shan Dong Chemical Industry, 2022, 51(12): 222-225+228. doi: 10.3969/j.issn.1008-021X.2022.12.068 CrossRef Google Scholar
[38]	杨学存, 马合川. 安康石煤特征及其综合利用[J]. 陕西煤炭, 2013, 32(01): 11-13 doi: 10.3969/j.issn.1671-749X.2013.01.004 CrossRef Google Scholar YANG Xuecun, MA Hechuan. Characteristics of Ankang stone coal and its comprehensive utilization[J]. Shaanxi Coal, 2013, 32(01): 11-13. doi: 10.3969/j.issn.1671-749X.2013.01.004 CrossRef Google Scholar
[39]	叶宇航, 周润东, 于雪等. 水环境中微塑料对重金属的吸附及其影响因素[J]. 环境化学: 1-10 2023-02-24]. Google Scholar YE Yuhang, ZHOU Rundong, YU Xue, et al. Review on the adsorption of heavy metals with micro plastics in water environment and its influencing factors[J]. Environmental Chemistry, 2023, 42(3): 1-10. Google Scholar
[40]	俞茜. 普渡河污染源解析及浮游藻类变化特征[D]. 北京: 清华大学, 2015 Google Scholar YU Xi. Source Apportionment of Pollutants and Variation Analysis in Phytoplankton Compositions in the Pudu River[D].Beijing: Tsinghua University, 2015. Google Scholar
[41]	张嘉杰. 分析便携式水质分析仪器的应用前景[J]. 科技创新与应用, 2013, No. 51(11): 28 Google Scholar ZHANG Jiajie. Analyze the application prospect of portable water quality analysis instruments[J]. Technological Innovation and Application, 2013, No. 51(11): 28. Google Scholar
[42]	张丽红. 便携式水质分析仪器的应用前景[J]. 资源节约与环保, 2015, No. 162(05): 48 doi: 10.3969/j.issn.1673-2251.2015.05.048 CrossRef Google Scholar ZHANG Lihong. Application prospect of portable water quality analysis instruments[J]. Resources Economization &Environmental Prolection, 2015, No. 162(05): 48. doi: 10.3969/j.issn.1673-2251.2015.05.048 CrossRef Google Scholar
[43]	中国地质调查局西安地质调查中心. 紫阳县蒿坪镇陈家沟废弃矿硐酸性水污染综合治理工程可行性研究报告[R]. 中国地质调查局西安地质调查中心, 2021. Google Scholar
[44]	周巧巧, 任勃, 李有志等. 中国河湖水体重金属污染趋势及来源解析[J]. 环境化学, 2020, 39(08): 2044-2054 doi: 10.7524/j.issn.0254-6108.2019060403 CrossRef Google Scholar ZhOU Qiaoqiao, REN Bo, LI Youzhi, et al. Trends and sources of dissolved heavy metal pollution in water of rivers and lakes in China[J]. Environmental Chemistry, 2020, 39( 8): 2044-2054. doi: 10.7524/j.issn.0254-6108.2019060403 CrossRef Google Scholar
[45]	周闻达, 向武, 金丽, 等. 石煤矿山酸性废水自净化机理及防治对策[J]. 环境科学与技术, 2020, 43(08): 20-27 doi: 10.19672/j.cnki.1003-6504.2020.08.004 CrossRef Google Scholar ZHOU Wenda, XIANG Wu, JIN Li, et al. The Self-purification Mechanism and Control Counter measures of Cadmium-rich Acid Mine Drainage of Stone Coal Mines[J]. Environmental Science & Technology, 2020, 43(08): 20-27. doi: 10.19672/j.cnki.1003-6504.2020.08.004 CrossRef Google Scholar
[46]	周小康. 紫阳县幅I49E021003 1/5万地质图说明书[R]. 陕西省地调院, 2000 Google Scholar
[47]	朱泊丞, 施泽明, 王新宇等. 安宁河水体中重金属空间分布特征及来源识别[J]. 四川冶金, 2018, 40(04): 24-31 doi: 10.3969/j.issn.1001-5108.2018.04.006 CrossRef Google Scholar ZHU Bocheng, SHI Zeming, WANG Xinyu, et al. Spatial distribution characteristics and source identification of heavy metals in Anning River[J]. Sichuan Metallurgy, 2018, 40(04): 24-31. doi: 10.3969/j.issn.1001-5108.2018.04.006 CrossRef Google Scholar
[48]	朱雪凝. 滏阳河邯郸段重金属风险评估及来源解析[D]. 邯郸: 河北工程大学, 2021 Google Scholar ZHU Xuening. Risk Assessment and Source Apportionment of Heavy Metals of the Fuyang River in Handan[D]. Handan: Hebei University of Engineering, 2021. Google Scholar
[49]	Alves D D, Riegel R P, Klauck C R, et al. Source apportionment of metallic elements in urban atmospheric particulate matter and assessment of its water-soluble fraction toxicity[J]. Environmental Science and Pollution Research, 2020, 27(11): 12202-12214. doi: 10.1007/s11356-020-07791-8 CrossRef Google Scholar
[50]	Chai N, Yi X, Xiao J, et al. Spatiotemporal variations, sources, water quality and health risk assessment of trace elements in the Fen River[J]. Science of the Total Environment, 2021, 757: 143882-143892. doi: 10.1016/j.scitotenv.2020.143882 CrossRef Google Scholar
[51]	Kumar B, Singh U K. Source apportionment of heavy metals and their ecological risk in a tropical river basin system[J]. Environmental Science and Pollution Research International, 2018, 25(25): 25443−25457. Google Scholar
[52]	Liu CW, Lin KH, Kuo YM. Application of factor analysis in the assessment of ground water quality in a black foot disease area in Taiwan[J]. Science Total Environmental, 2003, 313, 77-89. doi: 10.1016/S0048-9697(02)00683-6 CrossRef Google Scholar
[53]	Shil S, Singh K. Health risk assessment and spatial variations of dissolved heavy metals and metalloids in a tropical river basin system[J]. Ecological Indicators, 2019. Google Scholar
[54]	Xiao J, Wang L, Deng L, et al. Characteristics, sources, water quality and health risk assessment of trace elements in river water and well water in the Chinese Loess Plateau [J]. Science of the Total Environment, 2019, 650: 2004-2012. doi: 10.1016/j.scitotenv.2018.09.322 CrossRef Google Scholar
[55]	Yang X H, WU P B, YIN A J, et al. Distribution and source analysis of heavy metals in soils and sediments of Yueqing Bay Basin, East China Sea[J]. Marine Pollution Bulletin, 2016, 115( 12): 489-497. Google Scholar