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2026 Vol.31, Issue 2 Preview Page

Research Article

30 April 2026. pp. 41-48
Abstract
References
1

Ahmad, M., Lee, S.S., Moon, D.H., Yang, J.E., and Ok, Y.S., 2012, A Review of Environmental Contamination and Remedi-ation Strategies for Heavy Metals at Shooting Range Soils, In: Malik, A. and Grohmann E.(ed), Environmental Protection Strate-gies for Sustainable Development, Springer, Dordrecht, Hidel-berg, New York, London, p. 437-451.

10.1007/978-94-007-1591-2_14
2

Alasmary, Z., 2025, Lead (Pb) contamination in soil and plants at military shooting ranges and its mitigation strategies: a com-prehensive review, Processes, 13, 345.

10.3390/pr13020345
3

Bacon, J.R., and Davidson, C.M., 2008, Is there a future for sequential chemical extraction?, analyst, 133, 25-46.

10.1039/B711896A
4

Chrastný, V., Komárek, M., and Hájek, T., 2010, Lead contam-ination of an agricultural soil in the vicinity of a shooting range, Environ Monit Assess, 162, 37-46.

10.1007/s10661-009-0774-3
5

Cui, W., Li, X., Duan, W., Xie, M., and Dong, X., 2023, Heavy metal stabilization remediation in polluted soils with stabilizing materials: a review, Environ Geochem Health, 45, 4127-4163.

10.1007/s10653-023-01522-x
6

EPA Victoria (Environment Protection Authority Victoria), 2019, Guide for managing contamination at shooting ranges

7

Gong, X., Lian, W. Tian, S., Yu, Q., Guo, Z., Zhang, X., Yuan, Y., Fan, Y., Liu, Z., Zheng, J., Bian, R., Li, L., and Pan, G., 2024, Utilizing ragweed and oyster shell derived biochar as an effec-tive stabilizer for the restoring Cd and Pb- contaminated soil, Geoderma Reg, 37, e00816.

10.1016/j.geodrs.2024.e00816
8

Hong, S.T., and Hyun, J.H., 2014, The comparison of the rela-tionship between the gunfire shot and its resulting heavy metal pollution rate, J. soil Groundw. Environ., 19(6), 1-5.

10.7857/JSGE.2014.19.6.001
9

Jung, M.C., 1994, Sequential extraction of heavy metals in soils and a case study, Econ. Environ. Geol., 27(5), 469-477.

10

Kabata-Pendias, A., and Mukherjee, A.B., 2007, Trace Elements from Soil to Human, Springer, Berlin, Heidelberg, New York.

10.1007/978-3-540-32714-1
11

Kicińska, A., Pomykała, R., and Izquierdo-Diaz, M., 2022, Changes in soil pH and mobility of heavy metals in contaminated soils, Eur. J. Soil. Sci., 73, e13203.

10.1111/ejss.13203
12

Koh, I.H., Kim, E.Y., Kwon, Y.S., Ji, W.H., Joo, W.H., Kim, J.H., Shin, B.S., and Chang, Y.Y., 2015, Partitioning of heavy metals between rice plant and limestone-stabilized paddy soil contaminated with heavy metals, J. Soil Groundw. Environ., 20(4), 90-103.

10.7857/JSGE.2015.20.4.090
13

Koh, I.H., Kwon, Y.S., Jeong, M.H., and Ji, W.H., 2021, Soil loss reduction and stabilization of arsenic contminated soil in sloped farmland using CMDS (coal mine drainage sludge) under rainfall simulation, J. Soil Groundw. Environ., 26(6), 18-26.

14

Koh, I.H., Park, C.K., You, K.Y., Noh, S.C., and Ji, W.H., 2025a, The characteristics of soil lead contamination in military rifle shooting ranges, J. Soil Groundwater Environ., 30(5), 1-8.

15

Koh, I.H., Park, C.K., You, K.Y., Noh, S.C., and Ji, W.H., 2025b, Reducing soil loss and Pb stabilization of berms using hydrated lime in military rifle shooting ranges under rainfall simulation, J. Soil Groundwater Environ., 30(5), 67-74.

16

Kumpiene, K., Lagerkvist, A., and Maurice, C., 2008, Stabiliza-tion of As, Cr, Cu, Pb and Zn in soil using amendments – a review, Waste Manage., 28, 215-228.

10.1016/j.wasman.2006.12.012
17

Larner, B.L,, Seen, A.J., and Townsend, A.T., 2006. Compara-tive study of optimised BCR sequential extraction scheme and acid leaching of elements in the certified reference material NIST 2711, Analytica Chimica Acta, 556, 444-449.

10.1016/j.aca.2005.09.058
18

Lee, H.J., and Lee, M.H., 2012, Investigation of the rice plant transfer and the leaching characteristics of copper and lead for the stabilization process with a pilot scale test, Econ. Environ. Geol., 45(3), 255-264.

10.9719/EEG.2012.45.3.255
19

Lee, S.H., Ji, W.H., Lee, W.S., Koo, N.I., Koh, I.H., Kim, M.S., and Park, J.S., 2014, Influence of amendments and aided phyto-stabilization on metal availability and mobility in Pb/Zn mine tailings, J. Environ. Manage., 139, 15-21.

10.1016/j.jenvman.2014.02.019
20

Lee, S.J., Kim, M.J., Lee, N.R., Ahn, Y.T., and Choi, J.Y., 2025, Intergrated geochemical and geophysical assessment for moni-toring soil stabilization with waste oyster shells, Sci Rep, 15, 37110.

