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- Title
Evaluating the joint use of GPR and ERT on mapping shallow subsurface features of karst critical zone in southwest China.
- Authors
Tao, Min; Chen, Xi; Cheng, Qinbo; Binley, Andrew
- Abstract
The soils and underlying weathered carbonate rock in karstic regions play an important role in the infiltration, storage, and retention of water and nutrients. Because of significant heterogeneity of the karst, the use of individual geophysical techniques is often not sufficient for unambiguous assessment of the irregular distributions of soils and underlying fractures. In this study, ground penetrating radar (GPR) and electrical resistivity tomography (ERT) are jointly used with additional observations to delineate the shallow subsurface structure in two exposed profiles. The results show that ERT is effective for detecting the soil–rock interfaces, even for irregular terrain and fracture structures, such as a funnel‐shaped doline, as the soils and rocks show a large resistivity contrast. Although ERT may be able to sense the presence of extensive fracturing, it cannot detect individual small aperture fractures. Joint use of different frequencies of the GPR antenna (e.g., 100 and 500 MHz in this study) allowed the detection of most fractures at different depths in the study sites. However, forward modeling of typical weathered rock features illustrates that the GPR data cannot resolve any reflection signals of the vertical fractures, so the features of vertically enlarged fractures filled by soils cannot be seen from the GPR images. Moreover, large uncertainties of resistivity at the interface between soils or fractures and bedrock limit the identification of an irregularly distributed subsurface structure. Despite the limitations of individual techniques, the combination of ERT and GPR enhances the delineation of the soil–bedrock interface and identification of the fracture network, which can allow an enhanced geological interpretation of shallow subsurface features in the karst areas. Core Ideas: Using synthetic and field data, we evaluate ERT and GPR for detecting subsurface structures.We evaluate different GPR antenna frequencies for characterizing rock fracture zones.We compare ERT and GPR methods for delineating the soil–rock interface and rock fracture zones.
- Subjects
SOUTHWEST China; CARBONATE rocks; SOIL infiltration; GROUND penetrating radar; SHIELDS (Geology)
- Publication
Vadose Zone Journal, 2022, Vol 21, Issue 1, p1
- ISSN
1539-1663
- Publication type
Article
- DOI
10.1002/vzj2.20172