Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
  1. Home
  2. Books
  3. Near-Surface Applied Geophysics
  • Cited by 140
Publisher:
Cambridge University Press
Online publication date:
April 2013
Print publication year:
2013
Online ISBN:
9781139088435
DOI:
https://doi.org/10.1017/CBO9781139088435
Subjects:
Earth and Environmental Sciences, Solid Earth Geophysics, Earth and Environmental Science: General Interest
Information

Book description

Just a few meters below the Earth's surface lie features of great importance, from geological faults which can produce devastating earthquakes, to lost archaeological treasures. This refreshing, up-to-date book explores the foundations of interpretation theory and the latest developments in near-surface techniques, used to complement traditional geophysical methods for deep-exploration targets. Clear but rigorous, the book explains theory and practice in simple physical terms, supported by intermediate-level mathematics. Techniques covered include magnetics, resistivity, seismic reflection and refraction, surface waves, induced polarization, self-potential, electromagnetic induction, ground-penetrating radar, magnetic resonance, interferometry, seismoelectric and more. Sections on data analysis and inverse theory are provided and chapters are illustrated by case studies, giving students and professionals the tools to plan, conduct and analyze a near-surface geophysical survey. This is an important textbook for advanced-undergraduate and graduate students in geophysics and a valuable reference for practising geophysicists, geologists, hydrologists, archaeologists, and civil and geotechnical engineers.

Reviews

‘This book provides an excellent introduction to the rapidly emerging field of near-surface geophysics. The state-of-the-art material covered in the text will not only be helpful for undergraduate and graduate students, but it will also serve as a valuable reference for practitioners.’

Hansruedi Maurer - ETH Zürich

‘A great book for teaching undergraduates the essence of all geophysical techniques used in near surface exploration; the mix of theory, practice and case studies is just right for students.’

Graham Heinson - University of Adelaide

‘This is an excellent text for advanced geophysics undergraduate and graduate students, a valuable resource for scientists and engineers involved in characterizing the earth’s near surface, and the material fills a void in the bookshelves of many geoscientists.’

Doug Oldenburg - University of British Columbia

'In summary, this is an excellent advanced near-surface applied-geophysics textbook. Unlike many traditional exploration geophysics textbooks, this one also includes the basic geophysical exploration data analysis and inversion chapters. This is indeed an important near-surface applied-geophysics textbook, covering most up-to-date near-surface applied-geophysics techniques.'

Source: The Leading Edge

Refine List

Actions for selected content:

Select all | Deselect all
  • View selected items
  • Export citations
  • Download PDF (zip)
  • Save to Kindle
  • Save to Dropbox
  • Save to Google Drive

Save Search

You can save your searches here and later view and run them again in "My saved searches".

