电子废弃物拆解污染区土壤生态健康风险研究进展
Research Progress on Soil Ecological and Health Risks of E-waste Dismantling Polluted Area
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摘要: 电子废弃物中含有诸多具有回收再利用价值的资源,但在粗放的拆解回收过程中,其中的重金属和有机污染物等有毒有害物质向环境介质中释放,使拆解场地周边土壤受到严重的复合污染,给当地生态环境和人体健康带来潜在风险。本文系统分析了电子废弃物拆解区污染物在土壤中的迁移行为特征和风险;归纳了用于研究土壤污染生态风险的指数法、模型法、外推法和生态毒理法和用于研究土壤污染健康风险的人体外部量化评估和人体内暴露评估等评估方法;同时探讨了这些评估方法在电子废弃物拆解区土壤污染生态健康风险研究的前沿进展。最后本文还指出了目前电子废弃物拆解区土壤污染风险评价需要改进之处,如评价方法应考虑到污染物在土壤中的存在形态、生态风险评价模型需将污染物对生态系统基本构成单元的影响纳入进去、健康风险量化评估基础数据和内暴露评估生物标志物法都需开展精细化的研究,提出了应对电子废弃物拆解引发的生态健康风险的措施,以期引起关于电子废弃物拆解场地土壤生态健康风险的深入思考。Abstract: E-waste contains many recyclable resources. However, heavy metals and organic pollutants were released into the environment during the e-waste dismantling and recycling processes, which resulted in severe soil pollution and brought huge risk to the environment and human health around the e-waste dismantling area. In this review, we discussed the migration behavior and risk of soil pollutants in the e-waste dismantling area. Ecological risk assessment of soil pollution including index methods, model-based methods, extrapolation methods and ecotoxicology methods were summarized. In parallel, human health risk assessment consisting of extracorporeal quantitative assessment methods and internal exposure assessment methods were overviewed. Meanwhile, frontiers of these methods in studying the ecological and health risks of the e-waste dismantling area were reviewed. Finally, we pointed out some shortcomings persisted in ecological and health risks assessments of soil pollution. We highlighted pollutants existing forms in soil were not considered in the current risk assessment. We proposed the impact of pollutants on the basic components of ecosystem should be included in the current ecological risk assessment model. The basic data of health risk quantitative assessment and biomarker method of internal exposure assessment need to be refined. Furthermore, we put forward approaches to deal with ecological and human health risks triggered by e-waste dismantling. We hope this review can inspire in-depth understanding of the ecological and human health risks of e-waste dismantling area soil.
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Key words:
- e-waste /
- soil combined pollution /
- ecological risk /
- health risk /
- migration behavior
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United Nations Environmental Programme (UNEP). E-waste volume Ⅰ:Inventory assessment manual[R]. Osaka:United Nations Environmental Programme, 2007 Zeng X L, Ali S H, Tian J P, et al. Mapping anthropogenic mineral generation in China and its implications for a circular economy[J]. Nature Communications, 2020, 11(1):1544 赵高峰. 电子垃圾中多氯联苯的环境转移和潜在的健康风险[D]. 