Bibliography of Well-Log Applications
1996 Annual Update

PART B: APPLICATIONS

19. GROUND WATER APPLICATIONS

(See also 15. Fracture Detection, 20. Igneous Rocks)
  1. Bachu, S., and Hitchon, B., 1996, Regional-scale flow of formation waters in the Williston Basin: AAPG Bulletin, v. 80, no. 2, p. 248-264.
  2. Baker, M.R., Crain, K., Crissman, D., 1995, Geophysical signatures of paleosols in Plio-Pleistocene basin fill, paper I, in 6th international symposium on borehole geophysics form minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  3. Bauman, P.D., Sallomy, J.T., Brewster, M., and Brown, A., 1994, Borehole logging as an aid to the remediation of hydrocarbon contaminated aquifers, in 4th annual groundwater and soil remediation symposium proceedings: Canadian? [P.A. 614,372], p. 149-167.
  4. Bauman, P.D., Sallomy, J.T., and Brown, A., 1994, Borehole logging as an aid to hydrogeologic characterization of leaking underground storage tank sites, in 8th national outdoor action conference and exhibition proceedings: Ground Water Management, no. 18, p. 463-477.
  5. Bayless, E.R., Westjohn, D.B., and Watson, L.R., 1995, Use of surface and borehole geophysics to delineate the glacial-drift stratigraphy of northeastern St. Joseph County, Indiana: U.S. Geological Survey Water-Resources Investigations Report 95-4041, 42 p.
  6. Best, M.E., and Todd, B.J., 1996, Electromagnetic soundings, pseudo-resistivity logs and implications for porosity and ground water salinity, in Bell, R.S., and Cramer, M.H., compilers, Symposium on the applications of geophysics to engineering and environmental problems, proceedings: Environmental and Engineering Geophysical Society, p. 1061-1074.
  7. Bigelow, E.L., 1995, Investigating rock mechanical and fluid flow properties, paper J, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  8. Borner, F.D., 1995, Estimation of hydraulic conductivity from complex electrical measurements, paper SCA-9523, in International SCA symposium proceedings: Society of Professional Well Log Analysts, Society of Core Analysts Chapter-at-Large, 10 p.
  9. Davis, R.K., 1995, Application of borehole geophysical logging to the characterization of hydrofracture wells, paper T, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  10. Dearborn, L.L., Calkin, S.F., Andolsek, R.H., and Allison, W.S., 1996, Comparison of heat-pulse flow measurements and vertical gradients in a fractured limestone aquifer, in Bell, R.S., and Cramer, M.H., compilers, Symposium on the applications of geophysics to engineering and environmental problems, proceedings: Environmental and Engineering Geophysical Society, p. 843-851.
  11. Diodatao, D.M., and Parizek, R.R., 1994, Unsaturated hydrogeologic properties of reclaimed coal strip mines: Ground Water, v. 32, no. 1, p. 108-118.
  12. Dougherty, M.E., Baker, D.L., and Knutson, C.F., 1995, An evaluation of borehole and ground penetrating radar for vadose zone characterization, paper W, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  13. Evans, D.G., 1995, Inverting fluid conductivity logs for fracture inflow parameters: Water Resources Research, v. 31, no. 12, p. 2905-2915.
  14. Heathcote, J.A., 1995, The use of geophysical logging in understanding salinity distribution in alluvial aquifers--a case history from Oman, in Nash, H., ed., Groundwater quality: Chapman and Hall, London, The Geosciences in International Development 17, p. 99-104.
  15. Hess, A.E., 1985, Identifying hydraulically -conductive fractures with a low-velocity flowmeter: Canadian Geotechnical Journal, v. 23, p. 69-78.
  16. Hussein, M.T., Ibrahim, K.E., and Adam, E.G., 1994, Comparison of hydrogeological and electrical properties of a consolidated sandstone aquifer: Arab Gulf Journal of Scientific Research, v. 12, no. 2, p. 211-229.
  17. Julian, H.E., and Young, S.C., Measuring well development with an electromagnetic borehole flowmeter, in 8th national outdoor action conference and exhibition proceedings: Ground Water Management, no. 18, p. 725-737.
  18. Lowe, S. Tsang, C.F., Hale, F., and Hufschmied, P., 1990, The application of moment methods to the analysis of fluid electrical conductivity logs in boreholes: Lawrence Berkeley National Laboratory Report LBL-28809.
