과제정보
이 연구는 한국연구재단(과제번호 2020R1I1A1A01073355) 및 농촌진흥청(과제번호 PJ015053032022)의 지원을 받아 수행하였습니다.
참고문헌
- An, J.-M., Park, D.-H., Hwang, H.-R., Chang S.-Y., Kwon, M.-J., Kim, I.-S., Kim, I.-R., Lee, H.-M., Lim, H.-J., Park, J.-O. and Lee, G.-H. (2018) Risk analysis of arsenic in rice using by HPLP-ICP-MS. Korean J. Environ. Agric., v.37, p.291-301. doi: 10.5338/kjea.2018.37.4.35
- ATSDR (2007) Toxicology profile for arsenic. Public Health Service Agency for Toxic Substances and Disease Registry, US DHHS, Atlanta, Georgia.
- Boyle, J. (2004) A comparison of two methods for estimating the organic matter content of sediments. J. Paleolimn., v.31, p.125-127. doi: 10.1023/b:jopl.0000013354.67645.df
- Busenberg, E. and Clemency, C.V. (1973) Determination of the cation exchange capacity of clays and soils using an ammonia electrode. Clays and Clay Miner., v.21, p.213-217. doi: 10.1346/ccmn.1973.0210403
- CAC (2014) Joint FAO/WHO food standards programme. 37th Session Report. Codex Alimentarius Commission.
- Chiou, W.-Y. and Hsu, F.-C. (2019) Copper toxicity and prediction models of copper content in leafy vegetables. Sustainability, v.11, p.6215. doi: 10.3390/su11226215
- Chojnacka, K., Chojnacki, A., Gorecka, H. and Gorecki, H. (2005) Bioavailability of heavy metals from polluted soils to plants. Sci. Tot. Environ., v.337, p.175-182. doi: 10.1016/j.scitotenv.2004.06.009
- Han, H.-J. (2020) A study on the potential mobility assessment of heavy metals in contaminated soil in Korea. Ph.D thesis, Chonnam National University, Korea.
- Han, H.-J., Ko, M.-S., Ko, J.I. and Lee, J.-U. (2020) Study on soil extraction methods for contamination assessment of heavy metals in soil. J. Korean Soc. Miner. Energy Resour. Eng., v.57, p.471-482. doi: 10.32390/ksmer.2020.57.5.471
- Han, H.-J., Song, C.-W. and Lee, J.-U. (2021) The statistical study on the effects of physicochemical properties of soil on single extraction methods for heavy metals. Econ. Environ. Geol., v.54, p.259-269. doi: 10.9719/eeg.2021.54.2.259
- HBBF (2017) Arsenic in 9 brands of infant cereal. Healthy Babies Bright Futures. https://www.healthybabycereals.org/
- Huang, R.Q., Gao, S.F., Wang, W.L., Staunton, S. and Wang, G. (2006) Soil arsenic availability and the transfer of soil arsenic to crops in suburban areas in Fujian Province, southeast China. Sci. Total Environ., v.368, p.531-541. doi: 10.1016/j.scitotenv.2006.03.013
- Kim, J.-Y., Lee, J.-H., Kunhikrishnan, A., Kang, D.-W., Kim, M.-J., Yoo, J.-H., Kim, D.-H., Lee, Y.-J. and Kim, W.I. (2012) Transfer factor of heavy metals from agricultural soil to agricultural products. Korean J. Environ. Agric., v.31, p.300-307. doi: 10.5338/kjea.2012.31.4.300
- Kim, W.-I., Kim, J.-J., Yoo, J.-H., Kim, J.-Y., Lee, J.-H., Paik, M.-K., Kim, R.-Y. and Im, G.-J. (2010) Arsenic fractionation and bioavailability in paddy soils near closed mines in Korea. Korean J. Soil Sci. Fert., v.43, p.917-922.