Please provide a title, maximum of 40 characters.
Cancel
×

Contents

Contents
References
References
Ahmad, J., Schmitt, D. R., Rokosh, C. D., and Pawlowicz, J. G. (2009). High-resolution seismic and resistivity profiling of a buried Quaternary subglacial valley: Northern Alberta, Canada. Geological Society of America Bulletin, 121, 1570–1583.
Ajo-Franklin, J. B., Geller, J. T., and Harris, J. M. (2007). Ultrasonic properties of granular media saturated with DNAPL/water mixtures. Geophysical Research Letters, 34, 2006GL029200.
Aki, K. (1957). Space and time spectra of stationary stochastic waves, with special reference to microtremors. Bulletin of the Earthquake Research Institiute, University of Tokyo, 35, 415–456.
al-Garni, M. and Everett, M. E. (2003). The paradox of anisotropy in electromagnetic loop–loop responses over a uniaxial halfspace. Geophysics, 68, 892–899.
Alnes, H., Eiken, O., and Stenvold, T. (2008). Monitoring gas production and CO2 injection at the Sleipner field using time-lapse gravimetry. Geophysics, 73, WA155–WA161.
Anderson, W. L. (1979). Computer program: numerical integration of related Hankel transforms of orders 0 and 1 by adaptive digital filtering. Geophysics, 44, 1287–1305.
Andrew, E. R. (2007). Magnetic resonance imaging: a historical overview. In Encyclopedia of Magnetic Resonance: Historical Perspectives. New York: John Wiley & Sons.
Annan, A. P. (2009). Electromagnetic principles of ground-penetrating radar. In Ground Penetrating Radar: Theory and Applications, ed. Jol, J. M.. Amsterdam: Elsevier, pp. 3–40.
Annan, A. P. and Davis, J. L. (1997). Ground penetrating radar – coming of age at last!! In Proceedings of Exploration 97: 4th Decennial International Conference on Mineral Exploration, ed. A. G. Gubins. pp. 515–522.
Archie, G. E. (1942). The electrical resistivity log as an aid in determining some reservoir characteristics. Transactions of the American Institute of Mining, Metallurgical and Petroleum Engineers, 146, 54–61.
Arfken, G., Weber, , , H., and Harris, , , F.E. (2012). Mathematical Methods for Physicists, 7th edn. Waltham, MA: Academic Press.
Arms, R. J. and Hama, F. R. (1965). Localized-induction concept on a curved vortex and motion of an elliptic vortex ring. Physics of Fluids, 8, 553–559.
Asquith, G. B. (1995). Determining carbonate pore types from petrophysical logs. In Carbonate Facies and Sequence Stratigraphy: Practical Applications of Carbonate Models, ed. Pause, P. H. and Candelaria, M. P.. Tulsa, OK: Society of Economic and Paleontological Mineralogists – Permian Basin Section, pp. 69–80.
Aster, R. C., Borchers, B., and Thurber, C. H. (2012). Parameter Estimation and Inverse Problems, 2nd ed. San Diego, CA: Academic Press.
ASTM. (2011). Standard Guide for Selecting Surface Geophysical Methods. ASTMD6429–99.
Auken, E., Pellerin, L., Christensen, N. B., and Sørensen, K. (2006). A survey of current trends in near-surface electrical and electromagnetic methods. Geophysics, 71, G249–G260.
Auken, E., Violette, S., d’Ozouville, N., et al. (2009). An integrated study of the hydrogeology of volcanic islands using helicopter borne transient electromagnetic: application in the Galápagos Archipelago. Comptes Rendus Geoscience, 341, 899–907.
Aziz, Z., van Geen, A., Stute, M., et al. (2008). Impact of local recharge on arsenic concentrations in shallow aquifers inferred from the electromagnetic conductivity of soils in Araihazar, Bangladesh. Water Resources Research, 44, 2007WR006000.
Baker, G. S. (1999). Processing near-surface seismic-reflection data: a primer. In Course Notes Series 9, ed. Young, R. A.. Tulsa, OK, Society of Exploration Geophysicists Press.
Baker, G. S., Steeples, D. W., Schmeissner, C., and Spikes, K. T. (2000). Source-dependent frequency content of ultrashallow seismic reflection data. Bulletin of the Seismological Society of America, 90, 494–499.
Baker, G. S., Strasser, J. C., Evenson, E. B., et al. (2003). Near-surface seismic reflection profiling of the Matanuska Glacier, Alaska. Geophysics, 68, 147–156.
Bard, A. J. and Faulkner, L. R. (2001). Electrochemical Methods: Fundamentals and Applications, 2nd edition. New York, NY: John Wiley & Sons.
Baumgartner, F. and Christensen, N. B. (1998). Analysis and application of a non-conventional underwater geoelectrical method in Lake Geneva, Switzerland. Geophysical Prospecting, 46, 527–541.
Beamish, D. (2000). Quantitative 2-D VLF data interpretation. Journal of Applied Geophysics, 45, 33–47.
Beamish, D. (2011). Low induction number, ground conductivity meters: a correction procedure in the absence of magnetic effects. Journal of Applied Geophysics, 75, 244–253.
Becker, E. D., Fisk, C. L., and Khetrapal, C. L. (2007). Development of NMR: from the early beginnings to the early 1990s. In Encyclopedia of Magnetic Resonance: Historical Perspectives. New York, NY: John Wiley & Sons.
Bellman, R. E. (1957). Dynamic Programming. Princeton, NJ: Princeton University Press.
Benavides, A. and Everett, M. E. (2005). Target signal enhancement in near-surface controlled source electromagnetic data. Geophysics, 70, G59–67.
Benavides, A., Everett, M. E., and Pierce, C. (2009). Unexploded ordnance discrimination using time-domain electromagnetic induction and self-organizing maps. Stochastic Environmental Research and Risk Assessment, 23, 169–179.
Berkhout, A. J. (1977). Least-squares inverse filtering and wavelet deconvolution. Geophysics, 42, 1369–1383.
Berkowitz, B. and Scher, H. (2005). Quantification of non-Fickian transport in fractured formations. In Dynamics of Fluids and Transport in Fractured Rock, eds. Faybishenko, B., Witherspoon, P. A. and Bale, J.. AGU Geophysical Monograph 162, 23–31.
Bexfield, C. E., McBride, J. H., Pugin, A. J. M., et al. (2006). Integration of P- and SH-wave high-resolution seismic reflection and micro-gravity techniques to improve interpretation of shallow subsurface structure: new Madrid seismic zone. Tectonophysics, 420, 5–21.
Bhattacharya, P. K. and Patra, H. P. (1968). Direct Current Geoelectric Sounding. Amsterdam: Elsevier.
Blakely, R. C. (1995). Potential Theory in Gravity and Magnetic Applications. Cambridge: Cambridge University Press.
Bloom, A. L. (1962). Principles of operation of the rubidium vapor magnetometer. Applied Optics, 1, 61–68.
Boadu, F. K., Gyamfi, J., and Owusu, E. (2005). Determining subsurface fracture characteristics from azimuthal resistivity surveys: a case study at Nsawam, Ghana. Geophysics, 70, B35–B42.
Bonnet, E., Bour, O., Odling, N. E., et al. (2001). Scaling of fracture systems in geological media. Reviews of Geophysics, 39, 347–383.
Borchers, B., Uram, T., and Henrickx, J. M. H. (1997). Tikhonov regularization of electrical conductivity depth profiles in field soils. Soil Science Society of America Journal, 61, 1004–1009.
Boschetti, F., Dentith, M., and List, R. (1997). Inversion of potential field data by genetic algorithms. Geophysical Prospecting, 45, 461–478.
Boudreault, J. P., Dube, J. S., Chouteau, M., Winiarski, T., and Hardy, E. (2010). Geophysical characterization of contaminated urban fills. Engineering Geology, 116, 196–206.
Bracewell, R. N. (2000). The Fourier Transform and its Applications, 3rd edn. New York. NY: McGraw-Hill.
Bradford, J. H. and Deeds, J. C. (2006). Ground-penetrating radar theory and application of thin-bed offset-dependent reflectivity. Geophysics, 71, K47–K57.
Branston, M. W. and Styles, P. (2003). The application of time-lapse micro gravity for the investigation and monitoring of susidence at Northwich, Chesire. Quarterly Journal of Engineering Geology and Hydrogeology, 36, 231–244.
Brigham, E. O. (1988). The Fast Fourier Transform and its Applications. Upper Saddle River, NJ: Prentice-Hall.
Budker, D. and Romalis, M. (2007). Optical magnetometry. Nature Physics, 3, 227–234.
Butler, D. K. (2003). Implications of magnetic backgrounds for unexploded ordnance detection, Journal of Applied Geophysics, 54, 111–125.
Butler, D. W. (2005). What is near-surface geophysics? In Near-Surface Geophysics, ed. Butler, D. W.. Tulsa, OK: Society of Exploration Geophysicists Press, pp. 1–6.
Butler, K. E. (2009). Trends in waterborne electrical and EM induction methods for high resolution sub-bottom imaging. Near Surface Geophysics, 7, 241–246.
Calderon-Macias, C., Sen, M. K., and Stoffa, P. L. (2000). Artificial neural networks for parameter estimation in geophysics. Geophysical Prospecting, 48, 21–47.
Campbell, W. H. (2003). Introduction to Geomagnetic Fields, 2nd edn. Cambridge: Cambridge University Press.
Candansayar, M. E. and Tezkan, B. (2008). Two-dimensional joint inversion of radiomagnetotelluric and direct current resistivity data. Geophysical Prospecting, 56, 737–749.
Cassidy, N. J. (2009). Ground penetrating radar data processing, modelling and analysis. In Ground Penetrating Radar: Theory and Applications, ed. Jol, H. M.. Amsterdam: Elsevier, pp. 141–176.
