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This book focuses on the the application of hydrogeophysical methods to the understanding of hydrological processes and environmental problems dealing with the flow of water and the transport of solutes and contaminants. Taking a process-driven approach, the book offers a series of process-driven chapters, each authored by leading experts. Areas covered include: infiltration and solute transport processes, biogeochemical functioning of soil-water systems, coastal groundwater interactions, cold region hydrology, engineered barriers and landfill processes.
Applied Hydrogeophysics; H. Vereecken et al.-
Hydrogeophysical parameter estimation approaches for field scale characterization; N. Linde et al.-
A Successive Linear Estimator for Electrical Resistivity Tomography; T.-C. J. Yeh.-
Unsaturated zone processes; G. Cassiani et al.-
Solute Transport Processes; A. Kemna et al.-
Biogeophysics: The effects of microbial processes on geophysical properties of the shallow subsurface; E.A. Atekwana.-
Cold regions hydrogeophysics: Physical characterization and monitoring; H.K. French et al.-
Hydrogeophysical applications in coastal aquifers; M. Goldman and U. Kafri.
Applications of the self-potential method to hydrological problems; A. Revil et al.-
Engineered barriers for pollutant containment and remediation; L. Slater and A. Binley.-
Geoelectrical characterisation of covered landfill sites: A process-oriented model and investigative approach; M.A. Meju.-
Chernobyl-borne radionuclides: groundwater protectability with respect to preferential flow zones; V.M. Shestopalov et al.-