과제정보
본 연구는 환경부 환경산업기술원의 환경성질환사업(과제번호: RS-2021-KE002003) 수행 중 작성되었으며 이에 감사드립니다.
참고문헌
- Wang X, Liu E, Lin Q, Liu L, Yuan H, Li Z. Occurrence, sources and health risks of toxic metal(loid)s in road dust from a mega city (Nanjing) in China. Environ Pollut. 2020; 263(Pt A): 114518.
- Schweitzer MD, Calzadilla AS, Salamo O, Sharifi A, Kumar N, Holt G, et al. Lung health in era of climate change and dust storms. Environ Res. 2018; 163: 36-42.
- Soleimani Z, Teymouri P, Darvishi Boloorani A, Mesdaghinia A, Middleton N, Griffin DW. An overview of bioaerosol load and health impacts associated with dust storms: a focus on the Middle East. Atmos Environ. 2020; 223: 117187.
- Neira M, Erguler K, Ahmady-Birgani H, Al-Hmoud ND, Fears R, Gogos C, et al. Climate change and human health in the Eastern Mediterranean and Middle East: literature review, research priorities and policy suggestions. Environ Res. 2023; 216(Pt 2): 114537.
- Baek KM, Kim MJ, Kim JY, Seo YK, Baek SO. Characterization and health impact assessment of hazardous air pollutants in residential areas near a large iron-steel industrial complex in Korea. Atmos Pollut Res. 2020; 11(10): 1754-1766.
- Weschler CJ. Changes in indoor pollutants since the 1950s. Atmos Environ. 2009; 43(1): 153-169.
- Huang M, Wang W, Chan CY, Cheung KC, Man YB, Wang X, et al. Contamination and risk assessment (based on bioaccessibility via ingestion and inhalation) of metal(loid)s in outdoor and indoor particles from urban centers of Guangzhou, China. Sci Total Environ. 2014; 479-480: 117-124.
- Haque MM, Sultana S, Niloy NM, Quraishi SB, Tareq SM. Source apportionment, ecological, and human health risks of toxic metals in road dust of densely populated capital and connected major highway of Bangladesh. Environ Sci Pollut Res Int. 2022; 29(25): 37218-37233.
- Kaonga CC, Kosamu IBM, Utembe WR. A review of metal levels in urban dust, their methods of determination, and risk assessment. Atmosphere. 2021; 12(7): 891.
- Ren M, Deng Y, Ni W, Su J, Tong Y, Han X, et al. Sources analysis and health risk assessment of heavy metals in street dust from urban core of Zhengzhou, China. Sustainability. 2024; 16(17): 7604.
- Barrio-Parra F, De Miguel E, Lazaro-Navas S, Gomez A, Izquierdo M. Indoor dust metal loadings: a human health risk assessment. Expo Health. 2018; 10(1): 41-50.
- Liu B, Huang F, Yu Y, Li X, He Y, Gao L, et al. Heavy metals in indoor dust across China: occurrence, sources and health risk assessment. Arch Environ Contam Toxicol. 2021; 81(1): 67-76.
- Lafta MH, Afra A, Patra I, Jalil AT, Mohammadi MJ, Baqir Al-Dhalimy AM, et al. Toxic effects due to exposure heavy metals and increased health risk assessment (leukemia). Rev Environ Health. 2022; 39(2): 351-362.
- Reijula K, Sundman-Digert C. Assessment of indoor air problems at work with a questionnaire. Occup Environ Med. 2004; 61(1): 33-38.
- Sulaiman FR, Bakri NIF, Nazmi N, Latif MT. Assessment of heavy metals in indoor dust of a university in a tropical environment. Environ Forensics. 2017; 18(1): 74-82.
- Ashmore MR, Dimitroulopoulou C. Personal exposure of children to air pollution. Atmos Environ. 2009; 43(1): 128-141.