Castagna, J. P. (1993). AVO analysis – tutorial and review. In Offset-Dependent Reflectivity – Theory and Practice of AVO Analysis, ed. Castagna, J. P. and Backus, M. M.. Tulsa, OK, Society of Exploration Geophysicists, pp. 3–36.
Cavinato, G. P., Di Luzio, E., Moscatelli, M., et al. (2006). The new Col di Tenda tunnel between Italy and France: integrated geological investigations and geophysical prospections for preliminary studies on the Italian side. Engineering Geology, 88, 90–109.
Chambers, J. E., Wilkinson, P. B., Kuras, O., et al. (2011). Three-dimensional geophysical anatomy of an active landslide in Lias Group mudrocks, Cleveland basin, UK. Geomorphology, 125, 472–484.
Chapman, C. H. (2004). Fundamentals of Seismic Wave Propagation. Cambridge: Cambridge University Press.
Chave, A. D. (1983). Numerical integration of related Hankel transforms by quadrature and continued fraction expansion. Geophysics, 48, 1671–1686.
Chave, A. D. and Jones, A. G. (2012). The Magnetotelluric Method: Theory and Practice. Cambridge: Cambridge University Press.
Chelidze, T. L. and Gueguen, Y. (1999). Electrical spectroscopy of porous rocks: a review – I. Theoretical models. Geophysical Journal International, 137, 1–15.
Chen, Q. F., Liu, L. B., Wang, W. J., and Rohrbach, E. (2009). Site effects on earthquake ground motion based on microtremor measurements for metropolitain Beijing. Chinese Science Bulletin, 54, 280–287.
Cheo, B. R. S. (1965). A reciprocity theorem for electromagnetic fields with general time dependence. IEEE Transactions on Antennas and Propagation, 13, 278–284.
Chib, S. and Greenberg, E. (1995). Understanding the Metropolis–Hastings algorithm. American Statistician, 49, 327–335.
Ciminale, M. and Gallo, D. (2008). High-resolution magnetic survey in a quasi-urban environment. Near Surface Geophysics, 9, 97–103.
Clark, D. A. (1997). Magnetic petrophysics and magnetic petrology: aids to geological interpretation of magnetic surveys. Journal of Australian Geology and Geophysics, 17, 83–103.
Cole, K. S. and Cole, R. H. (1941). Dispersion and absorption in dielectrics. I. Alternating current characteristics. Journal of Chemical Physics, 9, 341–351.
Collins, J. L., Everett, M. E., and Johnson, B. (2006). Detection of near-surface horizontal anisotropy in a weathered metamorphic schist at Llano Uplift (Texas) by transient electromagnetic induction. Physics of the Earth and Planetary Interiors, 158, 159–173.
Conway, B. E. and Barradas, R. G. (1966). Chemical Physics of Ionic Solutions, New York, NY:John Wiley & Sons.
Conyers, L. B. (2011). Discovery, mapping and interpretation of buried cultural resources non-invasively with ground-penetrating radar. Journal of Geophysical Engineering, 8, S13–S22.
Cooper, G. R. J. and Cowan, D. R., (2011). A generalized derivative operator for potential field data. Geophysical Prospecting, 59, 188–194.
Corrington, M. S. and Kidd, M. C. (1951). Amplitude and phase measurements on loudspeaker cones. Proceedings of the Institute of Radio Engineers, 39, 1021–1026.
Cullity, B. D. and Graham, C. D. (2009). Introduction to Magnetic Materials, 2nd edn. Hoboken, NJ: Wiley–IEEE Press.
Dahlin, T. (2001). The development of DC resistivity imaging techniques. Computers and Geosciences, 27, 1019–1029.
Daily, W. and Owen, E. (1991). Cross-borehole resistivity tomography. Geophysics, 56, 1228–1235.
Davis, J. L. and Annan, A. P. (1989). Ground-penetrating radar for high-resolution mapping of soil and rock stratigraphy. Geophysical Prospecting, 37, 531–551.
Day-Lewis, F. D., White, E. A., Johnson, C. D., and Lane, J. W.., (2006). Continuous resistivity profiling to delineate submarine groundwater discharge – examples and limitations. The Leading Edge, 25, 724–728.
Dean, E. B. (1988). Linear least squares for correlated data. Proceedings, 10th Annual Conference of the International Society of Parametric Analysts, Brighton, UK.
Dekkers, M. J. (1997). Environmental magnetism: an introduction. Geologie en Mijnbouw, 76, 163–182.
Delgado, A. V., Gonzalez-Caballero, F., Hunter, R. J., Koopal, L. K., and Lyklema, J. (2005). Measurement and interpretation of electrokinetic phenomena. Pure and Applied Chemistry, 77, 1753–1805.
Deparis, J. and Garambois, S. (2009). On the use of dispersive APVO GPR curves for thin-bed properties estimation: theory and application to fracture characterization. Geophysics, 74, J1–J12.
Deregowski, S. M. (1986). What is DMO?First Break, 4, 7–24.
Dey, A. and Ward, S. H. (1970). Inductive sounding of a layered Earth with a horizontal magnetic dipole. Geophysics, 35, 660–703.
Dias, C. A. (2000). Developments in a model to describe low-frequency electrical polarization of rocks. Geophysics, 65, 437–451.
Diebold, J. B. and Stoffa, P. L. (1981). The traveltime equation, tau–p mapping, and inversion of common midpoint data, Geophysics, 46, 238–254.
Docherty, P. and Kappius, R. (1993). A workstation implementation of 3-D refraction statics. SEG Expanded Abstracts, 63rdAnnual Meeting, Washington, DC, pp. 1166–1169.
Doherty, R., Kulessa, B., Ferguson, A. S., et al. (2010). A microbial fuel cell in contaminated ground delineated by electrical self-potential and normalized induced polarization data. Journal of Geophysical Research, 115, 2009JG001131.
Doll, W. E., Miller, R. D., and Bradford, J. (2012). The emergence and future of near-surface geophysics. The Leading Edge, 31, 684–692.
Domenico, P. A. and Schwartz, F. W. (1998). Physical and Chemical Hydrogeology, 2nd edition. Chichester: Wiley.
Doyle, P. G. and Snell, J. L. (1984). Random walks and electric networks. Carus Mathematical Monographs, 22.
Dupuis, J. C., Butler, K. E., and Kepic, A. W. (2007). Seismoelectric imaging of the vadose zone of a sand aquifer. Geophysics, 72, A81–A85.
Duque, C., Calvache, M. L., Pedrera, A., Martin-Rosales, W., and López-Chicano, M. (2008). Combined time domain electromagnetic soundings and gravimetry to determine marine intrusion in a detrital coastal aquifer (southern Spain). Journal of Hydrology, 349, 536–547.
Eke, A., Herman, P., Bassingthwaighte, J. B., et al. (2000). Physiological time series: distinguishing fractal noises from motions. Pflugers Archiv European Journal of Physiology, 439, 403–415.
Eliseevnin, V. A. (1965). Analysis of waves propagating in an inhomogeneous medium. Soviet Physics Acoustics, 10, 242–245.
Engheta, N., Papas, C. H., and Elachi, C. (1982). Radiation patterns of interfacial dipole antennas. Radio Science, 17, 1557–1566.
Eskola, L., Puranen, R., and Soininen, H. (1999). Measurements of magnetic properties of steel sheets. Geophysical Prospecting, 47, 593–662.
Etgen, J., Gray, S. H., and Zhang, Y. (2009). An overview of depth imaging in exploration geophysics. Geophysics, 74, WCA5–WCA17.
Everett, M. E. (2005). What do electromagnetic induction responses measure?The Leading Edge, 24, 154–157.
Everett, M. E. (2012). Theoretical developments in electromagnetic induction geophysics with selected applications in the near surface. Surveys in Geophysics, 33, 29–63.
Everett, M. E. and Constable, S. (1999). Electric dipole fields over an anisotropic seafloor: theory and application to the structure of 40 Ma Pacific Ocean lithosphere. Geophysical Journal International, 136, 41–56.
Everett, M. E. and Meju, M. A. (2005). Near-surface controlled-source electromagnetic induction: background and recent advances. In Hydrogeophysics, ed. Rubin, Y. and Hubbard, S. S.. New York, NY: Springer, pp. 157–183.
Everett, M. E. and Schultz, A. (1993). Two-dimensional nonlinear magnetotelluric inversion using a genetic algorithm. Journal of Geomagnetism and Geoelectricity, 45, 1013–1026.
Everett, M. E. and Weiss, C. J. (2002). Geological noise in near-surface electromagnetic induction data. Geophysical Research Letters, 29, 2001GL014049.
Everett, M. E., Pierce, C. J., Save, N., et al. (2006). Geophysical investigation of the June 6, 1944 D-Day invasion site at Pointe du Hoc, Normandy, France. Near Surface Geophysics, 4, 289–304.
Fassbinder, J. W. E., Stanjek, H., and Vali, H. (1990). Occurrence of magnetic bacteria in soil. Nature, 343, 161–163.
Finizola, A., Revil, A., Rizzo, E., et al. (2006). Hydrogeological insights at Stromboli volcano (Italy) from geoelectrical, temperature, and CO2 soil degassing investigations. Geophysical Research Letters, 33, 2006GL026842.
Finlay, C. C., Maus, S., Beggan, C. D., et al. (2010). International Geomagnetic Reference Field: the eleventh generation. Geophysical Journal International, 183, 1216–1230.
Fischer, T. and Guest, A. (2011). Shear and tensile earthquakes caused by fluid injection. Geophysical Research Letters, 38, 2010GL045447.
Fitterman, D. V. and Anderson, W. L. (1987). Effect of transmitter turn-off time on transient soundings. Geoexploration, 24, 131–146.
Fitterman, D. V. and Labson, V. F. (2005). Electromagnetic induction methods for environmental problems. In Near-Surface Geophysics, ed. Butler, D. K.. Tulsa, OK: Society of Exploration Geophysicists, pp. 301–356.