- Kim, K.-W., Ko, M.-S., Kim, A.-Y., Kim, J., Kim, J.-Y., Lee, B.-T., Lee, J.-S. and Lee, J.-U. (2012) The 2010 Korean soil preservation act: Will stabilization techniques still be feasible? Geochem., J., v.46, p.e17-e19. doi: 10.2343/geochemj.1.0162
- Kunhikrishman, A., Go, W.-R., Park, J.-H., Kim, K.-R., Kim, H.-S., Kim, K.-H., Kim, W.-I. and Cho N.-J. (2015) Heavy metal(loid) levels in paddy soils and brown rice in Korea. Korean J. Soil Sci. Fert., v.48, p.515-521. doi: 10.7745/kjssf.2015.48.5.515
- Lee, J.-H., Kim, J.-Y., Go, W.-R., Jeong, E.-J., Kunhikrishnan, A., Jung, G.-B., Kim, D.-H. and Kim, W.-I. (2012) Current research trends for heavy metals of agricultural soils and crop uptake in Korea. Korean J. Environ. Agric., v.31, p.75-95. doi: 10.5338/kjea.2012.31.1.75
- Lee, S., Kang, D.-W., Kim, H.-S., Yoo, J.-H., Park, S.-W., Oh, K.-S., Cho, I.K. Moon, B.-C. and Kim, W.-I. (2017) Prediction of arsenic uptake by rice in the paddy fields vulnerable to arsenic contamination. Korean J. Soil Sci. Fert., v.50, p.115-126. doi: 10.7745/kjssf.2017.50.2.115
- Lim, G.H., Kim, K.H., Seo, B.H. and Kim, K.R. (2014) Transfer function for phytoavailable heavy metals in contaminated agricultural soil. Korean J. Environ. Agric., v.33, p.271-281. doi: 10.5338/kjea.2014.33.4.271
- Lund, U. and Fobian, A. (1991) Pollution of two soils by arsenic, chromium and copper, Denmark. Geoderma, v.49, p.83-103. doi: 10.1016/0016-7061(91)90093-9
- Mehlich, A. (1984) Mehlich No. 3 soil test extractant: A modification of Mehlich No. 2 extractant. Comm. Soil Sci. Plant Anal., v.15, p.1409-1416. doi: 10.1080/00103628409367568
- MFDS (2016) White paper. Ministry of Food and Drug Safety. ISBN 9791170098164
- MFDS (2021) Food standards and specifications. Ministry of Food and Drug Safety, v.79, 1056p.
- MOE (2016) Report on soil measurement network and soil contamination actual condition in 2015. Ministry of Environment. 11-1480000-000669-10
- MOE (2017) Environment white paper. Ministry of Environment. 11-1480000-000586-10
- Queensland Government (2016) Soil pH. Queensland Department of Environment and Heritage Protection. https://www.qld.gov.au.
- Seo, B.-H., Lim, G.-H., Kim, K.-H., Kim, J.-E., Hur, J.-H., Kim, W.-I. and Kim, K.-R. (2013) Comparison of single extractions from evaluation of heavy metals phytoavailability in soil. Korean J. Environ. Agric., v.32, p.171-178. doi: 10.5338/kjea.2013.32.3.171
- Song, C.-W., Han, H.-J. and Lee, J.-U. (2019) Investigation on heavy metal distribution in soils around Boryeong coal-fired power plant. J. Korean Soc. Miner. Energy Resour. Eng., v.56, p.10-22. doi: 10.32390/ksmer.2019.56.1.010
- Ure, A.M. (1996) Single extraction schemes for soil analysis and related applications. Sci. Tot. Environ., v.178, p.3-10. doi: 10.1016/0048-9697(95)04791-3
- USDA (1993) Examination and description of soil profiles. U.S. Department of Agriculture Handbook. https://www.nrcs.usda.gov.
- Xie, M., Li, H., Zhu, Y., Xue, J., You, Q., Jin, B. and Shi, Z. (2021) Predicting bioaccumulation of potentially toxic element in soil-rice systems using multi-source data and machine learning methods: a case study of an industrial city in southeast China. Land. v.10, p.558-574. doi: 10.3390/land10060558
- Yang, S.-H., Park, J.-S., Cho, M.-J. and Choi, H. (2016) Risk analysis of inorganic arsenic in foods. J. Food Hyg. Saf., v.31, p.227-249. doi: 10.13103/jfhs.2016.31.4.227
- Yao, B.-M., Chen, P., Zhang, H.-M. and Sun, G.-X. (2021) A predictive model for arsenic accumulation in rice grains based on bioavailable arsenic and soil characteristics. J. Hazard. Mater. v.412, p.125-131. doi: 10.1016/j.jhazmat.2021.125131