北京:中国科学院研究生院, 2006:3 Zhao G F. Studies on environmental transfer and potential health risk of polychlorinated biphenyls from electrical and electronic waste[D]. Beijing:Graduate School of Chinese Academy of Sciences, 2006:3(in Chinese) Orlins S, Guan D. China's toxic informal e-waste recycling:Local approaches to a global environmental problem[J]. Journal of Cleaner Production, 2016, 114:71-80 Robinson B H. E-waste:An assessment of global production and environmental impacts[J]. Science of the Total Environment, 2009, 408(2):183-191 He K L, Sun Z H, Hu Y A, et al. Comparison of soil heavy metal pollution caused by e-waste recycling activities and traditional industrial operations[J]. Environmental Science and Pollution Research International, 2017, 24(10):9387-9398 Zhang J Q, Jiang Y S, Zhou J, et al. Elevated body burdens of PBDEs, dioxins, and PCBs on thyroid hormone homeostasis at an electronic waste recycling site in China[J]. Environmental Science & Technology, 2010, 44(10):3956-3962 Ni W Q, Huang Y, Wang X L, et al. Associations of neonatal lead, cadmium, chromium and nickel co-exposure with DNA oxidative damage in an electronic waste recycling town[J]. The Science of the Total Environment, 2014, 472:354-362 Wang Y, Sun X H, Fang L Y, et al. Genomic instability in adult men involved in processing electronic waste in Northern China[J]. Environment International, 2018, 117:69-81 Liu L, Zhang B, Lin K, et al. Thyroid disruption and reduced mental development in children from an informal e-waste recycling area:A mediation analysis[J]. Chemosphere, 2018, 193:498-505 张昱, 胡君利, 白建峰, 等. 电子废弃物拆解区周边农田土壤重金属污染评价及成因解析[J]. 生态环境学报, 2017, 26(7):1228-1234 Zhang Y, Hu J L, Bai J F, et al. Contamination assessment and genesis analysis of heavy metals in farmland soils around a waste electrical and electronic equipments disassembling area[J]. Ecology and Environmental Sciences, 2017, 26(7):1228-1234(in Chinese)
罗敏. 清远龙塘镇-石角镇电子垃圾拆解区土壤重金属污染调查与评价[D]. 广州:广州大学, 2018:4 Luo M. Investigation and evaluation of heavy metal pollution in soil of e-waste dismantling area in longtang town, Shijiao town, Qingyuan County[D]. Guangzhou:Guangzhou University, 2018:4(in Chinese) 吴文成, 宋清梅, 刘谞承, 等. 电子废物拆解区典型用地土壤重金属分布特征[J]. 中国环境科学, 2018, 38(7):2632-2638 Wu W C, Song Q M, Liu X C, et al. Distribution pattern of heavy metals in soils with respect to typical land uses in electronic waste recycling region[J]. China Environmental Science, 2018, 38(7):2632-2638(in Chinese)
韩张雄, 万的军, 胡建平, 等. 土壤中重金属元素的迁移转化规律及其影响因素[J]. 矿产综合利用, 2017(6):5-9 Han Z X, Wan D J, Hu J P, et al. Migration and transformation of heavy metals in soil and its influencing factors[J]. Multipurpose Utilization of Mineral Resources, 2017 (6):5-9(in Chinese)
McLaren R G, Williams J G, Swift R S. The adsorption of copper by soil samples from Scotland at low equilibrium solution concentrations[J]. Geoderma, 1983, 31(2):97-106 Islam S, Ahmed K, Habibullah-Al-Mamun, et al. Potential ecological risk of hazardous elements in different land-use urban soils of Bangladesh[J]. Science of the Total Environment, 2015, 512-513:94-102 王美, 李书田, 马义兵, 等. 长期不同施肥措施对土壤和作物重金属累积的影响[J]. 农业环境科学学报, 2014, 33(1):63-74 Wang M, Li S T, Ma Y B, et al. Effect of long-term fertilization on heavy metal accumulation in soils and crops[J]. Journal of Agro-Environment Science, 2014, 33(1):63-74(in Chinese)