- Hu X, Zhang Y, Ding Z, Wang T, Lian H, Sun Y, et al. Bioaccessibility and health risk of arsenic and heavy metals (Cd, Co, Cr, Cu, Ni, Pb, Zn and Mn) in TSP and PM2.5 in Nanjing, China. Atmos Environ. 2012; 57: 146-152.
- Somsunun K, Prapamontol T, Kuanpan T, Santijitpakdee T, Kohsuwan K, Jeytawan N, et al. Health risk assessment of heavy metals in indoor household dust in urban and rural areas of Chiang Mai and Lamphun provinces, Thailand. Toxics. 2023; 11(12): 1018.
- Safiur Rahman M, Khan MDH, Jolly YN, Kabir J, Akter S, Salam A. Assessing risk to human health for heavy metal contamination through street dust in the Southeast Asian Megacity: Dhaka, Bangladesh. Sci Total Environ. 2019; 660: 1610-1622.
- Krupnova TG, Rakova OV, Gavrilkina SV, Antoshkina EG, Baranov EO, Yakimova ON. Road dust trace elements contamination, sources, dispersed composition, and human health risk in Chelyabinsk, Russia. Chemosphere. 2020; 261: 127799.
- Sajedi Sabegh S, Mansouri N, Taghavi L, Mirzahosseini SA. Pollution status, origin, and health risk assessment of toxic metals in deposited indoor and outdoor urban dust. Int J Environ Sci Technol. 2023; 20(3): 2471-2486.
- American Society for Testing and Materials (ASTM) International. Standing practice for collection of surface dust by micro-vacuum sampling for subsequent metals determination (ASTM Method D7144-05a). Pennsylvania: ASTM International; 2003.
- United States Environmental Protection Agency (EPA). IRIS assessments: Cadmium (CASRN 7440-43-9). Available: https://iris.epa.gov/ChemicalLanding/&substance_nmbr=141 [accessed 27 September 2024].
- California Office of Environmental Health Hazard Assessment (OEHHA). Nickel and Nickel compounds. Available: https://oehha.ca.gov/chemicals/nickel-and-nickel-compounds [accessed 27 September 2024].
- United States Environmental Protection Agency (EPA). Risk assessment guidance for superfund volume I: human health evaluation manual (part A). Washington D.C.: EPA; 1989 Dec. Report No.: EPA-540-1-89-002.
- California Office of Environmental Health Hazard Assessment (OEHHA). Lead and lead compounds. Available: https://oehha.ca.gov/chemicals/lead-and-lead-compounds [accessed 27 September 2024].
- United States Environmental Protection Agency (EPA). IRIS assessments: Manganese (CASRN 7439-96-5). Available: https://iris.epa.gov/ChemicalLanding/&substance_nmbr=373 [accessed 27 September 2024].
- United States Environmental Protection Agency (EPA). Provisional peer reviewed toxicity values for Cobalt (CASRN 7440-48-4). Cincinnati: EPA; 2008 Aug. Report No.: EPA-690-R-08-008F.
- United States Environmental Protection Agency (EPA). IRIS assessment: Zinc and Compounds (CASRN 7440-66-6). Available: https://iris.epa.gov/ChemicalLanding/&substance_nmbr=426 [accessed 27 September 2024].
- United States Environmental Protection Agency (EPA). IRIS assessment: Chromium (III), insoluble salts (CASRN 16065-83-1). Available: https://iris.epa.gov/ChemicalLanding/&substance_nmbr=28 [accessed 27 September 2024].
- United States Environmental Protection Agency (EPA). Health effects assessment for copper. Cincinnati: EPA; 1984 Sep. Report No.: EPA-540/1-86-025.
- Gui H, Yang Q, Lu X, Wang H, Gu Q, Martin JD. Spatial distribution, contamination characteristics and ecological-health risk assessment of toxic heavy metals in soils near a smelting area. Environ Res. 2023; 222: 115328.
- United States Environmental Protection Agency (EPA). Risk assessment guidance for superfund volume I: human health evaluation manual (part E). Washington D.C.: EPA; 2004 Jul. Report No.: EPA540-R-99-005.