Fletcher, R. and Reeves, C. M. (1964). Function minimization by conjugate gradients. Computer Journal, 7, 149–154.
Florsch, N., Llubes, M., Tereygeol, F., Ghorbani, A., and Roblet, P. (2011). Quantification of slag heap volumes and masses through the use of induced polarization: application to the Castel-Minier site. Journal of Archaeological Science, 38, 438–451.
Focke, J. W. and Munn, D. (1987). Cementation exponents in Middle Eastern carbonate reservoirs, Society of Petroleum Engineers Formation Evaluation, 2, 155–167.
Fowler, C. M. R. (2005). The Solid Earth: An Introduction to Global Geophysics, 2nd edn. Cambridge: Cambridge University Press.
French, A. P. (1971). Vibrations and Waves. New York, NY: W.W. Norton and Co.
Frigui, H., Zhang, L., Gader, P., et al. (2012). An evaluation of several fusion algorithms for anti-tank landmine detection and discrimination. Infomation Fusion, 13, 161–174.
Frisch, U. and Sornette, D. (1997). Extreme deviations and applications. Journal de Physique I France, 7, 1155–1171.
Frohlich, C., Hayward, C., Stump, B., and Potter, E. (2011). The Dallas–Fort Worth earthquake sequence: October 2008 through May 2009. Bulletin of the Seismological Society of America, 101, 327–340.
Furman, A., Ferre, T. P .A., and Warrick, A. W. (2003). A sensitivity analysis of electrical resistivity tomography array types using analytical element modeling. Vadose Zone Journal, 2, 416–423.
Gaffney, C. F., Gater, J. A., Linford, P., Gaffney, V. L., and White, R. (2000). Large-scale systematic fluxgate gradiometry at the Roman city of Wroxeter. Archaeological Prospection, 7, 81–99.
Gal, D., Dvorkin, J., and Nur, A. (1999). Elastic-wave velocities in sandstones with non-load-bearing clay. Geophysical Research Letters, 26, 939–942.
Gallagher, K., Sambridge, M., and Drijkoningen, G. (1991). Genetic algorithms: an evolution from Monte Carlo methods for strongly non-linear geophysical optimization problems. Geophysical Research Letters, 18, 2177–2180.
Garambois, S. and Dietrich, M. (2001). Seismoelectric wave conversions in porous media: field measurements and transfer function analysis. Geophysics, 66, 1417–1430.
Gardner, L. W. (1967). Refraction seismograph profile interpretation. In Seismic Refraction Prospecting, ed. Musgrave, A. W.. Tulsa, OK: Society of Exploration Geophysicists Press, pp. 338–347.
Geman, S. and Geman, D. (1984). Stochastic relaxation, Gibbs distribution and the Bayesian restoration of images. IEEE Transactions on Pattern Analysis and Machine Intelligence, 6, 721–741.
Gharibi, M. and Bentley, L. R. (2005), Resolution of 3-D electrical resistivity images from inversions of 2-D orthogonal lines. Journal of Environmental and Engineering Geophysics, 10, 339–349.
Gill, P. E., Murray, W., and Wright, M. H. (1982). Practical Optimization. Bingley: Emerald Publishing Group.
Gjoystdal, H., Iversen, E., Lecomte, I., et al. (2007). Improved applicabilty of ray tracing in seismic acquisition, imaging, and interpretation. Geophysics, 72, SM261–SM271.
Goldstein, M. A. and Strangway, D. W. (1975). Audio-frequency magnetotellurics with a grounded electric dipole source. Geophysics, 40, 669–683.
Golub, G. H. and van Loan, C. F. (1996). Matrix Computations, 3rd edn. Baltimore, MD: Johns Hopkins University Press.
Gorham, P., Saltzberg, D., Odian, A., et al. (2002). Measurements of the suitability of large rock salt formations for radio detection of high-energy neutrinos. Nuclear Instruments and Methods A, 490, 476–491.
Goring, D. G. and Nikora, V. I. (2002). Despiking acoustic Doppler velocimeter data. ASCE Journal of Hydraulic Engineering, 128, 117–126.
Gorman, E. M., Everett, M. E., and Johnson, B. (1998). Controlled-source electromagnetic mapping of a faulted sandstone aquifer in central Texas. Proceedings of SAGEEP, 11, 975–984.
Grant, F. S. and West, G. F. (1965). Interpretation Theory in Applied Geophysics. New York, NY: McGraw-Hill.
Grauch, V. J. S. (2002). High Resolution Aeromagnetic Survey to Image Shallow Faults, Dixie Valley Geothermal Field, Nevada. USGS Open-File Report, 02–0384.
Gray, S. H., Etgen, J., Dellinger, J., and Whitmore, D. (2001). Seismic migration problems and solutions. Geophysics, 66, 1622–1640.
Grotzinger, J. and Jordan, T. H. (2010). Understanding Earth, 6th edn. New York, NY: W. H. Freeman.
Gubbins, D. (2004). Time Series Analysis and Inverse Theory for Geophysicists. Cambridge: Cambridge University Press.
Gudmundsson, A. (2011). Rock Fractures in Geological Processes. Cambridge: Cambridge University Press.
Gueguen, Y. and Palciauskas, V. (1994). VIII. Electrical conductivity. In Introduction to the Physics of Rocks. Princeton, NJ: Princeton University Press, pp. 182–211.
Guptasarma, D. and Singh, B. (1997). New digital linear filters for Hankel J0 and J1 transforms. Geophysical Prospecting, 45, 745–762.
Gurer, A., Bayrak, M., Gurer, O. F., and Sahin, S. Y. (2008). Delineation of weathering in the Catalca granite quarry with the very low frequency (VLF) electromagnetic method. Pure and Applied Geophysics, 165, 429–441.
Haartsen, M. W. and Pride, S. R. (1997). Electroseismic waves from point sources in layered media. Journal of Geophysical Research, 102, 24745–24769.
Hansen, P. C. (1987). The truncated SVD as a method for regularization. BIT, 27, 534–553.
Hansen, R. O., Racic, L., and Grauch, V. J. S. (2005). Magnetic methods in near-surface geophysics. In Near-Surface Geophysics, ed. Butler, D. W.. Tulsa, OK: Society of Exploration Geophysicists Press, pp. 151–176.
Harris, F. J. (1978). On the use of windows for harmonic analysis with the discrete Fourier transform. Proceedings of the Institute of Electrical and Electronics Engineers, 66, 51–83.
Haskell, N. A. (1953). The dispersion of surface waves on multilayered media. Bulletin of the Seismological Society of America, 43, 17–34.
Hastings, W. K. (1970). Monte Carlo sampling methods using Markov chains and their applications. Biometrika, 57, 97–109.
Hauser, J., Sambridge, M., and Rawlinson, N. (2008). Multiarrival wavefront tracking and its applications. Geochemistry, Geophysics, Geosystems, 9, 2008GC018779.
Hertrich, M. (2008). Imaging of groundwater with nuclear magnetic resonance. Progress in Nuclear Magnetic Resonance Spectroscopy, 53, 227–248.
Hestenes, M. R. and Stiefel, E. (1952). Methods of conjugate gradients for solving linear systems. Journal Research National Bureau of Standards, 49, 409–436.
Hintz, K. J. (2004). SNR improvements in NIITEK ground penetrating radar. Proceedings SPIE, 5415, 399–408.
Hizem, M., Budan, H., Deville, B., et al. (2008). Dielectric dispersion: a new wireline petrophysical measurement, Society of Petroleum Engineers Technical Papers, 116130.
Holland, A. (2011). Examination of Possibly Induced Seismicity from Hydraulic Fracturing in the Eola Field, Garvin County, Oklahoma, Oklahoma Geological Survey Open-File Report, OF1–2011.
Holland, J. H. (1975). Adaptation in Natural and Artificial Systems. Ann Arbor, MI: University Michigan Press.
Hollender, F. and Tillard, S. (1998). Modeling ground-penetrating radar wave propagation and reflection with the Jonscher parameterization. Geophysics, 63, 1933–1942.
Huang, H. and Palacky, G. J. (1991). Damped least-squares inversion of time-domain airborne EM data based on singular value decomposition. Geophysical Prospecting, 39, 827–844.
Huang, H. and Won, I. J. (2003). Automated anomaly picking from broadband electromagnetic data in an unexploded ordnance (UXO) survey. Geophysics, 68, 1870–1876.
Hughes, L. J. (2009). Mapping contaminant-transport structures in karst bedrock with ground-penetrating radar. Geophysics, 74, B197–B208.
Huntley, D. (1986). Relations between permeability and electrical resistivity in granular aquifers. Ground Water, 24, 466–474.
Hunziker, J., Slob, E., Fan, Y., Snieder, R., and Wapenaar, K. (2012). Two-dimensional controlled-source electromagnetic interferometry by multidimensional deconvolution: spatial sampling aspects, Geophysical Prospecting, 60, 974–994.
Hurlimann, M. P. (2012). Well logging. In Encyclopedia of Magnetic Resonance. New York, NY: John Wiley & Sons.
Ingber, L. (1989). Very fast simulated re-annealing. Mathematical and Computer Modeling, 12, 967–973.
Irving, J. D. and Knight, R. J. (2003). Removal of wavelet dispersion from ground-penetrating radar data. Geophysics, 68, 960–970.
Ismail, N. and Pedersen, L. (2011). The electrical conductivity distribution of the Hallandas horst, Sweden: a controlled source radiomagnetotelluric study. Near Surface Geophysics, 9, 45–54.
Jackson, J. D. (1998). Classical Electrodynamics, 3rd edn. New York, NY: John Wiley & Sons.
Jacob, T., Bayer, R., Chery, J., and Le Moigne, N. (2010). Time-lapse microgravity surveys reveal water storage heterogeneity of a karst aquifer. Journal of Geophysical Research, 115, 2009JB006616.
Jahns, H. O. (1966). A rapid method for obtaining a two-dimensional reservoir description from well pressure response data. Society of Petroleum Engineers Journal, 6, 315–327.
