Solid waste poses a serious health risk when it is disposed of inadequately because water-based solutions derived from the decomposition of solid waste products (leachate) can enter groundwater systems via plumes. To assess the public health risk and potential ecological impacts, we require knowledge on the pedological and hydrogeological settings in which waste is disposed. This is particularly the case in coarse textured highly permeable soil. To rapidly collect data, geophysical methods such as direct current (dc) resistivity techniques have been used. Moreover, non-contact electromagnetic (EM) induction instruments have also been employed. The aim of this research was to demonstrate how the inversion using a 1-dimensional inversion algorithm with lateral constraints of the apparent electrical conductivity (sigma(a)) measured in the horizontal coplanar (HCP) and perpendicular coplanar arrays (PRP) of a DUALEM-421 EM induction probe can be used to develop a two-dimensional model of the true electrical conductivity (sigma) within a Quaternary aeolian sand in the Tuggerah Soil Landscape southeast of Sydney in Australia. Our results from 2D models of sigma accord with estimates of bulk electrical conductivity (sigma(b)) of a leachate plume and uncontaminated groundwater, the stratigraphy of the Tuggerah soil landscape unit and the depth of sand used to landscape the decommissioned landfill. Further research is needed to determine the origin of the plume and a quasi-3D modelling approach is applicable.

• 出版日期2011-9