- van den Berg R. Human exposure to soil contamination: a qualitative and quantitative analysis towards proposals for human toxicological intervention values. Bilthoven: National Institute of Public Health and Environmental Protection; 1994 Jan. Report No.: 725201011.
- United States Environmental Protection Agency (EPA). Soil screening guidance: user's guide. Washington D.C.: EPA; 1996 Jul. Report No.: EPA-540-R-96-018.
- National Institute of Environmental Research (NIER). Guidelines for preparing data on the risks of chemical substances. Incheon: NIER; 2021 Feb. Report No.: NIER-GP2016-163.
- Yoon H, Yoo SK, Seo J, Kim T, Kim P, Kim PJ, et al. Development of general exposure factors for risk assessment in Korean children. Int J Environ Res Public Health. 2020; 17(6): 1988.
- Kim S, Kim S, Kim S, Lee KM, Lee K, Cheong NY, et al. Development of integrated risk assessment methodology for five heavy metals. Cheongju: Ministry of Food and Drug Safety; 2020 Nov. Report No.: TRKO202100007668.
- United States Enviornmental Proctection Agency (EPA). Regional screening levels (RSLs): user's guide. Available: https://www.epa.gov/risk/regional-screening-levels-rsls-users-guide [accessed 27 September 2024].
- Heidari M, Darijani T, Alipour V. Heavy metal pollution of road dust in a city and its highly polluted suburb; quantitative source apportionment and source-specific ecological and health risk assessment. Chemosphere. 2021; 273: 129656.
- National Institute of Environmental Research (NIER). Korean exposure factors handbook. Incheon: NIER; 2019 Oct. Report No.: NIER-CP2019-037.
- National Institute of Environmental Research (NIER). Korean exposure factors handbook for children. Incheon: NIER; 2019 Nov. Report No.: NIER-GP2019-038.
- United States Environmental Protection Agency (EPA). Guideline for carcinogen risk assessment. Washington D.C.: EPA; 2005 Mar. Report No.: EPA-630-P-03-001F.
- Karimi A, Naghizadeh A, Biglari H, Peirovi R, Ghasemi A, Zarei A. Assessment of human health risks and pollution index for heavy metals in farmlands irrigated by effluents of stabilization ponds. Environ Sci Pollut Res Int. 2020; 27(10): 10317-10327.
- Roy A, Jha AK, Kumar A, Bhattacharya T, Chakraborty S, Raval NP, et al. Heavy metal pollution in indoor dust of residential, commercial, and industrial areas: a review of evolutionary trends. Air Qual Atmos Health. 2024; 17(4): 891-918.
- Wan D, Han Z, Yang J, Yang G, Liu X. Heavy metal pollution in settled dust associated with different urban functional areas in a heavily air-polluted city in North China. Int J Environ Res Public Health. 2016; 13(11): 1119.
- Ogunlade BT, Adeniran JA, Abdulraheem KA, Odediran ET, Atanda AS, Oyeneye AK, et al. Heavy metals analysis in the vicinity of a Northcentral Nigeria major scrap-iron smelting plant. Int J Environ Res. 2024; 18(6): 107.
- Ali MU, Liu G, Yousaf B, Abbas Q, Ullah H, Munir MAM, et al. Compositional characteristics of black-carbon and nanoparticles in air-conditioner dust from an inhabitable industrial metropolis. J Clean Prod. 2018; 180: 34-42.
- Chen H, Zhan C, Liu S, Zhang J, Liu H, Liu Z, et al. Pollution characteristics and human health risk assessment of heavy metals in street dust from a typical industrial zone in Wuhan City, Central China. Int J Environ Res Public Health. 2022; 19(17): 10970.
- Min G, Shin J, Kim D, Woo J, Sung K, Cho M, et al. Assessment of heavy metal exposure levels (Pb, Hg, Cd) among South Korean and contribution rates by exposure route - Korean National Environmental Health Survey (KoNEHS) clcyle 4 (2018~2020). J Environ Health Sci. 2023; 49(5): 262-274.