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2022 Vol.27, Issue 1S1 Preview Page
31 July 2022. pp. 19-33
Abstract
References
1

Abdullahi, N.K., Osazuwa, I.B., and Sule, P.O., 2011, Application of integrated geophysical techniques in the investigation of groundwater contamination: a case study of municipal solid waste leachate, Ozean Journal of Applied Sciences, 4(1), 7-25.

2

Atekwana, E.A., Werkema Jr, D.D., Duris, J.W., Rossbach, S., Atekwana, E.A., Sauck, W.A., Cassidy, D.P., Means, J., and Legall, F.D., 2004, In-situ apparent conductivity measurements and microbial population distribution at a hydrocarbon-contaminated site, Geophysics, 69(1), 56-63.

10.1190/1.1649375
3

Atekwana, E.A. and Atekwana, E.A., 2010, Geophysical signatures of microbial activity at hydrocarbon contaminated sites: a review, Surv. Geophys., 31(2), 247-283.

10.1007/s10712-009-9089-8
4

Allen, J.P., Atekwana, E.A., Atekwana, E.A., Duris, J.W., Werkema, D.D., and Rossbach, S., 2007, The microbial community structure in petroleum-contaminated sediments corresponds to geophysical signatures, Appl. Environ. Microbiol., 73(9), 2860-2870.

10.1128/AEM.01752-0617351087PMC1892848
5

Al Hagrey, S.A. and Petersen, T., 2011, Numerical and experimental mapping of small root zones using optimized surface and borehole resistivity tomography, Geophysics, 76(2), G25-G35.

10.1190/1.3545067
6

Benson, A.K., 1995, Applications of ground penetrating radar in assessing some geological hazards: examples of groundwater contamination, faults, cavities, J. Appl. Geophy., 33(1-3), 177-193.

10.1016/0926-9851(94)00029-N
7

Cardarelli, E. and Di Filippo, G., 2009, Electrical resistivity and induced polarization tomography in identifying the plume of chlorinated hydrocarbons in sedimentary formation: a case study in Rho (Milan-Italy), Waste Manag. Res., 27(6), 595-602.

10.1177/0734242X09102524
8

Carlson, N.R. and Urquhart, S.A., 2004, February. Comparisons Of Ip And Resistivity Data At Several Old, Buried Landfills, Proceedings of the In 17th EEGS Symposium on the Application of Geophysics to Engineering and Environmental Problems. European Association of Geoscientists and Engineers, Colorado, USA, p.186.

9

Carlson, K.M., Goodman, L.K., and May-Tobin, C.C., 2015, Modeling relationships between water table depth and peat soil carbon loss in Southeast Asian plantations, Environ. Res. Lett., 10(7), 074006.

10.1088/1748-9326/10/7/074006
10

Castelluccio, M., Agrahari, S., De Simone, G., Pompilj, F., Lucchetti, C., Sengupta, D., Galli, G., Friello, P., Curatolo, P., Giorgi, R., and Tuccimei, P., 2018, Using a multi-method approach based on soil radon deficit, resistivity and induced polarization measurements to monitor non-aqueous phase liquid contamination in two study areas in Italy and India, Environ. Sci. Pollut. Res., 25(13), 12515-12527.

10.1007/s11356-018-1429-0
11

Chambers, J., Ogilvy, R., Meldrum, P., and Nissen, J., 1999, 3D resistivity imaging of buried oil-and tar-contaminated waste deposits, European Journal of Environmental and Engineering Geophysics, 4(1), 3-16.

12

Chambers, J.E., Loke, M.H., Ogilvy, R.D., and Meldrum, P.I., 2004, Noninvasive monitoring of DNAPL migration through a saturated porous medium using electrical impedance tomography, J. Contam. Hydrol., 68(1-2), 1-22.

10.1016/S0169-7722(03)00142-6
13

Doherty, R., Kulessa, B., Ferguson, A.S., Larkin, M.J., Kulakov, L.A., and Kalin, R.M., 2010, A microbial fuel cell in contaminated ground delineated by electrical self‐potential and normalized induced polarization data, J. Geophys. Res: Biogeosciences, 115(G3).

10.1029/2009JG001131
14

Reynolds, J.M., 1997, Asn Introduction to Applied and Environmental Geophysics, John Wiley, Chichester, U. K.

15

Gazoty, A., Fiandaca, G., Pedersen, J., Auken, E., and Christiansen, A.V., 2012, Mapping of landfills using time‐domain spectral induced polarization data: the Eskelund case study, Near Surf. Geophys., 10(6), 575-586.

10.3997/1873-0604.2012046
16

KIGAM, 2001, DIPRO version 4.01, Processing and interpretation software for electrical resistivity data. KIGAM, Daejeon, South Korea.

17

Kowalsky, M.B., Gasperikova, E., Finsterle, S., Watson, D., Baker, G., and Hubbard, S.S., 2011, Coupled modeling of hydro-geochemical and electrical resistivity data for exploring the impact of recharge on subsurface contamination, Water Resour. Res., 47(2).

