A new concept of karst development based on hydrogeology and geophysics

132 A new concept of karst development based on hydrogeology and geophysics Habert J., Bievre G., Zumbo V. (2006). Optimization of geophysical methods for the old mining galleries, in National Geotechnical and Engineering Geology Day – JNGG’ 2006 Lyon (France): 17-24. Lantier F., Frappin P. (2000). Method and apparatus for probing and inspecting an underground volume, patent EP 0 786 673 B1, deposit number: 97106066.0, European Patent Office. Mari J.-L., Porel, G. (2008). 3D seismic imaging of a near–surface heterogeneous aquifer: a case study, Oil and Gas Science and Technology, Rev IFP63: 179-201. https://doi.org/10.2516/ogst:2007077 Mari J.-L., Porel G. (2018). “Contribution of seismic and acoustic methods to the characterisation of karstic formations”, Chapter 5 in Well seismic surveying and acoustic logging, EDP Sciences, https://doi.org/10.1051/978-2-7598-2263-8.c007 Mari J.-L., Porel G., Delay F. (2020). Contribution of Full Wave Acoustic Logging to the Detection and Prediction of Karstic Bodies, Water, 12(4): 948. https://doi.org/10.3390/w12040948 Mari J.-L. (2026). “Geophysical methods”, Chapter 5 in A new concept of karst development based on hydrogeology and geophysics, EDP Sciences, https://doi. org/10.1051/978-2-7598-3934-6.c005

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