Cheng Z N, Wang Y, Wang S R, et al. The influence of land use on the concentration and vertical distribution of PBDEs in soils of an e-waste recycling region of South China[J]. Environmental Pollution, 2014, 191:126-131 Wang J X, Liu L L, Wang J F, et al. Distribution of metals and brominated flame retardants (BFRs) in sediments, soils and plants from an informal e-waste dismantling site, South China[J]. Environmental Science and Pollution Research International, 2015, 22(2):1020-1033 张胜军, 周欣, 李沐霏, 等. 电子垃圾拆解区周边农田土壤中多溴联苯醚污染特征及其环境迁移行为研究[J]. 环境污染与防治, 2018, 40(7):819-823 Zhang S J, Zhou X, Li M F, et al. Pollution characteristics and environmental transport behavior of PBDEs in agriculture soil around an electronic waste dismantling venue[J]. Environmental Pollution & Control, 2018, 40(7):819-823(in Chinese)
何旭丹, 徐琳, 张春晖, 等. 台州电子垃圾拆解地土壤中甲基硅氧烷的污染特征[J]. 环境化学, 2016, 35(11):2287-2294 He X D, Xu L, Zhang C H, et al. Pollution characteristics of methyl siloxanes in soil from an electronic waste (e-waste) dismantling area in Taizhou, China[J]. Environmental Chemistry, 2016, 35(11):2287-2294(in Chinese)
Rodríguez L, Ruiz E, Alonso-Azcárate J, et al. Heavy metal distribution and chemical speciation in tailings and soils around a Pb-Zn mine in Spain[J]. Journal of Environmental Management, 2009, 90(2):1106-1116 Buccolieri A, Buccolieri G, Dell'Atti A, et al. Monitoring of total and bioavailable heavy metals concentration in agricultural soils[J]. Environmental Monitoring and Assessment, 2010, 168(1-4):547-560 Hong C, Si Y X, Xing Y, et al. Illumina MiSeq sequencing investigation on the contrasting soil bacterial community structures in different iron mining areas[J]. Environmental Science and Pollution Research International, 2015, 22(14):10788-10799 Kwon M J, Yang J S, Lee S, et al. Geochemical characteristics and microbial community composition in toxic metal-rich sediments contaminated with Au-Ag mine tailings[J]. Journal of Hazardous Materials, 2015, 296:147-157 Renella G, Ortigoza A L R, Landi L, et al. Additive effects of copper and zinc on cadmium toxicity on phosphatase activities and ATP content of soil as estimated by the ecological dose (ED50)[J]. Soil Biology and Biochemistry, 2003, 35(9):1203-1210 Wang Y P, Shi J Y, Wang H, et al. The influence of soil heavy metals pollution on soil microbial biomass, enzyme activity, and community composition near a copper smelter[J]. Ecotoxicology and Environmental Safety, 2007, 67(1):75-81 Hagmann D F, Goodey N M, Mathieu C, et al. Effect of metal contamination on microbial enzymatic activity in soil[J]. Soil Biology and Biochemistry, 2015, 91:291-297 尹芳华, 杨洁, 杨彦. 电子废弃物拆解旧场地土壤重金属污染特征及生态风险评价初探[J]. 安徽农业科学, 2013, 41(5):2218-2221 Yin F H, Yang J, Yang Y. Typical characteristics of soil heavy metal pollution of a land where deserted electronic equipment was taken apart and assessment of its ecological risk[J]. Journal of Anhui Agricultural Sciences, 2013, 41(5):2218-2221(in Chinese)
林晓峰, 蔡兆亮, 胡恭任. 土壤重金属污染生态风险评价方法研究进展[J]. 环境与健康杂志, 2010, 27(8):749-751 Lin X F, Cai Z L, Hu G R. Research progress on ecological risk assessment methods for heavy metal contamination in soil[J]. Journal of Environment and Health, 2010, 27(8):749-751(in Chinese)
范拴喜, 甘卓亭, 李美娟, 等. 土壤重金属污染评价方法进展[J]. 中国农学通报, 2010, 26(17):310-315 Fan S X, Gan Z T, Li M J, et al. Progress of assessment methods of heavy metal pollution in soil[J]. Chinese Agricultural Science Bulletin, 2010, 26(17):310-315(in Chinese)