  19. Malard, F., and Chapuis, R., 1995, Temperature logging to describe the movement of sewage-polluted surface water infiltrating into a fractured rock aquifer: Journal of Hydrology, v. 173, p. 191-217.
  20. Morin, R.H., Carleton, G.B., and Poirer, S., 1995, Hydrogeologic structure of a fractured sedimentary-rock aquifer as determined from geophysical log analysis, Passaic Formation, central New Jersey, paper S, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  21. Nelson, P.H., 1995, Computation of porosity and saturation in the vadose zone at the Savannah River site, paper M, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  22. Nelson, P.H., and Kibler, J.E., 1995, Geophysical logs and groundwater chemistry in the A/M area, interim report, Savannah River site, South Carolina: U.S. Geological Survey Open-File OF 95-0507, 68 p.
  23. Nunn, J., 1996, Buoyancy-driven propagation of isolated fluid-filled fractures--implications for fluid transport in Gulf of Mexico geopressured sediments: Journal of Geophysical Research, v. 101, no. B2, February 10, p. 2963-2970.
  24. Paillet, F.L., 1993, Integrating geophysical well logs, surface geophysics, and hydraulic test and geologic data in ground-water studies--theory and case histories, in Applications of geophysics to engineering and environmental problems symposium proceedings, v. 2: Environmental and Engineering Geophysical Society, p. 479-496. Later published in 1995 as, Integrating surface geophysics, well logs and hydraulic test data in the characterization of heterogeneous aquifers: Journal of Environmental and Engineering Geophysics, v. 0, no. 1, p. 1-13.
  25. Paillet, F.L., and Allen, B.A., 1995, Comparison of flowmeter estimates of fracture zone permeability with conventional straddle packer injection tests, paper Y, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  26. Paillet, F., Crowder, R., and Hess, A., 1996, High-resolution flowmeter logging applications with the heat-pulse flowmeter: Journal of Environmental and Engineering Geophysics, v. 1, no. 1, p. 1-11.
  27. Schlickenrieder, L., 1994, Geophysical well log analysis in shaly sandstone for hydrogeological purposes: University of Alberta, Edmonton, Alberta, Canada, unpublished M.S. thesis, 204 p.
  28. Schon, J.H., 1995, Fluid logging for waste site investigation and fluid flow simulation, paper N, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  29. Schon, J.H., 1995, Logging in completed water wells, paper R, in 6th international symposium on borehole geophysics for minerals, geotechnical and groundwater applications, proceedings: Society of Professional Well Log Analysts, Minerals and Geotechnical Logging Society Chapter-at-Large.
  30. Shomaker, J.W., and Collier, H.A., 1995, Transmissivity of the Albuquerque aquifer; estimates by advanced logging techniques, in The water future of Albuquerque and middle Rio Grande Basin: New Mexico Water Resources Research Institute Report No. 290, p. 199-207.
  31. Shushakov, O.A., 1996, Groundwater NMR in conductive water: Geophysics, v. 61, no. 4, p. 998-1006.
  32. Sloto, R.A., 1996, Use of borehole geophysical methods to identify and prevent cross-contamination in a multiaquifer groundwater system: Journal of Environmental and Engineering Geophysics, v. 1, no. 1, p. 13-20.
  33. Tang, X., 1996, Fracture hydraulic conductivity estimation from borehole Stoneley wave transmission and reflection data, paper HH, in 37th annual logging symposium transactions: Society of Professional Well Log Analysts, 11 p.
  34. Tellam, J.H., 1992, Reversed flow test--a borehole logging methods for estimating pore water quality and inflow rates along an uncased borehole profile: Ground Water Monitoring Review, v. 12, no. 2, p. 146-152.
  35. Vasseur, G., and Demongodin, L., 1995, Convective and conductive heat transfer in sedimentary basins: Basin Research, v. 7, no. 1, p. 67-79.
  36. Williams, J.H., 1996, Application of borehole geophysics at the Retsof salt-mine collapse site, western New York, in Bell, R.S., and Cramer, M.H., compilers, Symposium on the applications of geophysics to engineering and environmental problems, proceedings: Environmental and Engineering Geophysical Society, p. 813-821.