User menu

Ground-penetrating radar as a tool to detect rock heterogeneities (channels, cemented layers and fractures) in the Luxembourg Sandstone Formation (Grand-Duchy of Luxembourg)

Bibliographic reference Van den Bril, Koen ; Gregoire, Colette ; Swennen, Rudy ; Lambot, Sébastien. Ground-penetrating radar as a tool to detect rock heterogeneities (channels, cemented layers and fractures) in the Luxembourg Sandstone Formation (Grand-Duchy of Luxembourg). In: Sedimentology, Vol. 54, no. 4, p. 949-967 (2007)
Permanent URL
  1. Berners H.P., Ann. Soc. Geol. Belg., 106, 87 (1983)
  2. H.P. Berners (1985 ) Der Einfluss der Siercker Schwelle auf die Faziesverteilungen meso-kanozoischer Sedimente im NE des Pariser Beckens: Ein Sedimentationsmodell zum Luxemburger Sandstein (Lias), spezielle Aspekte zur structurellen Anderung der Beckenconfiguration und zum naturraumlichen Potential. PhD Thesis, Rheinisch-Westfalischen Technische Hochschule, Aachen, 321 pp.
  3. Bristow C. S., Internal Geometry of Ancient Tidal Bedforms Revealed Using Ground Penetrating Radar, Tidal Signatures in Modern and Ancient Sediments ISBN:9781444304138 p.313-328, 10.1002/9781444304138.ch21
  4. Bristow C.S., Ground Penetrating Radar in Sediments, 211, 1 (2003)
  5. Bristow Charlie S., Chroston P. Neil, Bailey Simon D., The structure and development of foredunes on a locally prograding coast: insights from ground-penetrating radar surveys, Norfolk, UK, 10.1046/j.1365-3091.2000.00330.x
  6. Van Dam Remke L., Schlager Wolfgang, Identifying causes of ground-penetrating radar reflections using time-domain reflectometry and sedimentological analyses : Identifying causes of GPR reflections, 10.1046/j.1365-3091.2000.00304.x
  7. Van Dam Remke L., Schlager Wolfgang, Dekkers Mark J., Huisman Johan A., Iron oxides as a cause of GPR reflections, 10.1190/1.1468614
  8. van Dam R.L., J. Sed. Res., 72, 341 (2002)
  9. van Dam R.L., Ground Penetrating Radar in Sediments, 211, 257 (2003)
  10. Daniels D.J., Surface-penetrating radar, 10.1049/ecej:19960402
  11. E. Flugel (2004 ) Microfacies of Carbonate Rocks: Analysis, Interpretation and Application . Springer-Verlag, Berlin, 976 pp.
  12. Giannopoulos A., GPRMAX2D/3D User's guide (2002)
  13. Grasmueck Mark, 3-D ground‐penetrating radar applied to fracture imaging in gneiss, 10.1190/1.1444026
  14. Grasmueck Mark, Weger Ralf, Horstmeyer Heinrich, Three-dimensional ground-penetrating radar imaging of sedimentary structures, fractures, and archaeological features at submeter resolution, 10.1130/g20776.1
  15. Grégoire Colette, Hollender Fabrice, Discontinuity Characterization by the inversion of the spectral content of ground penetrating radar (GPR) Reflections—Application of the Jonscher model, 10.1190/1.1836816
  16. Grégoire C., Halleux L., Lukas V., GPR abilities for the detection and characterisation of open fractures in a salt mine, 10.3997/1873-0604.2003004
  17. Y. Gueguen, and V. Palciauskas (1994 ) Introduction to the Physics of Rocks . Princeton University Press, Princeton, NJ, 294 pp.