裴廷权, 王里奥, 包亮, 等. 三峡库区小江流域土壤重金属的分布特征与评价分析[J]. 土壤通报, 2010, 41(1):206-211 Pei T Q, Wang L, Bao L, et al. Distribution characteristics and evaluation of soil heavy metals in water-level-fluctuating zone in Xiaojiang River[J]. Chinese Journal of Soil Science, 2010, 41(1):206-211(in Chinese)
宋恒飞, 吴克宁, 刘霈珈. 土壤重金属污染评价方法研究进展[J]. 江苏农业科学, 2017, 45(15):11-14 Zhao W T, Ding L, Gu X W, et al. Levels and ecological risk assessment of metals in soils from a typical e-waste recycling region in southeast China[J]. Ecotoxicology, 2015, 24(9):1947-1960 韦绪好, 孙庆业, 程建华, 等. 焦岗湖流域农田土壤重金属污染及潜在生态风险评价[J]. 农业环境科学学报, 2015, 34(12):2304-2311 Wei X H, Sun Q Y, Cheng J H, et al. Pollution and potential ecological risk assessment of heavy metals in farmland soils in Jiaogang Lake Basin, China[J]. Journal of Agro-Environment Science, 2015, 34(12):2304-2311(in Chinese)
滕彦国, 庹先国, 倪师军, 等. 应用地质累积指数评价攀枝花地区土壤重金属污染[J]. 重庆环境科学, 2002(4):25-27, 31 Teng Y G, Tuo X G, Ni S J, et al. Applying the index of geoaccumulation to evaluate heavy metal pollution in soil in Panzhihua region[J]. Chongqing Environmental Science, 2002(4):25-27, 31(in Chinese)
李定龙, 杨洁, 杨彦, 等. 电子废弃物拆解场地土壤重金属健康风险评价[J]. 环境与健康杂志, 2012, 29(6):547-549 刘育辰, 王莉淋, 伍钧, 等. 四川城市生活垃圾重金属污染状况及来源分析[J]. 环境工程学报, 2015, 9(12):6010-6018 Liu Y C, Wang L L, Wu J, et al. Pollution and source analysis of heavy metals in municipal solid waste in Sichuan[J]. Chinese Journal of Environmental Engineering, 2015, 9(12):6010-6018(in Chinese)
Hakanson L. An ecological risk index for aquatic pollution control. A sedimentological approach[J]. Water Research, 1980, 14(8):975-1001 Amphalop N, Suwantarat N, Prueksasit T, et al. Ecological risk assessment of arsenic, cadmium, copper, and lead contamination in soil in e-waste separating household area, Buriram Province, Thailand[J]. Environmental Science and Pollution Research International, 2020, 27(35):44396-44411 郭笑笑, 刘丛强, 朱兆洲, 等. 土壤重金属污染评价方法[J]. 生态学杂志, 2011, 30(5):889-896 Guo X X, Liu C Q, Zhu Z Z, et al. Evaluation methods for soil heavy metals contamination:A review[J]. Chinese Journal of Ecology, 2011, 30(5):889-896(in Chinese)
苏婷, 董胜伟. 层次分析综合指数法的土壤重金属污染评价模型[J]. 唐山师范学院学报, 2014, 36(5):7-10 Su T, Dong S W. Mathematical model of comprehensive weighted factors based on analytic hierarchy process for evaluation soil heavy metal pollution[J]. Journal of Tangshan Teachers College, 2014, 36(5):7-10(in Chinese)
雷国建, 陈志良, 刘千钧, 等. 污染场地土壤重金属污染评价方法研究进展[C]//中国环境科学学会. 2013中国环境科学学会学术年会论文集(第四卷). 昆明:2013中国环境科学学会学术年会, 2013:1204-1209 朱青, 周生路, 孙兆金, 等. 两种模糊数学模型在土壤重金属综合污染评价中的应用与比较[J]. 环境保护科学, 2004, 30(3):53-57 Zhu Q, Zhou S L, Sun Z J, et al. Application and comparison of two fuzzy mathematical models used in the evaluation of soil heavy metals' comprehensive pollution[J]. Environmental Protection Science, 2004, 30(3):53-57(in Chinese)
Zadeh L A. Fuzzy sets[J]. Information and Control, 1965, 8:338-353 段志斌, 王济, 宣斌, 等. 改进模糊数学法在土壤重金属污染评价中的应用[J]. 安徽农业大学学报, 2018, 45(1):131-137 Duan Z B, Wang J, Xuan B, et al. Application of fuzzy mathematical model in pollution evaluation of soil heavy metals[J]. Journal of Anhui Agricultural University, 2018, 45(1):131-137(in Chinese)
