Heavy metal pollution characteristics and health evaluation of farmland soil in a gold mine slag area of Luoyang in China
Abstract
Keywords: historical slag area, heavy metals, pollution assessment, health assessment, farmland soil, ecological hazard
DOI: 10.25165/j.ijabe.20211405.6536
Citation: Wang H, Zhang H, Xu R K. Heavy metal pollution characteristics and health evaluation of farmland soil in a gold mine slag area of Luoyang in China. Int J Agric & Biol Eng, 2021; 14(5): 213–221.
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Luoyang Natural Resources and Planning Bureau.Luoyang City Mineral Resources Master Plan (2016-2020). http://lybnrp.ly.gov.cn/html/1/271/ 277/419/17789. Accessed on [2018-01-10] (in Chinese)
Xu Q L, Chen Y H, Xie T H, Wang G. Current status and evaluation of heavy metal pollution in farmland soils in lead-zinc mining areas. Environmental Science and Technology, 2018; 41(2): 176–182. (in Chinese)
Yang X H, Wang H W, Yang S J, Wang H, Wen L. Experimental study on lead slag used in mine filling gelling agent. Gold, 2013; 34(345): 51–56. (in Chinese)
Dorota R, Weronika N, Jerzy C. Forms of heavy metals (Zn, Pb, Cd) occurring in rhizospheres from the areas of former and contemporary Zn-Pb ore mining. Min Sci., 2015; 22: 125–138.
Warchulski R, Gawęda A, Kądziołka G M, Szopa K. Composition and element mobilization in pyrometallurgical slags from the Orzeł Biały smelting plant in the Bytom–Piekary Śląskie area, Poland. Mineralogical Magazine, 2015; 79(2): 459–484.
Wang S M, Li T S, Jia H S. Soil pollution and bioremediation technology in mineral development. Mining Safety and Environmental Protection, 2004; 31(6): 41–43. (in Chinese).
Gao W Q, Yang X S. Comprehensive countermeasures of historical residues in a tungsten mining area. Nonferrous Mets (Mining Section), 2014; 66(3): 48–52. (in Chinese).
Gu H K. A design example of the disposal of historical cyanidation waste residue in a mining area. Hunan Nonferrous Met, 2017; 33(1): 61–65 (in Chinese)
Chen M, Lu W X, Hou Z Y, Zhang Y, Jiang X, Wu J C. Heavy metal pollution in soil associated with a large-scale cyanidation gold mining region in southeast of Jilin. Environmental Science and Pollution Research, 2017; 24(3): 3084–3096.
Cao F F, Kong L H, Yang L Y, Zhang W. Geochemical fractions and risk assessment of trace elements in soils around Jiaojia gold mine in Shandong Province. Environmental Science & Pollution Research, 2015; 22(17): 13496–13505.
Feng X B, Dai Q Q, Qiu G L, Li G H, He L, Wang D Y. Gold mining related mercury contamination in Tongguan, Shaanxi Province, PR China. Applied Geochemistry, 2006; 21(11): 1955–1968.
Lü J, Jiao W B, Qiu H Y, Chen B, Huang X X. Origin and spatial distribution of heavy metals and carcinogenic risk assessment in mining areas at You’xi County Southeast China. Geoderma, 2018; 310: 99–106.
Zhong T, Xue D, Zhao L, Zhang X. Concentration of heavy metals in vegetables and potential health risk assessment in China. Environ Geochem Health, 2018; 40(1): 313–322.
Cai L M, Wang Q S, Luo J, Chen L G, Zhu R L. Heavy metal contamination and health risk assessment for children near a large Cu-smelter in central China. Science of the Total Environment, 2019; 650: 725–733.
Jung M C, Thornton I. Heavy metal contamination of soils and plants in the vicinity of a lead-zinc mine, Korea. Applied Geochemistry, 1996; 11(1-2): 53–59.
Karim Z, Qureshi B A. Health risk assessment of heavy metals in urban soil of Karachi, Pakistan. Human & Ecological Risk Assessment an International Journal, 2014; 20(3-4): 658–667.
Sun Z H, Xie X D, Wang P, Hu Y N, Cheng H F. Heavy metal pollution caused by small-scale metal ore mining activities: A case study from a polymetallic mine in South China. Science of the Total Environment, 2018; 639: 217–227.
Grzetic I, Ghariani A. Potential health risk assessment for soil heavy metal contamination in the central zone of Belgrade (Serbia). Journal of the Serbian Chemical Society, 2008; 73(8-9): 923–934.
Tao M X, Hu H, Hu L W, Chen M, Yang Q, Li F G, et al. Soil heavy metal pollution characteristics and health risk assessment of a copper mine wasteland in Shangrao City. Journal of Ecological Environment, 2018; 27(6): 1153–1159.
Nie J X, Xiong C S, Chen M, Luo X P, Zhang Z Q. Evaluation of heavy metal pollution characteristics and health risk assessment of vegetable soil in Xihuashan Tungsten Mining Area. Nonferrous Metal Engineering, 2016; 6(03): 77–82, 92.
Huang J H, Liu W C, Zeng G M, Li F, Huang X L, Gu Y L. An exploration of spatial human health risk assessment of soil toxic metals under different land uses using sequential indicator simulation. Ecotoxicology and Environmental Safety, 2016; 129: 199–209.
Karim Z, Qureshi B A. Health risk assessment of heavy metals in urban soil of Karachi, Pakistan. Human & Ecological Risk Assessment an International Journal, 2014; 20(3): 658–667.
