Journal
JOURNAL OF HYDROLOGY
Volume 575, Issue -, Pages 955-964Publisher
ELSEVIER
DOI: 10.1016/j.jhydrol.2019.05.093
Keywords
Organic contaminated soil; Self-potential monitoring; Global optimization; Contamination source identification
Funding
- Italian National Agency for the Evaluation of Universities and Research Institutes (ANVUR), Rome, Italy [E61I18001660005]
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Complex interactions among organic contaminant, soil and water change the electrical properties of the subsurface often causing strong self-potential (SP) anomalies, whose monitoring is proposed as a useful tool to determine the temporal evolution of the contaminant plumes. In the present study, we focus on the problem of organic contaminant transport related to olive oil mill wastes (OOMWs), which represent an important environmental problem in Mediterranean countries. The diffusion of the contaminants into the subsurface is studied by using a global optimization procedure on SP data measured, at different times, in a well-studied contaminated pilot area located next to the Keritis river in western Crete island (Greece). Despite the complex hydrogeological conditions related to the proximity to both the Keritis river and a small seasonal stream, the analysis of five SP datasets acquired along the same profile shows that the proposed hybrid Genetic-Price algorithm is able to reproduce the main features of the SP signals, thus identifying probable multiple SP anomaly sources and their changes over time. In particular, preferential horizontal pathways of OOMW and their migration in the vadose zone during the summer season were identified, providing some useful insights for future planning of remediation actions.
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