Jaynes, E. T. (1986). Bayesian methods: general background. In Maximum Entropy and Bayesian Methods in Applied Statistics, ed. Justice, J. H.. Cambridge: Cambridge University Press, pp. 1–25.
Johnson, W. E. (1932). Probability: the deductive and inductive problems. Mind, 41, 409–423.
Jones, D. S. (1964). Theory of Electromagnetism. New York, NY: Macmillan.
Jonscher, A. K. (1977). The univerzal dielectric response. Nature, 267, 673–679.
Jouniaux, L., Maineult, A., Naudet, V., Pessel, M., and Sailhac, P. (2009). Review of self-potential methods in hydrogeophysics. Comptes Rendus Geoscience, 341, 928–936.
Kaiser, A. E., Horstmeyer, H., Green, A. G., et al. (2011). Detailed images of the shallow Alpine fault zone, New Zealand, determined from narrow-azimuth 3D seismic reflection data. Geophysics, 76, B19–B32.
Kaiser, G. (1994). A Friendly Guide to Wavelets. Cambridge, MA: Birkhauser.
Kanasewich, E. R. (1981). Time Sequence Analysis in Geophysics, 3rd edn. Edmonton, Alberta: University of Alberta Press.
Katz, A. J. and Thompson, A. H. (1986). Quantitative prediction of permeability in porous rock. Physical Review B, 34, 8179–8181.
Keating, P. and Sailhac, P. (2004). Use of the analytic signal to identify magnetic anomalies due to kimberlite pipes. Geophysics, 69, 180–190.
Keller, G. V. and Frischknecht, F. C. (1966). Electrical Methods in Geophysical Prospecting. New York, NY: Pergamon Press.
Keller, J. B. (1957). Diffraction by an aperture. Journal of Applied Physics, 28, 426–442.
Kirkpatrick, S., Gelatt, C. D., and Vecchi, M. P. (1983). Optimization by simulated annealing. Science, 220, 671–680.
Kittel, C. (2004). Introduction to Solid State Physics, 8th edn. New York, NY: John Wiley & Sons.
Klein, J. D. and Sill, W. R. (1982). Electrical properties of artificial clay-bearing sandstone. Geophysics, 47, 1593–1605.
Kleinberg, R. L. (1996). Probing oil wells with NMR. The Industrial Physicist, 2, 18–21.
Knapp, R. W. and Steeples, D. W. (1986). High-resolution common-depth-point seismic reflection profiling; field acquisition parameter design. Geophysics, 51, 283–294.
Knight, R. (2001). Ground penetrating radar for environmental applications. Annual Review of Earth and Planetary Science, 29, 229–255.
Knight, R. J. and Endres, A. L. (2005). An introduction to rock physics principles for near-surface geophysics. In Near-Surface Geophysics, ed. Butler, D. K.. Tulsa, OK: Society of Exploration Geophysicists Press, pp. 31–70.
Kohonen, T. (1990). The self-organizing map. Proceedings of the IEEE, 78, 1464–1480.
Kowalik, J. S. and Osborne, M. R. (1968). Methods for Unconstrained Optimization Problems, Amsterdam: Elsevier.
Krawczyk, C. M., Polom, U., Trabs, S., and Dahm, T. (2011). Sinkholes in the city of Hamburg – new urban shear-wave reflection seismic system enables high-resolution imaging of subrosion structures. Journal of Applied Geophysics, 78, 133–143.
Krohn, C. E. (1984). Geophone ground coupling. Geophysics, 49, 722–731.
Kruschwitz, S., Binley, A., Lesmes, D., and Elshenawy, A. (2010). Textural controls on low-frequency electrical spectra of porous media. Geophysics, 75, WA113–WA123.
Ku, C. C. and Sharp, J. A. (1983). Werner deconvolution for automated magnetic interpretation and its refinement using Marquardt’s inverse modeling. Geophysics, 48, 754–774.
Kumar, P. and Foufoula-Georgiou, E. (1997). Wavelet analysis for geophysical applications. Reviews of Geophysics, 35, 385–412.
LaBrecque, D. and Daily, W. (2008). Assessment of measurement errors for galvanic-resistivity electrodes of different composition. Geophysics, 73, F55–F64.
Lamb, H. (1994). Hydrodynamics, 6th edn. Cambridge: Cambridge University Press.
Lange, A. L. and Barner, W. L. (1995). Application of the natural electrical field for detecting karst conduits on Guam. In Karst Geohazards, ed. Beck, B. F.. Rotterdam: Balkema, pp. 425–441.
Langel, R. A. and Estes, R. H. (1982). A geomagnetic field spectrum, Geophysical Research Letters, 9, 250–253.
Le Masne, D. and Vasseur, G. (1981). Electromagnetic field of sources at the surface of a homogeneous conducting halfspace with horizontal anisotropy: applications to fissured media. Geophysical Prospecting, 29, 803–821.
Lee, Y. H. and Shih, Y. X. (2011). Coseismic displacement, bilateral rupture, and structural characteristics at the southern end of the 1999 Chi-Chi earthquake rupture, central Taiwan. Journal of Geophysical Research, 116, 2010JB007760.
Legchenko, A. and Valla, P. (1998). Processing of surface proton magnetic resonance signals using nonlinear fitting. Journal of Applied Geophysics, 39, 77–83.
Leroy, P., Revil, A., Kemna, A., Cosenza, P., and Ghorbani, A. (2008). Complex conductivity of water-saturated packs of glass beads. Journal of Colloid and Interface Science, 321, 103–117.
Lesmes, D. P. and Friedman, S. P. (2005). Relationships between the electrical and hydrogeological properties of rocks and soils. In Hydrogeophysics, ed. Rubin, Y. and Hubbard, S. S.. Dordrecht: Springer, pp. 87–128.
Lesmes, D. P. and Morgan, F. D. (2001). Dielectric spectroscopy of sedimentary rocks. Journal of Geophysical Research, 106, 13329–13346.
Levine, S., Marriott, J. R., Neale, G., and Epstein, N. (1975). Theory of electrokinetic flow in fine cylindrical capillaries at high zeta-potentials. Journal of Colloid and Interface Science, 52, 136–149.
Lindley, D. V. (1956). On a measure of the information provided by an experiment. The Annals of Mathematical Statistics, 27, 986–1005.
Lindsey, J. P. (1989). The Fresnel zone and its interpretive significance. The Leading Edge, 8, 33–39.
Liner, C. L. (1999). Concepts of normal and dip moveout. Geophysics, 64, 1637–1647.
Lines, L. R. and Treitel, S. (1984). A review of least-squares inversion and its application to geophysical problems. Geophysical Prospecting, 32, 159–186.
Linford, N. (2006). The application of geophysical methods to archaeological prospection. Reports on Progress in Physics, 69, 2205–2257.
Loewenthal, D., Lu, L., Roberson, R., and Sherwood, J. (1976). The wave equation applied to migration. Geophysical Prospecting, 24, 380–399.
Loke, M. H. (1999). Electrical Imaging Surveys for Environmental and Engineering Studies: A Practical Guide to 2-D and 3-D Surveys. Available at .
Louie, J. N. (2001). Faster, better: shear-wave velocity to 100 meters depth from refraction microtremor arrays. Bulletin of the Seismological Society of America., 91, 347–364.
Lucia, F. J. (1983). Petrophysical parameters estimated from visual descriptions of carbonate rocks: a field classification of carbonate pore space. Journal of Petroleum Technology, 35, 629–637.
MacDonald, A. M., Burleigh, J., and Burgess, W. G. (1999). Estimating transmissivity from surface resistivity soundings: an example from the Thames Gravels. Quarterly Journal of Engineering Geology, 32, 199–205.
MacDonald, J., Knopman, D., Clancy, N., Mc Ever, J., and Willis, H. (2004). Transferring Army BRAC Lands Containing Unexploded Ordnance: Lessons Learned and Future Options. Santa Monica, CA: The RAND Corporation.
Mackay, D. J. C. (1992). Bayesian interpolation. Neural Computation, 4, 415–447.
Malinverno, A. (2002). Parsimonious Bayesian Markov chain Monte Carlo inversion in a nonlinear geophysical problem. Geophysical Journal International, 151, 675–688.
Mandelbrot, B. B. and van Ness, J. W. (1968). Fractional Brownian motions, fractional noises and applications. SIAM Review, 10, 422–437.
Maraschini, M., Ernst, F., Foti, S., and Socco, L. V. (2010). A new misfit function for multimodal inversion of surface waves. Geophysics, 75, G31–G43.
Marion, D., Nur, A., Yin, H., and Han, D. (1992). Compressional velocity and porosity in sand–clay mixtures. Geophysics, 57, 554–563.
Marquardt, D. W. (1963). An algorithm for least-squares estimation of nonlinear parameters. Journal of the Society for Industrial and Applied Mathematics, 11, 431–441.
Martí, D., Carbonell, R., Flecha, I., et al. (2008). High-resolution seismic characterization in an urban area: Subway tunnel construction in Barcelona, Spain. Geophysics, 73, B41–B50.
Martin, J. S., Larson, G. D., and Scott, Jr. W. R. (2006). An investigation of surface-contacting sensors for the seismic detection of buried landmines. Journal of the Acoustical Society of America, 120, 2676–2685.
Mauri, G., Williams-Jones, G., and Saracco, G. (2010). Depth determinations of shallow hydrothermal systems by self-potential and multi-scale wavelet tomography. Journal of Volcanology and Geothermal Research, 191, 233–244.
McGillivray, P. R., Oldenburg, D. W., Ellis, R. G., and Habashy, T. M. (1994). Calculation of sensitivities for the frequency-domain electromagnetic problem. Geophysical Journal International, 116, 1–4.
McNeill, J. D. (1980). Electromagnetic Terrain Conductivity Measurement at Low Induction Numbers. Mississauga, Ontario: Geonics Ltd, Technical Note TN-6.