10.1038/s41598-025-21141-z41131137PMC12549837
21

Lim, J.E., Ahmad, M., Lee, S.S., Shope, C.L., Hashimoto, Y., Kim, K.R., Usman, A.R.A., Yang, J.E., and Ok, Y.S., 2013, Effects of lime-based waste materials on immobilization and phytoavailability of cadmium and lead in contaminated soil, Clean-Soil, Air, Water, 41(12), 1235-1241.

10.1002/clen.201200169
22

Liao, F., Fu, K., Zhang, W., Song, H., Kong, Y., Wang, Z., and Tang, J., 2025, Stabilization mechanism and remediation effec-tiveness of Pb and Cd in agricultural soil using nonmetallic min-erals, Sci Rep, 15, 12757.

10.1038/s41598-025-96970-z40223021PMC11994751
23

Lim, J.E., Lee, S.S., Yang, J.E., and Ok, Y.S., 2014, Lead stabi-lization in soil amended with lime waste: an extended X-ray absorption fine structure (EXAFS) investigation, Korean J. Soil Sci. Fert., 47(6), 443-450.

10.7745/KJSSF.2014.47.6.443
24

Li, X., Coles, B.J., Ramsey, M.H., and Thornton, I., 1995, Sequential extraction of soils for multielement analysis by ICP-AES, Chem. Geol., 124, 109-123.

10.1016/0009-2541(95)00029-L
25

Ma, L.Q., Hardison, D.W., Harris, W.G., Cao, X., and Zhou, Q., 2007, Effects of soil property and soil amendment on weather-ing of abraded metallic Pb in shooting ranges, Water Air Soil Pollut, 178, 297-307.

10.1007/s11270-006-9198-7
26

Migliorini, M., Pigino, G., Caruso, T., Fanciulli, P.P., Leonzio, C., and Bernini, F., 2005, Soil communities (Acari Oribatida; Hexapoda Collembola) in a clay pigeon shooting range, Pedo-biologia, 49, 1-13.

10.1016/j.pedobi.2004.06.009
27

Moon, D.H., Cheong, K.H., Koutsospyros, A., Chang, Y.Y., Hyun, S.H., Ok, Y.S., and Park, J.H., 2016, Assessment of waste oyster shells and coal mine drainage sludge for the stabilization of As-, Pb-, and Cu-contaminated soil, Environ Sci Pollut Res, 23, 2362–2370.

10.1007/s11356-015-5456-9
28

NIER (National Institute of Environmental Research), 2022, Korea standard methods for soil analysis.

29

NRA (National Rifle Association), 2022, How Clay Targets Are Made, https://www.ssusa.org/content/how-clay-targets-are-made [accessed 26.04.08]

30

Oh, S.J., Kim, S.C., Kim, R.Y., Ok, Y.S., Yun, H.S., Oh, S.M., Lee, J.S., and Yang, J.E., 2012, Change of bioavailability in heavy metal contaminated soil by chemical amendment, J. Soil Sci. Fert., 45(6), 973-982.

10.7745/KJSSF.2012.45.6.973
31

Ramakrishna, C., Thenepalli, T., Nam, S.Y., Kim, C.S., and Ahn, J.W., 2018, Oyster shell waste is alternative sources for calcium carbonate (CaCO3) instead of natural limestone, J. Energy Engi-neering, 27(1), 59-64.

10.5855/ENERGY.2018.27.1.059
32

Reddy, V.A., Solanki, C.H., Kumar, S. Reddy, K.R., and Du, Y.J., 2020, Stabilization/solidification of Zinc- and Lead-contmi-nated soil using limestone calcined clay cement (LC3): an envi-ronmentally friendly alternative, sustainability, 12, 3725.

10.3390/su12093725
33

Steinnes, E., 2013, Lead, In: B.J. Alloway(ed.), Heavy Metals in Soils, Springer, Dordrecht, Heidelberg, New York, London, p. 397-398.

34

Tessier, A., Campbell, P.G.C., Blsson, M., 1979, Sequential extraction procedure for the speciation of particulate trace met-als, Anal Chem, 51(7), 844-851.

10.1021/ac50043a017
35

The JoongAng, 2024, PMI BIOTECH, https://www.joon-gang.co.kr/article/25219723 [accessed 26.04.08]

36

USEPA, 1992, Toxicity Characteristic Leaching Procedure, EPA Method 1311.

37

USEPA, 1994, Synthetic Precipitation Leaching Procedure, EPA Method 1312.

38

Yun, S.W., Kang, H.C., Kwon, Y.S., Koh, I.H., Jeong, M.H., and Yu, C., 2022, A pilot experiments for evaluation of cover soil loss from inclined upland around remediated abandoned mine site, Journal of the Korean Society of Agricultural Engineers, 64(2), 37-45.

39

Zgorelec, Z., Šprem, N., Abramović, R., Galić, M., Hrelja, I., Delać, D., Safner, T., and Kisić, I., 2025, Temporal and spatial changes in soil quality at shooting ranges: a case study in Croa-tia, land, 14, 78.

10.3390/land14010078
40

Zhong, G., Liu, Y., and Tang, Y., 2021, Oyster shell powder for Pb(II) immobilization in both aquatic and sediment environ-ments, Environ Geochem Health, 43, 1891-1902.

10.1007/s10653-020-00768-z
Information
  • Publisher :The Korean Society of Soil and Groundwater Environment
  • Publisher(Ko) :한국지하수토양환경학회
  • Journal Title :Journal of Soil and Groundwater Environment
  • Journal Title(Ko) :지하수토양환경
  • Volume : 31
  • No :2
  • Pages :41-48
  • Received Date : 2026-03-08
  • Revised Date : 2026-03-31
  • Accepted Date : 2026-04-22