张锐. 耕地生态风险评价与调控研究——以江苏省宜兴市为例[D]. 南京:南京农业大学, 2015:66 Zhang R. Study on the evaluation and regulation of cultivated land ecological risk-Taking Yixing City in Jiangsu Province as an example[D]. Nanjing:Nanjing Agricultural University, 2015:66(in Chinese) 苏全龙, 周生路, 易昊旻, 等. 几种区域土壤重金属污染评价方法的比较研究[J]. 环境科学学报, 2016, 36(4):1309-1316 Su Q L, Zhou S L, Yi H M, et al. A comparative study of different assessment methods of regional heavy metal pollution[J]. Acta Scientiae Circumstantiae, 2016, 36(4):1309-1316(in Chinese)
秦顺超, 张焕祯, 郭伟, 等. 土壤重金属污染评价方法研究进展[J]. 环境工程, 2018, 36:726-735 Qin S C, Zhang H Z, Guo W, et al. Progress of assessment methods of heavy metal pollution in soil[J]. Environmental Engineering, 2018 , 36:726-735(in Chinese)
范明毅, 杨皓, 黄先飞, 等. 典型山区燃煤型电厂周边土壤重金属形态特征及污染评价[J]. 中国环境科学, 2016, 36(8):2425-2436 Fan M Y, Yang H, Huang X F, et al. Chemical forms and risk assessment of heavy metals in soils around a typical coal-fired power plant located in the mountainous area[J]. China Environmental Science, 2016, 36(8):2425-2436(in Chinese)
王洪礼, 冯详立. 基于投影寻踪回归理论的UPR消费量预测研究[J]. 生产力研究, 2006(12):109-110 谢贤健, 韩光中. 基于普通克里格和投影寻踪模型的城市土壤重金属污染评价[J]. 生态环境学报, 2017, 26(9):1584-1590 Xie X J, Han G Z. Evaluation of soil heavy metal pollution in Neijiang City based on ordinary kriging and projection pursuit model[J]. Ecology and Environmental Sciences, 2017, 26(9):1584-1590(in Chinese)
张小虎, 雷国平, 袁磊, 等. 黑龙江省土地生态安全评价[J]. 中国人口·资源与环境, 2009, 19(1):88-93 Zhang X H, Lei G P, Yuan L, et al. Evaluation on ecological security of land based on entropy weight and matter-element model:A case study of Heilongjiang Province[J]. China Population Resources and Environment, 2009, 19(1):88-93(in Chinese)
王晓飞, 魏萌萌, 温中海, 等. 物元分析法在土壤重金属污染评价中的应用[J]. 中国环境监测, 2016, 32(3):69-73 Wang X F, Wei M M, Wen Z H, et al. Application of matter element analysis method in the evaluation of soil heavy metal pollution[J]. Environmental Monitoring in China, 2016, 32(3):69-73(in Chinese)
刘维明, 王晓飞, 魏萌萌, 等. 基于物元分析法的农田土壤重金属污染评价[J]. 浙江农业学报, 2015, 27(2):249-253 Liu W M, Wang X F, Wei M M, et al. Assessment on soil heavy metals contamination by matter-element model[J]. Acta Agriculturae Zhejiangensis, 2015, 27(2):249-253(in Chinese)
Öberg T, Bergbäck B. A review of probabilistic risk assessment of contaminated land[J]. Journal of Soils and Sediments, 2005, 5(4):213-224 刘良, 颜小品, 王印, 等. 应用物种敏感性分布评估多环芳烃对淡水生物的生态风险[J]. 生态毒理学报, 2009, 4(5):647-654 Liu L, Yan X P, Wang Y, et al. Assessing ecological risks of polycyclic aromatic hydrocarbons (PAHs) to freshwater organisms by species sensitivity distributions[J]. Asian Journal of Ecotoxicology, 2009, 4(5):647-654(in Chinese)
文晨, 杨虹, 卢学强, 等. 基于物种敏感性分布法的生态风险评价研究进展[J]. 安全与环境学报, 2017, 17(1):353-357 Wen C, Yang H, Lu X Q, et al. Research advances in the ecological risk assessment based on the species sensitivity distributions[J]. Journal of Safety and Environment, 2017, 17(1):353-357(in Chinese)
徐湘博, 马中, 王瑛莹, 等. 湖南长株潭中度污染区土壤镉概率生态风险评价[J]. 环境保护科学, 2017, 43(4):115-121 Xu X B, Ma Z, Wang Y Y, et al. Probabilistic ecological risk assessment of cadmium in the soils of Changsha-Zhuzhou Xiangtan area of Hunan Province[J]. Environmental Protection Science, 2017, 43(4):115-121(in Chinese)
王立婷, 刘仁志. 土壤污染风险评价研究进展[J]. 中国环境管理, 2020, 12(2):62-68 Wang L T, Liu R Z. Research progress on soil pollution risk assessment[J]. Chinese Journal of Environmental Management, 2020, 12(2):62-68(in Chinese)