  18. Guerin-Franiatte S., Hary A., Muller A., La formation des gres du Luxembourg au Lias inferieur; reconstitution dynamique du paleoenvironnement, 10.2113/gssgfbull.162.4.763
  19. Jol H.L., Ground Penetrating Radar in Sediments, 211, 9 (2003)
  20. Lambot S., Slob E.C., van den Bosch I., Stockbroeckx B., Vanclooster M., Modeling of ground-penetrating Radar for accurate characterization of subsurface electric properties, 10.1109/tgrs.2004.834800
  21. Lambot Sébastien, Bosch Idesbald van den, Stockbroeckx Benoit, Druyts Pascal, Vanclooster Marnik, Slob Evert, Frequency Dependence of the Soil Electromagnetic Properties Derived from Ground-Penetrating Radar Signal Inversion, 10.1007/s11220-005-4228-x
  22. Lambot S., Water Resour. Res., 42 (2006)
  23. Lambot Sébastien, Weihermüller Lutz, Huisman Johan A., Vereecken Harry, Vanclooster Marnik, Slob Evert C., Analysis of air-launched ground-penetrating radar techniques to measure the soil surface water content : SURFACE WATER CONTENT FROM AIR-LAUNCHED GPR, 10.1029/2006wr005097
  24. Lee Keumsuk, Zeng Xiaoxian, McMechan George A., Howell Charles D., Bhattacharya Janok P., Marcy Fanny, Olariu Cornel, A ground-penetrating radar survey of a delta-front reservoir analog in the Wall Creek Member, Frontier Formation, Wyoming, 10.1306/042705040106
  25. Moller I., Ground Penetrating Radar in Sediments, 211, 55 (2003)
  26. McMechan George A., Gaynor Gerard C., Szerbiak Robert B., Use of ground‐penetrating radar for 3-D sedimentological characterization of clastic reservoir analogs, 10.1190/1.1444188
  27. Mertens G., Ann. Soc. Geol. Belg., 106, 103 (1983)
  28. Molenaar N., Origin of Low-Permeability Calcite-Cemented Lenses in Shallow Marine Sandstones and CaCO3 Cementation Mechanisms: An Example from the Lower Jurassic Luxemburg Sandstone, Luxemburg, Carbonate Cementation in Sandstones ISBN:9781444304893 p.193-211, 10.1002/9781444304893.ch9
  29. Müller M., Mohnke O., Schmalholz J., Yaramanci U., Moisture assessment with small-scale geophysics - the Interurban project, 10.3997/1873-0604.2003008
  30. Neal Adrian, Ground-penetrating radar and its use in sedimentology: principles, problems and progress, 10.1016/j.earscirev.2004.01.004
  31. Neal Adrian, Richards Julie, Pye Ken, Structure and development of shell cheniers in Essex, southeast England, investigated using high-frequency ground-penetrating radar, 10.1016/s0025-3227(01)00239-0
  32. Pipan M., Forte E., Guangyou F., Finetti I., High resolution GPR imaging and joint characterization in limestone, 10.3997/1873-0604.2002006
  33. Reiss S., Ground Penetrating Radar in Sediments, 211, 247 (2003)
  34. Roberts M.C., Geol. Soc. London Spec. Publ., 211, 111 (2003)
  35. Robinson D.A., Soil J. Soil Sci. Soc. Am., 68, 1780 (2004)
  36. Sandmeier K.J., Software Reflexw (2005)
  37. Szerbiak R. B., McMechan G. A., Corbeanu R., Forster C., Snelgrove S. H., 3‐D characterization of a clastic reservoir analog: From 3‐D GPR data to a 3‐D fluid permeability model, 10.1190/1.1487050
  38. Walderhaug O., Bjrkum P. A., Calcite Cement in Shallow Marine Sandstones: Growth Mechanisms and Geometry, Carbonate Cementation in Sandstones ISBN:9781444304893 p.179-192, 10.1002/9781444304893.ch8
  39. West L. Jared, Handley Kirk, Huang Yi, Pokar Magdeline, Radar frequency dielectric dispersion in sandstone: Implications for determination of moisture and clay content : DIELECTRIC DISPERSION IN SANDSTONE, 10.1029/2001wr000923