10.1029/2009WR008947
19

Jegede, A.J., Aimufua, G.I.O., and Akosu, N.I., 2012, Electronic Voting: A Panacea for electoral irregularities in developing countries, International Journal of Science and Knowledge, 1(1), 17-37.

20

Lachhab, A., Benyassine, E.M., Rouai, M., Dekayir, A., Parisot, J.C., and Boujamaoui, M., 2020, Integration of multi-geophysical approaches to identify potential pathways of heavy metals contamination-a case study in Zeida, Morocco, J. Environ. Eng. Geophys., 25(3), 415-423.

10.32389/JEEG9-067
21

Matias, M.S., da Silva, M.M., Ferreira, P., and Ramalho, E., 1994, A geophysical and hydrogeological study of aquifers contamination by a landfill, J. Appl. Geophy., 32(2-3), 155-162.

10.1016/0926-9851(94)90017-5
22

McKenna, J., Sherlock, D., and Evans, B., 2001, Time-lapse 3-D seismic imaging of shallow subsurface contaminant flow, J. Contam. Hydrol., 53(1-2), 133-150.

10.1016/S0169-7722(01)00141-3
23

Naudet, V., Gourry, J.C., Mathieu, F., Girard, J.F., Blondel, A., and Saada, A., 2011, September, 3D electrical resistivity tomography to locate DNAPL contamination in an urban environment. In Near Surface 2011-17th EAGE European Meeting of Environmental and Engineering Geophysics, European Association of Geoscientists & Engineers, pp. cp-253.

10.3997/2214-4609.20144385
24

Nivorlis, A., Dahlin, T., Rossi, M., Höglund, N., and Sparren-bom, C., 2019, Multidisciplinary characterization of chlorinated solvents contamination and in-situ remediation with the use of the direct current resistivity and time-domain induced polarization tomography, Geosciences, 9(12), 487.

10.3390/geosciences9120487
25

Power, C., Tsourlos, P., Ramasamy, M., Nivorlis, A., and Mkandawire, M., 2018, Combined DC resistivity and induced polarization (DC-IP) for mapping the internal composition of a mine waste rock pile in Nova Scotia, Canada, J. Appl. Geophy., 150, 40-51.

10.1016/j.jappgeo.2018.01.009
26

Ritter, L., Solomon, K., Sibley, P., Hall, K., Keen, P., Mattu, G., and Linton, B., 2002, Sources, pathways, and relative risks of contaminants in surface water and groundwater: a perspective prepared for the Walkerton inquiry, J. Toxicol. Environ. Health A Part A, 65(1), 1-142.

10.1080/152873902753338572
27

Santos, F.A.M., Mateus, A., Figueiras, J., and Goncalves, M.A., 2006, Mapping groundwater contamination around a landfill facility using the VLF-EM method: a case study, J. Appl. Geophy., 60(2), 115-125.

10.1016/j.jappgeo.2006.01.002
28

Shin, J.B., Yu, K.M., and Naruse, T., 2003, Loess-paleosol stratigraphy of Dukso area, Namyangju city, Korea and correlation with Chinese loess-paleosol stratigraphy, Proceedings of The Geological Society of Korea, pp.113-113.

29

Shin, J., Hwang, S., Jung, S.H., Han, W.S., Son, J.S., Nam, M.J., and Kim, T., 2022, Development of site-scale conceptual model using integrated borehole methods: Systematic approach for hydraulic and geometric evaluation, Water, 14(9), 1336.

10.3390/w14091336
30

Vanhala, H., Soininen, H., and Kukkonen, I., 1992, Detecting organic chemical contaminants by spectral-induced polarization method in glacial till environment, Geophysics, 57(8), 1014-1017

10.1190/1.1443312
31

Watson, D.B., Doll, W.E., Jeffrey Gamey, T., Sheehan, J.R., and Jardine, P.M., 2005, Plume and lithologic profiling with surface resistivity and seismic tomography, Groundwater, 43(2), 169-177.

10.1111/j.1745-6584.2005.0017.x
32

Wealthall, G.P., Steele, A., Bloomfield, J.P., Moss, R.H., and Lerner, D.N., 2001, Sediment filled fractures in the Permo-Tri-assic sandstones of the Cheshire Basin: observations and impli\-cations for pollutant transport, J. Contam. Hydrol., 50(1-2), 41-51.

10.1016/S0169-7722(01)00104-8
33

Zelt, C.A., Azaria, A., and Levander, A., 2006, 3D seismic refraction traveltime tomography at a groundwater contamination site, Geophysics, 71(5), 67-78.

10.1190/1.2258094
34

Zhang, Q., Davis, L.C., and Erickson, L.E., 1998, Effect of veg-etation on transport of groundwater and nonaqueous phase liquid contaminants, J. Hazard Subst Res, 1(8-20).

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 : 27
  • No :1
  • Pages :19-33
  • Received Date : 2022-04-25
  • Revised Date : 2022-05-24
  • Accepted Date : 2022-06-27