Abstract
This paper presents an assessment of the potential usefulness of the Ground Conductivity Meter (GCM) method to locate seepage pathways in the Maniow levee zone near Kraków, Poland. We have realized this aim through geological recognition of the study area, which requires the implementation of GCM data inversion measured in the sounding version. The GCM measurements were performed along with the net of profiles using combined data from CMD Mini Explorer and CMD Explorer equipment. The methodology of the one-dimensional (1D) inversion of the GCM soundings located along profiles is presented in the article. The legitimacy of the inversion and the relationship of the results obtained in the form of conductivity sections along profiles with geology have been verified in detail. The inversion procedures were tested on the synthetic GCM soundings obtained from modeling processes, by using the electrical conductivity and thicknesses, known from the drilled formations and additionally based on DC-R sounding data. These soundings were performed at some selected reference points in the levee zone. We have used our software and IX1D Interpex software to calculate the forward modeling. Quantitative interpretation processed along the profiles has been proceeded by 1D inversion of GCM data at several referential points located close to boreholes and DC soundings. It was done to verify the correctness of the quantitative interpretation. The geoelectrical models, obtained in a section form, were correlated with the borehole lithology data, providing a reference geological structure in some places. As a result of the work mentioned above, the potential seepage zones were located on the conductivity sections. The thickness of the cohesive silty clay layer, lying near to the surface, in the seepage zones, was thin enough and less than a meter. When the water level in the Vistula river was high enough, water can flow in the noncohesive gravel layer occurring directly below the silty clays and lead to flooding on the landward side of the dams in the Maniow region.
Highlights
Flood events are a significant threat to livestock [1,2,3]
The legitimacy of the inversion and the relationship of the results obtained in the form of conductivity sections along profiles with geology have been verified in detail
These soundings were performed at some selected reference points in the levee zone
Summary
Flood events are a significant threat to livestock [1,2,3]. This kind of disaster often appears in regions with substantial rainfall, in places with an inadequate drainage system, in hydroelectric power reservoirs, or where there is a faulty floodbank built with inadequate technology, or in an area protected by a dam where there is a noncohesive layer at a sufficiently shallow depth. Some geophysical methods are available to locate seepage pathways in levee zones. Hayashi et al used DC and S-velocity methods to study levee structures in Japan [4]. In the USA, levee bodies are controlled by capacitively coupled resistivity, coring, and direct push logging [5,6].
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