张倩倩, 乔敏, 池海峰. 土壤生态毒性测试方法综述[J]. 生态毒理学报, 2017, 12(4):76-97 Zhang Q Q, Qiao M, Chi H F. Overview of soil ecotoxicity tests[J]. Asian Journal of Ecotoxicology, 2017, 12(4):76-97(in Chinese)
Santorufo L, van Gestel C A, Rocco A, et al. Soil invertebrates as bioindicators of urban soil quality[J]. Environmental Pollution, 2012, 161:57-63 Zhang Q, Ye J J, Chen J Y, et al. Risk assessment of polychlorinated biphenyls and heavy metals in soils of an abandoned e-waste site in China[J]. Environmental Pollution, 2014, 185:258-265 International Organization for Standardization (ISO). ISO 11269-1 Soil Quality-Determination of the effects of pollutants on soil flora-Part 1:Method for the measurement of inhibition of root growth[S]. Geneva:ISO, 2012 International Organization for Standardization (ISO). ISO 11269-2 Soil Quality-Determination of the effects of pollutants on soil flora-Part 2:Effects of chemicals on the emergence and growth of higher plants[S]. Geneva:ISO, 2005 International Organization for Standardization (ISO). ISO 17126 Soil Quality-Determination of the effects of pollutants on soil flora-Screening test for emergence of lettuce seedlings (Lactuca sativa L.)[S]. Geneva:ISO, 2005 International Organization for Standardization (ISO). ISO 22030 Soil Quality-Biological methods-Chronic toxicity in higher plants[S]. Geneva:ISO, 2005 张俊会. 电子废物拆解区水稻田的重金属污染、生态毒性及其微生物修复研究[D]. 杭州:浙江大学, 2009:30-35 Zhang J H. Metal contamination evaluation, eco-toxicity and microbial remediation of paddy soil located in e-waste recycling area[D]. Hangzhou:Zhejiang University, 2009:30 -35(in Chinese)
Office of Environmental Health Hazard Assessment (OEHHA). Soil toxicity and bioassessment test methods for ecological risk assessment[R]. Sacramento, CA, USA:California Environmental Protection Agency, 2008 张金莲, 丁疆峰, 林浩忠, 等. 电子垃圾拆解区农田土壤微生物群落结构研究[J]. 环境科学与技术, 2018, 41(4):96-102 , 181 Zhang J L, Ding J F, Lin H Z, et al. Microbial communities of farmland soils nearby e-waste dismantling site[J]. Environmental Science & Technology, 2018, 41(4):96-102, 181(in Chinese)
Spurgeon D J, Ricketts H, Svendsen C, et al. Hierarchical responses of soil invertebrates (earthworms) to toxic metal stress[J]. Environmental Science & Technology, 2005, 39(14):5327-5334 van Gestel C A. Soil ecotoxicology:State of the art and future directions[J]. ZooKeys, 2012(176):275-296 National Research Council. Risk assessment in the Federal Government:Managing the process-committee on the institutional means for assessment of risks to public health, Commission on Life Sciences, National Research Council[R]. Washington DC:National Academy Press, 1983 李宏伟. 污染场地风险评价的模型修正研究与应用[D]. 大连:大连理工大学, 2014:23-35 Li H W. Study and application of model modification for risk assessment of contaminated sites[D]. Dalian:Dalian University of Technology, 2014:23 -35(in Chinese)
Singh M, Thind P S, John S. Health risk assessment of the workers exposed to the heavy metals in e-waste recycling sites of Chandigarh and Ludhiana, Punjab, India[J]. Chemosphere, 2018, 203:426-433 杨彦, 温馨, 彭明国, 等. 电子垃圾拆解区多溴联苯污染特征及健康风险[J]. 中国环境科学, 2017, 37(12):4781-4789 Yang Y, Wen X, Peng M G, et al. Characteristics and risk assessment of polybrominated biphenyls from electronic waste dismantling places[J]. China Environmental Science, 2017, 37(12):4781-4789(in Chinese)
