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2024 Vol.57, Issue 2 Preview Page

Opinion

Transitioning agricultural soil heavy metal management policies to phytoavailability concept
Kwon-Rae Kim12*
1Professor, Department of GreenBio Science, Gyeongsang National University, JinJu 52725, Korea
2Professor, Department of Smart Agro-Industry, Gyeongsang National University, JinJu 52725, Korea
*Corresponding Author
31 May 2024. pp. 124-129
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Abstract

South Korea implements policies regarding heavy metal contamination in agricultural lands based on the total concentration standards set by the Ministry of Environment. However, since the primary function of agricultural lands is to produce crops, consideration must be given to the safety of agricultural products. To achieve this, the concept of phytoavailability of heavy metals must be introduced. This is because the rate of heavy metal absorption by plants is determined more by the phytoavailability of heavy metals in the soil than by the total concentration of heavy metals in the soil. The importance of phytoavailability for safe crop production has been reported in numerous research studies, and many countries overseas use phytoavailability standards as agricultural land management criteria. In South Korea, there are provisions in the Agricultural Land Act that support the provision of lime fertilizers for use in heavy metal-contaminated agricultural lands under soil improvement projects, which can be seen as a provision that recognizes the concept of phytoavailability for the production of safe agricultural products. By adopting the concept of phytoavailability, it is possible to reduce the social costs associated with managing heavy metal-contaminated agricultural lands and contaminated agricultural products and to develop policies that meet the demands of the public for securing the safety of crops.

Comparison of characteristics in management of heavy metal contamination in agricultural land based on total concentration and availability standards.
Keywords
Agricultural soil
Availability
Crop safety
Heavy Metals
Phytoavailability
References
1

Adamo P, Agrelli D, Zampella M. 2017. Chemical speciation to assess bioavailability, bioaccessibility and geochemical forms of potentially toxic metals (PTMs) in polluted soils. In: De Vivo B. Belkin HE. Lima A. (Eds.), Environmental Geochemistry: Site Characterization, Data Analysis and Case Histories. Elsevier, pp. 153-194. https://doi.org/10.1016/B978-0-444-63763-5.00010-0

10.1016/B978-0-444-63763-5.00010-0
2

Ahn TU, Kim DM, Lee HS, Shin HS, Chung EG. 2021. A Study on the Nutrient Composition and Heavy Metal Contents in Livestock Manure CompostㆍLiquefied Fertilizer. J. Korean Society on Water Environment 37:306-316. https://doi.org/10.15681/KSWE.2021.37.4.306

3

Lim GH, Kim KH, Seo BH, Kim KR. 2014. Distribution of phytoavailable heavy metals in the Korean agricultural soils affected by the abandoned mining sites and soil properties influencing on the phytoavailable metal pools. Korean J. Soil Sci. Fert. 47:191-198. https://doi.org/10.7745/KJSSF.2014.47.3.191

10.7745/KJSSF.2014.47.3.191
4

Lwin CS, Lee MN, Kim YN, Owens G, Kim KR. 2022. Evaluation of immobilizing agents as soil quality conditioners in addition to their metal(loid) immobilizing effect. Pedosphere 32:307-316. https://doi.org/10.1016/S1002-0160(21)60075-9

10.1016/S1002-0160(21)60075-9
5

Kim DY, Kim KH, Lee DB, Lee MN, Kim KR. 2020. Factors of soil properties and elements in tissues influencing on extent of arsenic accumulation in brown rice. Korean J. Soil Sci. Fert. 53:41-49. https://doi.org/10.7745/KJSSF.2020.53.1.041

10.7745/KJSSF.2020.53.1.041
6

Kim HU, Lee MN, Lee JH, Kim KH, Owens G, Kim KR. 2020. Distribution and extent of heavy metal(loid) contamination in agricultural soils as affected by industrial activity. Appl. Biol. Chem. 63:31 https://doi.org/10.1186/s13765-020-00517-x

10.1186/s13765-020-00517-x
7

Kim HU, Lee MN, Kim HS, Kim KR. 2019. Exploration of heavy metal(loid)s immobilizing agents available for agricultural lands and their combination effects. Korean J. Soil Sci. Fert. 52:297-306. https://doi.org/10.7745/KJSSF.2019.52.3.297

10.7745/KJSSF.2019.52.3.297
8

Kim HS, Seo BH, Owens G, Kim YN, Lee JH, Lee MN, Kim KR. 2020. Phytoavailability-based threshold values for cadmium in soil for safer crop production. Ecotoxicol. Environ. Safety 201:110806. https://doi.org/10.1016/j.ecoenv.2020.110866

10.1016/j.ecoenv.2020.11086632554205
9

Kim KR, Kim JG, Park JS, Kim MS, Owens G, Youn GH, Lee JS. 2012. Immobilizer-based management of metal-contaminated agricultural soils for safer food production. J. Enivorn. Mange. 102:88-95. https://doi.org/10.1016/j.jenvman.2012.02.001

10.1016/j.jenvman.2012.02.00122446136
10

Kim KR, Owens G, Naidu R, Kim KH. 2007. Assessment techniques of heavy metal bioavailability in soil - a critical review. Korean J. Soil Sci. Fert. 40:311-325.

11

Kim RY, Yoon JK, Kim TS, Yang JE, Owens G, Kim KR. 2015. Bioavailability of heavy metals in soils: Definitions and practical implementation-a critical review. Environ. Geochem. Health. 37:1041-1061. https://doi.org/10.1007/s10653-015-9695-y

10.1007/s10653-015-9695-y25841357
Information
  • Publisher :Korean Society of Soil Science and Fertilizer
  • Publisher(Ko) :한국토양비료학회
  • Journal Title :Korean Journal of Soil Science and Fertilizer
  • Journal Title(Ko) :한국토양비료학회 학회지
  • Volume : 57
  • No :2
  • Pages :124-129
  • Received Date : 2024-03-22
  • Revised Date : 2024-05-08
  • Accepted Date : 2024-05-08
  • DOI :https://doi.org/10.7745/KJSSF.2024.57.2.124
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