Houri M, Haddioui A. Human and animal health risk assessment of metal contamination in soil and plants from Ait Ammar abandoned iron mine, Environmental Monitoring & Assessment, 2016; 188(1): 6
US Environmental Protection Agency. Exposure Factors Handbook 2011 Edition (final). Washington, DC, 2011.
Li Y W, Wang J, Ju T Z, Wang L, Lin N, Zhang S N. Characteristics and health risk assessment of heavy metal pollution in soil in different functional areas of Baiyin City. Journal of Ecology, 2017; 36(5): 1408–1418 (in Chinese)
Wang Y Y, Li F F, Wang X Y, Yang Z H, Han K, Ruan X L. Spatial distribution characteristics and risk assessment of heavy metal pollution in farmland soil around lead-zinc smelter. Environmental Science, 2019; 40(1): 437–444. (in Chinese)
Wang LF, Bai Y X, Gai S N. Single-factor and nemerow multi-factor index to assess heavy metals contamination in soils on railway side of Harbin-Suifenhe Railway in Northeastern China. Applied Mechanics and Materials, 2011; 71-78: 3033–3036.
Hakanson L. An ecological risk index for aquatic pollution control. A sedimentological approach. Water Research, 1980; 14(8): 975–1001.
Xu Q L, Chen Y H, Xie T H, Wang G. Status and evaluation of heavy metal pollution in farmland soils in lead-zinc mining areas. Environmental Science and Technology, 2018; 41(2): 176–182. (in Chinese)
Duan X L. Research methods of exposure parameters and its application in environmental health risk assessment. Science Press, 2012. (in Chinese)
Ministry of Ecology and Environmental Protection of the People’s Republic of China. Soil Environmental Quality Agricultural Land Risk Control and Control Standards (Trial) GB 15618-2018. Beijing: China National Standards Press. (in Chinese)
Shao F S, Zhou Y Y. Background value of soil environment of main elements in Henan Province. Henan Agriculture, 1998; 10: 28 (in Chinese)
Gosar M, Žibret G. Mercury contents in the vertical profiles through alluvial sediments as a reflection of mining in Idrija (Slovenia). Journal of Geochemical Exploration, 2011; 110: 81–91.
Xu Q, Gong J G, Zhao S J, Li C X, Yin J W. Analysis of soil heavy metal accumulation and pollution evaluation in Jinchuan District of Jinchang City. Arid Land Resources and Environment, 2019; 33(11): 150–155. (in Chinese)
Ni X K, Feng X, Yu Y, Jiang X X, Li Z C, Li Y. Characteristics and genesis of heavy metal pollution in soil around typical solid waste treatment and disposal sites. Journal of Agricultural Environment Sciences, 2019; 38(9): 2146–2156. (in Chinese)
Sun Z H, Xie X D, Wang P, Hu Y N, Cheng H F. Heavy metal pollution caused by small-scale metal ore mining activities: A case study from a polymetallic mine in South China. Science of the Total Environment, 2018; 639: 217–227.
Šajn R, Gosar M. An overview of some localities in Slovenia that became
polluted due to past mining and metallurgic activities. Geologija, 2004; 47(2): 249–258.
Gosar M, Šajn R, Biester H. Binding of mercury in soils and attic dust in the Idrija mercury mine area (Slovenia). Science of the Total Environment, 2006; 369(1-3): 150–162.
Bamuwamye M. Cancer and non-cancer risks associated with heavy metal exposures from street foods: Evaluation of roasted meats in an urban setting. Nutrition Bulletin, 2015; 3(2): 24–30.
Zhou H, Yang W T, Zhou X, Liu L, Gu J F, Wang W L, et al. Accumulation of heavy metals in vegetable species planted in contaminated soils and the health risk assessment. International Journal of Environmental Research and Public Health, 2016; 13(3): 289. doi: 10.3390/ijerph13030289.
Deng X H, Chai L Y, Yang Z H, Yuan Y N. Study on the characteristics of heavy metal pollution in lead-zinc smelting waste residue yard. Journal of Eco-Environment, 2015; 24(9): 1534–1539. (in Chinese)
Jiang X F, Wu P, Zhang C P, Zhang R X. Analysis of environmental impact characteristics of heavy metals in typical zinc-smelting waste residue yard. Journal of Safety and Environment, 2014; 14(3): 293–297. (in Chinese)
Zhao J, Chen Z, Wang T, Xiang C, Luo M, Yuan H. Control of contaminant transport caused by open-air heavy metal slag in Zhehai, Southwest China. International Journal of Environmental Research and Public Health, 2019; 16(3): 443.
Yang X H, Wang H W, Yang S J, Wang H, Wen L. Experimental study on lead slag used in mine filling gelling agent. Gold, 2013; 34(345): 51–56. (in Chinese)
Zhang C L, Zhang W P, Cheng H D, Ren S Y, Liu C W, Li T. Heavy metal pollution status and health risk assessment of soil and crops around coal mining area in Yuzhou City. Environmental Chemistry, 2019; 38(4): 805–812. (in Chinese)
Zhang H, Wang H, Tang H Y, Wen J W, Li A N. Pollution characteristics and health risk assessment of heavy metals in soils and vegetables of lead-zinc tailings. Environmental Sciences, 2020, 40(3): 1085–1094. (in Chinese)
Technical Guidelines for Classification of Soil Environmental Quality of Agricultural Land (Trial). Beijing: Ministry of Ecology and Environment of the People's Republic of China. (in Chinese)
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