李成. 固废拆解污染区与修复区蔬菜多氯联苯污染及其健康风险评估[D]. 杭州:浙江大学, 2016:49-54 Li C. Pollution and health risk assessment of PCBs in vegetables in e-waste recycling pollution area and remediated area[D]. Hangzhou:Zhejiang University, 2016:49 -54(in Chinese)
Tang X J, Shen C F, Shi D Z, et al. Heavy metal and persistent organic compound contamination in soil from Wenling:An emerging e-waste recycling city in Taizhou area, China[J]. Journal of Hazardous Materials, 2010, 173(1-3):653-660 Yuan B, Fu J J, Wang Y W, et al. Short-chain chlorinated paraffins in soil, paddy seeds (Oryza sativa) and snails (Ampullariidae) in an e-waste dismantling area in China:Homologue group pattern, spatial distribution and risk assessment[J]. Environmental Pollution, 2017, 220(Pt A):608-615 姜林, 梁竞, 钟茂生, 等. 复杂污染场地的风险管理挑战及应对[J]. 环境科学研究, 2021, 34(2):458-467 Jiang L, Liang J, Zhong M S, et al. Challenges and response to risk management of complex contaminated sites[J]. Research of Environmental Sciences, 2021, 34(2):458-467(in Chinese)
李志博, 骆永明, 宋静, 等. 土壤环境质量指导值与标准研究Ⅱ·污染土壤的健康风险评估[J]. 土壤学报, 2006, 43(1):142-151 Li Z B, Luo Y M, Song J, et al. Study on soil environmental quality guidelines and standardsⅡ. Health risk assessment of polluted soils[J]. Acta Pedologica Sinica, 2006, 43(1):142-151(in Chinese)
Zeng X, Xu X J, Boezen H M, et al. Children with health impairments by heavy metals in an e-waste recycling area[J]. Chemosphere, 2016, 148:408-415 Foullon Aguilera M, Mejía Saucedo R, Calderón Hernández J, et al. Assessment of exposure to persistent organic pollutants and alteration on thyroid hormone levels in Mexican children from a community dedicated to electronic waste recycling[J]. Toxicology Letters, 2016, 259:S118 Zheng G N, Xu X J, Li B, et al. Association between lung function in school children and exposure to three transition metals from an e-waste recycling area[J]. Journal of Exposure Science & Environmental Epidemiology, 2013, 23(1):67-72 Li Z G, Li X Q, Qian Y, et al. The sustaining effects of e-waste-related metal exposure on hypothalamus-pituitary-adrenal axis reactivity and oxidative stress[J]. The Science of the Total Environment, 2020, 739:139964 Hou R K, Huo X, Zhang S C, et al. Elevated levels of lead exposure and impact on the anti-inflammatory ability of oral sialic acids among preschool children in e-waste areas[J]. The Science of the Total Environment, 2020, 699:134380 Xu L, Huo X, Liu Y, et al. Hearing loss risk and DNA methylation signatures in preschool children following lead and cadmium exposure from an electronic waste recycling area[J]. Chemosphere, 2020, 246:125829 Jusko T A, Henderson C R, Lanphear B P, et al. Blood lead concentrations < 10 microg/dL and child intelligence at 6 years of age[J]. Environmental Health Perspectives, 2008, 116(2):243-248 Chen L, Guo H, Yuan J, et al. Polymorphisms of GSTT1 and GSTM1 and increased micronucleus frequencies in peripheral blood lymphocytes in residents at an e-waste dismantling site in China[J]. Journal of Environmental Science and Health Part A, Toxic/Hazardous Substances & Environmental Engineering, 2010, 45(4):490-497 Yuan J, Chen L, Chen D H, et al. Elevated serum polybrominated diphenyl ethers and thyroid-stimulating hormone associated with lymphocytic