McNeill, J. D. (1990). Use of electromagnetic methods for groundwater studies. In Geotechnical and Environmental Geophysics, ed. Ward, S. H.. Tulsa, OK: Society of Exploration Geophysicists, pp. 191–218.
McNeill, J. D. and Labson, V. F. (1991). Geological mapping using VLF radio fields. In Electromagnetic Methods in Applied Geophysics, vol. 2, ed. Nabighian, M. N.. Tulsa, OK: Society of Exploration Geophysicists, pp. 521–640.
Menke, W. (1984). Geophysical Data Analysis: Discrete Inverse Theory. San Diego, CA: Academic Press.
Metropolis, N., Rosenbluth, A.W., Rosenbluth, M. N., Teller, A. H., and Teller, E. (1953). Equation of state calculations by fast computing machines. Journal of Chemical Physics, 21, 1087–1092.
Metwaly, M. (2007). Detection of metallic and plastic landmines using the GPR and 2-D resistivity techniques. Natural Hazards and Earth Systems Science, 7, 755–763.
Metz, C. E. (1978). Basic principles of ROC analysis. Seminars in Nuclear Medicine, 8, 283–298.
Meurant, G. (2006). The Lanczos and Conjugate Gradient Algorithms. Philadelphia, PA: SIAM.
Miller, G. F. and Pursey, H. (1955). On the partition of energy between elastic waves in a semi-infinite solid. Proceedings of the Royal Society of London A, 233, 55–69.
Minsley, B. J., Sogade, J., and Morgan, F. D. (2007). Three-dimensional source inversion of self-potential data. Journal of Geophysical Research, 112, 2006JB004262.
Moreau, F., Gibert, D., Holschneider, M., and Saracco, G. (1997). Wavelet analysis of potential fields. Inverse Problems, 13, 165–178.
Moreau, F., Gibert, D., Holschneider, M., and Saracco, G. (1999). Identification of sources of potential fields with the continuous wavelet transform: basic theory. Journal of Geophysical Research, 104, 5003–5013.
Morrison, H. F., Phillips, R. J., and O’Brien, D. P. (1969). Quantitative interpretation of transient electromagnetic fields over a layered half space. Geophysical Prospecting, 17, 82–101.
Motulsky, H. J. and Ransnas, L. A. (1987). Fitting curves to data using nonlinear regression: a practical and nonmathematical review. FASEB Journal, 1, 365–374.
Muller, T. M., Gurevich, B., and Lebedev, M. (2010). Seismic wave attenuation and dispersion resulting from wave-induced flow in porous rocks – a review. Geophysics, 75, 75A147–75A164.
Muller-Petke, M. and Yaramanci, U. (2010). QT inversion-comprehensive use of the complete surface NMR data set. Geophysics, 75, WA199–WA209.
Muller-Petke, M., Dlugosch, R., and Yaramanci, U. (2011). Evaluation of surface nuclear magnetic resonance-estimated subsurface water content. New Journal of Physics, 13, 095002.
Nabighian, M. N. (ed.) (1988). Electromagnetic Methods in Applied Geophysics, Volume 1, Theory. Tulsa, OK: Society of Exploration Geophysicists.
Nabighian, M. N. (ed.) (1991). Electromagnetic Methods in Applied Geophysics, Volume 2, Application. Tulsa, OK: Society of Exploration Geophysicists.
Nabighian, M. N. and Macnae, J. C. (1991). Time domain electromagnetic prospecting methods. In Electromagnetic Methods in Applied Geophysics, Volume 2, ed. Nabighian, M. N.. Tulsa, OK: Society of Exploration Geophysicists, pp. 427–450.
Nabighian, M. N., Grauch, V. J. S., Hansen, R. O., et al. (2005). The historical development of the magnetic method in exploration. Geophysics, 70, 33ND–61ND.
Nadler, A., Dasberg, S., and Lapid, I. (1991). Time-domain reflectometry measurements of water content and electrical conductivity of layered soil columns. Soil Science Society of America Journal, 55, 938–943.
Nazarian, S. and StokoeII, K. H. (1986). Use of surface waves in pavement evaluation. Transportation Research Record, 1070, 132–144.
Nazarian, S., Stokoe I I, K. H., and Hudson, W. R. (1983). Use of spectral analysis of surface waves method for determination of moduli and thicknesses of pavement systems.Transportation Research Record, 930, 38–45.
NCHRP. (2006). Use of Geophysics for Transportation Projects. NCHRP Synthesis 357. Washington, DC: Transportation Research Board.
Neal, A. (2004). Ground-penetrating radar and its use in sedimentology: principles, problems and progress. Earth-Science Reviews, 66, 261–330.
Nicolson, H., Curtis, A., Baptie, B., and Galetti, E. (2012). Seismic interferometry and ambient noise tomography in the British Isles. Proceedings of the Geologists’ Association, 123, 74–86.
Nobes, D. C. (1996). Troubled waters: environmental applications of electrical and electomagnetic methods. Surveys in Geophysics, 17, 393–454.
Nocedal, J. and Wright, S. J. (2006). Numerical Optimization, 2nd edn. Berlin: Springer.
Noutchogwe, C. T., Koumetio, F., and Manguelle-Dicoum, E. (2010). Structural features of South-Adamawa (Cameroon) inferred from magnetic anomalies: Hydrogeological implications. Comptes Rendus Geoscience, 342, 467–474.
Olhoeft, G. R. (1985). Low-frequency electrical properties. Geophysics, 50, 2492–2503.
Olhoeft, G. R. (1986). Direct detection of hydrocarbon and organic chemicals with ground penetrating radar and complex resistivity. In Proceedings of the NWWA/API Conference on Petroleum Hydrocarbons and Organic Chemicals in Ground Water. Worthington, OH: National Water Well Association, pp. 284–305.
Paillet, F. L. and Ellefsen, K. J. (2005). Downhole applications of geophysics. In Near-Surface Geophysics, ed. Butler, D. W.. Tulsa, OK: Society of Exploration Geophysicists Press, pp. 439–471.
Paine, J. G. (2003). Determining salinization extent, identifying salinity sources, and estimating chloride mass using surface, borehole, and airborne electromagnetic induction methods. Water Resources Research, 39, 2001WR000710.
Painter, S. (1996). Evidence for non-Gaussian scaling behavior in heterogeneous sedimentary formations. Water Resources Research, 32, 1183–1195.
Pape, H., Riepe, L., and Schopper, J. R. (1987). Interlayer conductivity of rocks – a fractal model of interface irregularities for calculating interlayer conductivity of natural porous mineral systems. Colloids and Surfaces, 27, 97–122.
Parasnis, D. S. (1997). Principles of Applied Geophysics, 5th edn. London: Chapman and Hall.
Park, C. B., Miller, R. D., and Xia, J. (1999). Multichannel analysis of surface waves. Geophysics, 64, 800–808.
Park, C. B., Miller, R. D., and Xia, J. (1998). Imaging dispersion curves of surface waves on multi-channel record. SEG Expanded Abstracts, 1377–1380.
Parker, R. L. (1994). Geophysical Inverse Theory. Princeton, NJ: Princeton University Press.
Parsons, R. (1990). Electrical double layer: recent experimental and theoretical developments. Chemical Reviews, 90, 813–826.
Pasion, L. R. (2007). Inversion of time domain electromagnetic data for the detection of unexploded ordnance. PhD Thesis, University of British Columbia.
Passalacqua, H. (1983). Electromagnetic fields due to a thin resistive layer. Geophysical Prospecting, 31, 945–976.
Passaro, S. (2010). Marine electrical resistivity tomography for shipwreck detection in very shallow water: a case study from Agropoli (Salerno, southern Italy). Journal of Archaeological Science, 37, 1989–1998.
Paul, M. K. (1965). Direct interpretation of self-potential anomalies caused by inclined sheets of infinite horizontal extensions. Geophysics, 30, 418–423.
Pellerin, L. (2002). Applications of electrical and electromagnetic methods for environmental and geotechnical investigations. Surveys in Geophysics, 23, 101–132.
Pelton, W. H., Ward, S. H., Hallof, P. G., Sill, W. R., and Nelson, P. H. (1978). Mineral discrimination and removal of inductive coupling with multifrequency IP. Geophysics, 43, 588–609.
Petiau, G. (2000). Second generation of lead–lead chloride electrodes for geophysical applications. Pure and Applied Geophysics, 157, 357–382.
Phillips, R. J., Zuber, M. T., Smrekar, S. E, Mellon, M. T., et al. (2008). Mars north polar deposits: stratigraphy, age and geodynamical response. Science, 320, 1182–1185.
Poddar, M. (1983). A rectangular loop source of current on multilayered Earth. Geophysics, 48, 107–109.
Polak, E. (1971). Computational Methods in Optimization. San Diego, CA: Academic Press.
Pride, S. R. (1994). Governing equations for the coupled electromagnetics and acoustics of porous media. Physical Review B, 50, 15678–15696.
Pride, S. R., Berryman, J. G., and Harris, J. M. (2004). Seismic attenuation due to wave-induced flow. Journal of Geophysical Research, 109, 2003JB002639.
Radzevicius, S. J. and Daniels, J. J. (2000). Ground penetrating radar polarization and scattering from cylinders. Journal of Applied Geophysics, 45, 111–125.
Ravat, D. (1996). Magnetic properties of unrusted steel drums from laboratory and field-magnetic measurements. Geophysics, 61, 1325–1357.
Reid, A. B., Allsop, J. M., Granser, H., Millett, A. J., and Somerton, I. W. (1990). Magnetic interpretation in three dimensions using Euler deconvolution. Geophysics, 55, 80–91.
Revil, A., Karaoulis, M., Johnson, T., and Kemna, A. (2012). Some low-frequency electrical methods for subsurface characterization and monitoring in hydrogeology. Hydrogeology Journal, 20, 617–658.
