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- Title
Delineation of LNAPL plumes in a clay-rich site in Gyeongsangnam-do Province, South Korea: integration of geophysical survey data with borehole data and soil sampling information.
- Authors
Kim, Bitnarae; Joung, In Seok; Yu, Huieun; Jeong, Juyeon; Song, Seo Young; Son, Jeong-sul; Yu, Youngchul; Shin, Jehyun; Jo, Ho Young; Kwon, Man Jae; Nam, Myung Jin
- Abstract
To effectively delineate the spatial distribution of oil contaminant plumes, geophysical methods indirectly measure the physical properties of the subsurface and can provide spatial information and images on a large scale, as opposed to traditional direct methods such as borehole drilling, sampling, and chemical analysis, which are time-consuming and costly. However, interpreting geophysical responses over non-aqueous phase liquid (NAPL)–contaminated sites is not straightforward due to inconsistent responses from biodegraded oil contaminants. In this study, we performed multi-geophysical surveys including seismic refraction, ground-penetrating radar, electrical resistivity tomography (ERT), and induced polarization (IP) surveys, to locate NAPL-contaminated zones in a clay-rich site. To reduce ambiguity in discriminating between oil contaminants and clay layers, we first figure out the geological structure of the site by interpreting geophysical data incorporating with borehole data. The ERT data highlighted the heavily contaminated regions in the unsaturated zone but were less distinctive below groundwater levels. Conversely, IP responses revealed potential hotspots within the clay layers, extending beneath the groundwater. Considering the 3D geological model, NAPL-contaminated zones are properly delineated through interpretation of ERT and IP data together with borehole data, and the contaminant source zone was properly estimated within the site.
- Subjects
SOUTH Korea; GEOPHYSICAL surveys; NONAQUEOUS phase liquids; SOIL sampling; INDUCED polarization; GROUND penetrating radar; GEOLOGICAL modeling
- Publication
Environmental Monitoring & Assessment, 2024, Vol 196, Issue 1, p1
- ISSN
0167-6369
- Publication type
Article
- DOI
10.1007/s10661-023-12202-9