micronuclei in Chinese workers from an e-waste dismantling site[J]. Environmental Science & Technology, 2008, 42(6):2195-2200 Zeng Z J, Huo X, Zhang Y, et al. Differential DNA methylation in newborns with maternal exposure to heavy metals from an e-waste recycling area[J]. Environmental Research, 2019, 171:536-545 Xu X J, Zhang Y L, Yekeen T A, et al. Erratum to:Increase male genital diseases morbidity linked to informal electronic waste recycling in Guiyu, China[J]. Environmental Science and Pollution Research, 2014, 21(19):11610 Wu K S, Xu X J, Liu J X, et al. Polybrominated diphenyl ethers in umbilical cord blood and relevant factors in neonates from Guiyu, China[J]. Environmental Science & Technology, 2010, 44(2):813-819 Wu K S, Xu X J, Liu J X, et al. In utero exposure to polychlorinated biphenyls and reduced neonatal physiological development from Guiyu, China[J]. Ecotoxicology and Environmental Safety, 2011, 74(8):2141-2147 Huang X F, Xu X J, Dai Y F, et al. Association of prenatal exposure to PAHs with anti-Müllerian hormone (AMH) levels and birth outcomes of newborns[J]. Science of the Total Environment, 2020, 723:138009 Asamoah A, Essumang D K, Muff J, et al. Assessment of PCBs and exposure risk to infants in breast milk of primiparae and multiparae mothers in an electronic waste hot spot and non-hot spot areas in Ghana[J]. The Science of the Total Environment, 2018, 612:1473-1479 范瑞芳. 广州等城市中学生与电子垃圾拆解地——贵屿镇人群尿中多环芳烃羟基代谢物的初步研究[D]. 北京:中国科学院研究生院, 2007:11-14 Fan R F. Preliminary study of urinary PAHs metabolites for students in Pearl River Delta and occupational population in Guiyu-An electronic waste recycling site[D]. Beijing:Graduate School of Chinese Academy of Sciences, 2007:11 -14(in Chinese)
Li Y, Xu X J, Liu J X, et al. The hazard of chromium exposure to neonates in Guiyu of China[J]. The Science of the Total Environment, 2008, 403(1-3):99-104 Liu L, Zhang B, Lin K, et al. Thyroid disruption and reduced mental development in children from an informal e-waste recycling area:A mediation analysis[J]. Chemosphere, 2018, 193:498-505 Wu K S, Xu X J, Peng L, et al. Association between maternal exposure to perfluorooctanoic acid (PFOA) from electronic waste recycling and neonatal health outcomes[J]. Environment International, 2012, 48:1-8 赵高峰. 电子垃圾中多氯联苯的环境转移和潜在的健康风险[D]. 北京:中国科学院研究生院, 2006:39-68 Zhao G F. Studies on environmental transfer and potential health risk of polychlorinated biphenyls from electrical and electronic waste[D]. Beijing:Graduate School of Chinese Academy of Sciences, 2006:39 -68(in Chinese)
Arain A L, Neitzel R L. A review of biomarkers used for assessing human exposure to metals from e-waste[J]. International Journal of Environmental Research and Public Health, 2019, 16(10):1802 刘晨宇, 田爱民, 孙菲, 等. 生态风险评价方法与应用研究进展[J]. 科技管理研究, 2020, 40(2):79-83 Liu C Y, Tian A M, Sun F, et al. Progress of ecological risk assessment methods and applications[J]. Science and Technology Management Research, 2020, 40(2):79-83(in Chinese)
United States Environmental Protection Agency. Field analytical and site characterization technologies summary of application[R]. Washington DC:Office of Solid Waste and Emergency Response, 1997 -
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