Reynolds, J. M. (2011). An Introduction to Applied and Environmental Geophysics. New York, NY: Wiley-Blackwell.
Rice, C. L. and Whitehead, R. (1965). Electrokinetic flow in a narrow cylindrical capillary. Journal of Physical Chemistry, 69, 4017–4024.
Richart, F. E., Hall, J. R., and Woods, R. D. (1970). Vibrations of Soils and Foundations. Englewood Cliffs, NJ: Prentice-Hall Inc.
Robinson, D. A. and Friedman, S. P. (2001). Effect of particle size distribution on the effective dielectric permittivity of saturated granular media. Water Resources Research, 37, 2000WR900227.
Rodi, W. and Mackie, R. L. (2001). Nonlinear conjugate gradients algorithm for 2-D magnetotelluric inversion. Geophysics, 66, 174–187.
Roest, W. R., and Pilkington, M. (1993). Identifying remanent magnetization effects in magnetic data. Geophysics, 58, 653–659.
Romdhane, A., Grandjean, G., Brossier, R., et al. (2011). Shallow-structure characterization by 2D elastic full-waveform inversion. Geophysics, 76, R81–R93.
Rosenblad, B. L., Bailey, J., Csontos, R., and van Arsdale, R. (2010). Shear wave velocities of Mississippi embayment soils from low frequency surface wave measurements. Soil Dynamics and Earthquake Engineering, 30, 691–701.
Rucker, D. F., Loke, M. H., Levitt, M. T., and Noonan, G. E. (2010). Electrical-resistivity characterization of an industrial site using long electrodes. Geophysics, 75, WA95–WA104.
Rumelhart, D. E., Hinton, G. E., and Williams, R. J. (1986). Learning representations by back-propagating errors. Nature, 323, 533–536.
Ryden, N. and Park, C. B. (2006). Fast simulated annealing inversion of surface waves on pavement using phase-velocity spectra. Geophysics, 71, R49–R58.
Ryu, J., Morrison, H. F., and Ward, S. H. (1970). Electromagnetic fields about a loop source of current. Geophysics, 35, 862–896.
Saccorotti, G., Chouet, B., and Dawson, P. (2003). Shallow-velocity models at the Kilauea volcano, Hawaii, determined from array analyses of tremor wavefields. Geophysical Journal International, 152, 633–648.
Santamarina, J. C., Rinaldi, V. A., Fratta, D., et al. (2005). A survey of elastic and electromagnetic properties of near-surface soils. In Near-Surface Geophysics, ed. Butler, D. K.. Tulsa, OK: Society of Exploration Geophysicists Press, pp. 71–88.
Sassen, D. S. (2009). GPR methods for the detection and characterization of fractures and karst features: polarimetry, attribute extraction, inverse modeling and data mining techniques. Ph.D dissertation, Texas A&M University.
Sassen, D. S. and Everett, M. E. (2005). Multi-component ground penetrating radar for improved imaging and target discrimination. Proceedings of SAGEEP, 18, 11–20.
Sassen, D. S. and Everett, M. E. (2009). 3D Polarimetric GPR coherency attributes and full-waveform inversion of transmission data for characterizing of fractured rock. Geophysics, 74, J23–J34.
Sato, M. and Mooney, H. M. (1960). The electrochemical mechanism of sulphide self-potentials. Geophysics, 25, 226–249.
Sato, M. and Takahashi, K. (2012). ALIS deployment in Cambodia. Proceedings SPIE, 8357, 83571A.
Scales, J. A. (1987). Tomographic inversion via the conjugate gradient method. Geophysics, 52, 179–185.
Scales, J. A. and Snieder, R. (1997). To Bayes or not to Bayes?Geophysics, 62, 1045–1046.
Schuster, G. T. (2010). Seismic Interferometry. Cambridge: Cambridge University Press.
Schwarzbach, C., Boerner, R. U., and Spitzer, K. (2005). Two-dimensional inversion of direct current resistivity data using a parallel, multi-objective genetic algorithm. Geophysical Journal International, 162, 685–695.
Schwindt, P. D. D., Knappe, S., Shah, V., et al. (2004). Chip-scale atomic magnetometer. Applied Physics Letters, 85, 6409–6411.
Seber, G. A. F. and Wild, C. J. (2003). Nonlinear Regression. Hoboken, NJ: Wiley–Interscience.
Segall, P. (1989). Earthquakes triggered by fluid extraction. Geology, 17, 942–946.
Segall, P., Grasso, J. R., and Mossop, A. (1994). Poroelastic stressing and induced seismicity near the Lacq gas field, southwestern France. Journal of Geophysical Research, 99, 15423–15438.
Sein, J. J. (1982). Derivation of the laws of reflection and refraction by Huygens’ construction. American Journal of Physics, 50, 180–181.
Selvan, K. T. (2009). A revisiting of scientific and philosophical perspectives on Maxwell’s displacement current. IEEE Antennas and Propagation Magazine, 51, 36–46.
Sen, M. K. and Stoffa, P. L. (2013). Global Optimization Methods in Geophysical Inversion, 2nd edn. Amsterdam: Elsevier.
Shafer, G. (1976). A Mathematical Theory of Evidence. Princeton, NJ: Princeton University Press.
Shapiro, N. M., Campillo, M., Stehly, L., and Ritzwoller, M. H. (2005). High-resolution surface wave tomography from ambient seismic noise. Science, 307, 1615–1618.
Sharma, P. V. (1997). Environmental and Engineering Geophysics. Cambridge: Cambridge University Press.
Shuey, R. T. (1985). A simplification of the Zoeppritz equations. Geophysics, 50, 609–614.
Simpson, F. and Bahr, K. (2005). Practical Magnetotellurics. Cambridge: Cambridge University Press.
Slater, L. (2007). Near surface electrical characterization of hydraulic conductivity: from petrophysical properties to aquifer geometries – a review. Surveys in Geophysics, 28, 169–197.
Slater, L., Knight, R., Singha, K., Binley, A., and Atekwana, E. (2006a). Near-surface geophysics: A new focus group. Eos, 87, 249–250.
Slater, L., Ntarlagiannis, D., and Wishart, D. (2006b). On the relationship between induced polarization and surface area in metal–sand and clay–sand mixtures. Geophysics, 71, A1–A5.
Slichter, C. P. (1996). Principles of Magnetic Resonance, 3rd edn. Berlin: Springer.
Slob, E. and Wapenaar, K. (2008). Practical representations of electromagnetic interferometry for GPR applications: a tutorial. Near Surface Geophysics, 6, 391–402.
Smith, L. (2001). An introduction to neural networks. See
Smythe, W. R. (1950). Static and Dynamic Electricity, 2nd edn. New York, NY: McGraw-Hill.
Socco, L. V. and Strobbia, C. (2004). Surface-wave method for near-surface characterization: a tutorial. Near-Surface Geophysics, 4, 165–185.
Socco, L. V., Foti, S., and Boiero, D. (2010). Surface-wave analysis for building near-surface velocity models – established approaches and new perspectives. Geophysics, 75, 75A83–75A102.
Sogade, J. A., Scira-Scappuzzo, F., Vichabian, Y., et al. (2006). Induced-polarization detection and mapping of contaminant plumes. Geophysics, 71, B75–B84.
Song, L. P. and Zhang, S. Y. (1999). Singular value decomposition-based reconstruction algorithm for seismic traveltime tomography. IEEE Transactions on Image Processing, 8, 1152–1154.
Soupios, P. M., Kouli, M., Vallianatos, F., Vafidis, A., and Stavroulakis, G. (2007). Estimation of aquifer hydraulic parameters from surficial geophysical methods: a case study of Keritis basin in Chania (Crete – Greece). Journal of Hydrology, 338, 122–131.
Spies, B. R. and Frischknecht, F. C. (1991). Electromagnetic sounding. In Electromagnetic Methods in Applied Geophysics, Volume 2, ed. Nabighian, M. N.. Tulsa, OK: Society of Exploration Geophysicists, pp. 285–425.
Spitzer, R., Nitsche, F. O., and Green, A. G. (2001). Reducing source-generated noise in shallow seismic data using linear and hyperbolic τ–p transformations. Geophysics, 66, 1612–1621.
Spitzer, R., Nitsche, F. O., Green, A. G., and Horstmeyer, H. (2003). Efficient acquisition, processing, and interpretation strategy for shallow 3D seismic surveying. Geophysics, 68, 1792–1806.
Stein, S. and Wysession, M. (2003). An Introduction to Seismology, Earthquakes, and Earth Structure. Chichester: Wiley-Blackwell.
Stratton, J. A. (1941). Electromagnetic Theory. New York, NY: McGraw-Hill.
Streich, R. (2007). Accurate 3-D vector-imaging of ground-penetrating radar data based on exact-field radiation patterns. PhD thesis, ETH Zurich (Swiss Federal Institute of Technology).
Streich, R. and van der Kruk, J. (2007). Accurate imaging of multicomponent GPR data based on exact radiation patterns. IEEE Transactions on Geoscience and Remote Sensing, 45, 93–103.
Streich, R., van der Kruk, J., and Green, A. G. (2007). Vector-migration of standard copolarized 3D GPR data. Geophysics, 72, J65–J75.
Strobbia, C. and Cassiani, G. (2007). Multilayer ground-penetrating radar guided waves in shallow soil layers for estimating soil water content. Geophysics, 72, J17–J29.
Stummer, P., Maurer, H., and Green, A. G. (2004). Experimental design: electrical resistivity data sets that provide optimum subsurface information. Geophysics, 69, 120–139.
Szu, H. and Hartley, R. (1987). Fast simulated annealing. Physics Letters A, 122, 157–162.
Tarantola, A. (2004). Inverse Problem Theory and Methods for Model Parameter Estimation. Philadelphia, PA: Society for Industrial and Applied Mathematics.
Taylor, G. I. (1958). On the dissipation of eddies. In The Scientific Papers of Sir Geoffrey Ingram Taylor, Volume 2, ed. Batchelor, G. K.. Cambridge: Cambridge University Press, pp. 96–101.
Telford, W. M., Geldart, L. P., and Sheriff, R. E. (1990). Applied Geophysics, 2nd edn. Cambridge: Cambridge University Press.
Tezkan, B. (1999). A review of environmental applications of quasi-stationary electromagnetic techniques. Surveys in Geophysics, 20, 279–308.
Thompson, A. H. and Gist, G. A. (1993). Geophysical applications of electrokinetic conversion. The Leading Edge, 12, 1169–1173.
Thompson, D. T. (1982). EULDPH – a new technique for making computer-assisted depth estimates from magnetic data. Geophysics, 47, 31–37.
Thomson, W. T. (1950). Transmission of elastic waves through a stratified solid medium. Journal of Applied Physics, 21, 89–93.
Tipler, P. A. and Mosca, G. (2007). Physics for Scientists and Engineers, 6th edn. New York: W. H. Freeman.
Tite, M. S. and Mullins, C. E. (1971). Enhancement of the magnetic susceptibility of soils on archaeological sites. Archaeometry, 13, 209–219.
Titov, K., Komarov, V., Tarasov, V., and Levitski, A. (2002). Theoretical and experimental study of time domain-induced polarization in water-saturated sands. Journal of Applied Geophysics, 50, 417–433.
Toole, F. E. (1986). Loudspeaker measurements and their relationship to listener preferences. Journal of the Audio Engineering Society, 34, 227–235; 323–348.
Topp, G. C., Davis, J. L., and Annan, A. P. (1980). Electromagnetic determination of soil water content: Measurements in coaxial transmission lines. Water Resources Research, 16, 574–582.
Tsui, F. and Matthews, S. L. (1997). Analytic modelling of the dielectric properties of concrete for subsurface radar applications. Construction and Building Materials, 11, 149–161.
Ulrych, T. J., Sacchi, M. D., and Woodbury, A. (2001). A Bayes tour of inversion: a tutorial. Geophysics, 66, 55–69.
Ultsch, A. (2005). Clustering with SOM: U*C. Proceedings, Workshop on Self-Organizing Maps, Paris, pp.75–82.
Unsworth, M. J., Lu, X., and Watts, M. D. (2000). CSAMT exploration at Sellafield: characterization of a potential radioactive waste disposal site. Geophysics, 65, 1070–1079.
Vallee, M. A., Keating, P., Smith, R. S., and St-Hilaire, C. (2004). Estimating depth and model type using the continuous wavelet transform of magnetic data. Geophysics, 69, 191–199.
van Dam, R. L., Nichol, S. L., Augustinus, P. C., et al. (2003). GPR stratigraphy of a large active dune on Parengarenga Sandspit, New Zealand. The Leading Edge, 22, 865–881.
van Dam, R. L., Harrison, J. B. J., Hendrickx, J. M. H., et al. (2005). Mineralogy of magnetic soils at a UXO remediation site in Kaho’olawe Hawaii. Proceedings of the Symposium on the Application of Geophysics to Engineering and Environmental Problems 2005, Atlanta, GA.
van der Baan, M. and Jutten, C. (2000). Neural networks in geophysical applications. Geophysics, 65, 1032–1047.
van der Kruk, J. (2001). Three-dimensional imaging of multi-component ground penetrating radar data. PhD thesis, Technische Universiteit, Delft.
van der Kruk, J., Vereecken, H., and Jacob, R. W. (2009). Identifying dispersive GPR signals and inverting for surface wave-guide properties. The Leading Edge, 28, 1234–1239.
van Eck, T., Goutbeek, F., Haak, H., and Dost, B. (2006). Seismic hazard due to small magnitude, shallow-source, induced earthquakes in The Netherlands. Engineering Geology, 87, 105–121.
Vanhala, H., Soininen, H., and Kukkonen, I. (1992). Detecting organic chemical contaminants by spectral-induced polarization method in glacial till environment. Geophysics, 57, 1014–1017.
Varian, R. (1962). Ground liquid prospecting method and apparatus. US Patent 3019383.
Viezzoli, A., Christiansen, A. V., Auken, E., and Sorensen, K. (2008). Quasi-3D modeling of airborne TEM data by spatially constrained inversion. Geophysics, 73, F105–F113.
Vinegar, H. J. and Waxman, M. H. (1984). Induced polarization of shaly sands. Geophysics, 49, 1267–1287.
von Hippel, A. R. (1954). Dielectrics and Waves. New York, NY: John Wiley & Sons.
von Toussaint, U. (2011). Bayesian inference in physics. Reviews of Modern Physics, 83, 943–999.
Wadsworth, G. P., Robinson, E. A., Bryan, J. G., and Hurley, P. M. (1953). Detection of reflections on seismic records by linear operators. Geophysics, 18, 539–586.
Wait, J. R. (1954). Mutual coupling of loops lying on the ground. Geophysics, 19, 290–296.
Wang, B. (2006). 2D and 3D potential-field upward continuation using splines. Geophysical Prospecting, 54, 199–209.
Wang, P. and Horwitz, M. H. (2007). Erosional and depositional characteristics of regional overwash deposits caused by multiple hurricanes. Sedimentology, 54, 545–564.
Wangsness, R. K. (1986). Electromagnetic Fields, 2nd edn. New York, NY: John Wiley & Sons.
Wannamaker, P. E. (1997). Tensor CSAMT survey over the Sulphur Springs thermal area, Valles Caldera, New Mexico, USA. Part II. Implications for CSAMT methodology. Geophysics, 62, 466–476.
Ward, S. H. and Hohmann, G. W. (1988). Electromagnetic theory for geophysical applications. In Electromagnetic Methods in Applied Geophysics, Volume 1, ed. Nabighian, M. N.. Tulsa, OK: Society of Exploration Geophysicists, pp. 130–311.
Wasscher, J. D. (1961) Note on four-point resistivity measurements on anisotropic conductors. Philips Research Reports, 16, 301–306.
Watson, K. A. and Barker, R. D. (1999). Differentiating anisotropy and lateral effects using azimuthal resistivity offset Wenner soundings. Geophysics, 64, 739–745.
Waxman, M. H. and Smits, L. J. M. (1968). Electrical conductivities in oil-bearing shaly sands. Society of Petroleum Engineers Journal, 8, 107–122.
Weichman, P. B., Lavely, E. M., and Ritzwoller, M. H. (2000). Theory of surface nuclear magnetic resonance with applications to geophysical imaging problems. Physical Review E, 62, 1290–1312.
West, G. F. and Macnae, J. C. (1991). Physics of the electromagnetic induction exploration method. In Electromagnetic Methods in Applied Geophysics, Volume 2, ed. Nabighian, M. N.. Tulsa, OK: Society of Exploration Geophysicists, pp. 5–46.
West, L. J., Handley, K., Huang, Y., and Pokar, M. (2003). Radar frequency dielectric dispersion in sandstone: implications for determination of moisture and clay content. Water Resources Research, 39, 2001WR000923.
Widess, M. B. (1973). How thin is a thin bed?Geophysics, 38, 1176–1180.
Williams, K. H., Kemna, A., Wilkins, M. J., et al. (2009). Geophysical monitoring of coupled microbial and geochemical processes during stimulated subsurface bioremediation. Environmental Science & Technology, 43, 6717–6723.
Worthington, P. F. (1993). The uses and abuses of the Archie equations, I: the formation factor–porosity relationship. Journal of Applied Geophysics, 30, 215–228.
Wyllie, M. R. J., Gregory, A. R., and Gardner, G. H. F. (1958). An experimental investigation of factors affecting elastic wave velocities in porous media. Geophysics, 23, 459–493.
Xu, P. (1998). Truncated SVD methods for discrete linear ill-posed problems. Geophysical Journal International, 135, 505–514.
Yao, H., Beghein, C., and van der Hilst, R. D. (2008). Surface wave array tomography in SE Tibet from ambient seismic noise and two-station analysis – II. Crustal and upper mantle structure. Geophysical Journal International, 173, 205–219.
Yilmaz, O. (2001). Seismic Data Analysis: Processing, Inversion and Interpretation of Seismic Data. SEG Investigations in Geophysics Series, vol. 10. Tulsa, OK: Society of Exploration Geophysicists Press.
Yu, L. and Edwards, R. N. (1992). The detection of lateral anisotropy of the ocean floor by electromagnetic methods. Geophysical Journal International, 108, 433–441.
Zelt, C. A. and Barton, P. J. (1998). Three-dimensional seismic refraction tomography: a comparison of two methods applied to data from the Faroe basin. Journal of Geophysical Research, 103, 7187–7210.
Zelt, C. A., Azaria, A., and Levander, A. (2006). 3D seismic refraction traveltime tomography at a groundwater contamination site. Geophysics, 71, H67–H78.
Zeng, H. (2009). How thin is a thin bed? An alternative perspective. The Leading Edge, 28, 1192–1197.
Zhou, W., Beck, B. F., and Stephenson, J. B. (1999). Investigation of groundwater flow in karst areas using component separation of natural potential measurements. Environmental Geology, 37, 19–25.
Zonge, K., Wynn, J., and Urquhart, S. (2005). Resistivity, induced polarization and complex resistivity. In Near-Surface Geophysics, ed. Butler, D. K.. Tulsa, OK: Society of Exploration Geophysicists Press, pp. 265–300.
Zonge, K. L. and Hughes, L. J. (1991). Controlled source audio-frequency magnetotellurics. In Electromagnetic Methods in Applied Geophysics, Volume 2, ed. Nabighian, M. N.. Tulsa, OK: Society of Exploration Geophysicists, pp. 713–810.

Metrics

Full text views

Total number of HTML views: 0
Total number of PDF views: 0 *
Loading metrics...

Book summary page views

Total views: 0 *
Loading metrics...

* Views captured on Cambridge Core between #date#. This data will be updated every 24 hours.

Usage data cannot currently be displayed.