Reference Library

Below are lists of journal articles, extended abstracts, and other references (grouped by relevant topic area). If you’d like to get more information on any of these articles, contact us.

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NMR Logging Principles and Applications

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High-Resolution Direct Push NMR Tools for Groundwater Investigations
Darya MorozovDavid WalshCristina McLaughlinAnh NguyenElliot GrunewaldWarren CaldwellDaniel PippNicholas BasoreThomas ChristyJorge Macedo

GMR™ Journal Articles

Rangel, R. C., Parsekian, A. D., Farquharson, L. M., Jones, B. M., Ohara, N., Creighton, A. L., Gaglioti, B. V., Kanevskiy, M., Breen, A. L., Bergstedt, H., Romanovsky, V. E., Hinkel, K. M. (2021). Geophysical Observations of Taliks Below Drained Lake Basins on the Arctic Coastal Plain of Alaska. Journal of Geophysical Research: Solid Earth, 26(3), e2020JB020889. Open access.

Terry, N., Grunewald, E., Briggs, M., Gooseff, M., Huryn, A. D., Kass, M. A., Tape, K. D., Hendrickson, P., & Lane Jr, J. W. (2020). Seasonal Subsurface Thaw Dynamics of an Aufeis Feature Inferred from Geophysical MethodsJournal of Geophysical Research: Earth Surface, e2019JF005345.

Kremer, T., Juul Larsen, J., & Nguyen, F. (2019). Processing harmonic EM noise with multiple or unstable frequency content in surface NMR surveysGeophysical Journal International219(2), 753–775.

Davis, A. C., Skibbe, N., & Müller‐Petke, M. (2019). First Measurements of Surface Nuclear Magnetic Resonance Signals in a Grounded Bipole. Geophysical Research Letters46(16), 9620–9627.

Parsekian, A. D., Creighton, A. L., Jones, B. M., & Arp, C. D. (2019). Surface nuclear magnetic resonance observations of permafrost thaw below floating, bedfast, and transitional ice lakesGeophysics84(3), EN33–EN45.

Singh, U., Sharma, P. K., & Ojha, C. S. P. (2019). Groundwater investigation using ground magnetic resonance and resistivity meterISH Journal of Hydraulic Engineering, 1–10.

Flinchum, B. A., Holbrook, W. S., Parsekian, A. D., & Carr, B. J. (2019). Characterizing the Critical Zone Using Borehole and Surface Nuclear Magnetic ResonanceVadose Zone Journal18(1).

Keating, K., Binley, A., Bense, V., Van Dam, R. L., & Christiansen, H. H. (2018). Combined geophysical measurements provide evidence for unfrozen water in permafrost in the Adventdalen Valley in Svalbard. Geophysical Research Letters45(15), 7606–7614.

Grombacher, D., Dlugosch, R., Grunewald, E., Müller-Petke, M., & Auken, E. (2018). Frequency cycling to alleviate unknown frequency offsets for adiabatic half-passage pulses in surface nuclear magnetic resonanceGeophysics83(5), JM29–JM38.

Grombacher, D. (2018). Numerically optimized modulations for adiabatic pulses in surface nuclear magnetic resonanceGeophysics83(2), JM1–JM14.

Hein, A., Larsen, J. J., & Parsekian, A. D. (2017). Symmetry based frequency domain processing to remove harmonic noise from surface nuclear magnetic resonance measurementsGeophysical Journal International208(2), 724–736.

Costabel, S., Günther, T., Dlugosch, R., & Müller-Petke, M. (2016). Torus-nuclear magnetic resonance: Quasicontinuous airborne magnetic resonance profiling by using a helium-filled balloonGeophysics81(4), WB119–WB129.

Grunewald, E., Grombacher, D., & Walsh, D. (2016). Adiabatic pulses enhance surface nuclear magnetic resonance measurement and survey speed for groundwater investigationsGeophysics81(4), WB85–WB96.

Grombacher, D., Müller-Petke, M., & Knight, R. (2016). Frequency cycling for compensation of undesired off-resonance effects in surface nuclear magnetic resonanceGeophysics81(4), WB33–WB48.

Falzone, S., & Keating, K. (2016). Algorithms for removing surface water signals from surface nuclear magnetic resonance infiltration surveysGeophysics81(4), WB97–WB107.

Parsekian, A. D., & Grombacher, D. (2015). Uncertainty estimates for surface nuclear magnetic resonance water content and relaxation time profiles from bootstrap statisticsJournal of Applied Geophysics119, 61–70.

Irons, T. P., & Li, Y. (2014). Pulse and Fourier transform surface nuclear magnetic resonance: comprehensive modelling and inversion incorporating complex data and static dephasing dynamicsGeophysical Journal International199(3), 1372–1394.

Davis, A. C., Dlugosch, R., Queitsch, M., Macnae, J. C., Stolz, R., & Müller‐Petke, M. (2014). First evidence of detecting surface nuclear magnetic resonance signals using a compact B‐field sensorGeophysical Research Letters41(12), 4222–4229.

Grunewald, E., Knight, R., & Walsh, D. (2014). Advancement and validation of surface nuclear magnetic resonance spin-echo measurements of T2Geophysics79(2), EN15–EN23.

Walsh, D. O., Grunewald, E. D., Turner, P., Hinnell, A., & Ferre, T. P. A. (2014). Surface NMR instrumentation and methods for detecting and characterizing water in the vadose zoneNear Surface Geophysics12(2), 271–284.

Irons, T. P., Martin, K. E., Finn, C. A., Bloss, B. R., & Horton, R. J. (2014). Using Nuclear Magnetic Resonance and Transient Electromagnetics to characterise water distribution beneath an ice covered volcanic crater: the case of Sherman Crater Mt. Baker, WashingtonNear Surface Geophysics12(2), 285–296.

Parsekian, A., Grombacher, D., Davis, A., Flinchum, B., Munday, T., & Cahill, K. (2014). Near-surface geophysics for informed water-management decisions in the Aṉangu Pitjantjatjara Yankunytjatjara (APY) lands of South AustraliaThe Leading Edge33(12), 1342–1347.

Grunewald, E., & Walsh, D. (2013). Multiecho scheme advances surface NMR for aquifer characterizationGeophysical Research Letters40(24), 6346–6350.

Parsekian, A. D., Grosse, G., Walbrecker, J. O., Müller‐Petke, M., Keating, K., Liu, L., Jones, B. M., & Knight, R. (2013). Detecting unfrozen sediments below thermokarst lakes with surface nuclear magnetic resonanceGeophysical Research Letters40(3), 535–540.

Müller-Petke, M., Walbrecker, J. O., & Knight, R. (2013). The inversion of surface-NMR T 1 data for improved aquifer characterizationGeophysics78(6), EN83–EN94.

Knight, R., Grunewald, E., Irons, T., Dlubac, K., Song, Y., Bachman, H. N., Grau, B., Walsh, D., Abraham, J. D., & Cannia, J. (2012). Field experiment provides ground truth for surface nuclear magnetic resonance measurementGeophysical Research Letters39(3).

Costabel, S., & Yaramanci, U. (2011). Relative hydraulic conductivity in the vadose zone from magnetic resonance sounding—Brooks-Corey parameterization of the capillary fringeGeophysics76(3), G61–G71.

Walsh, D. O., Grunewald, E., Turner, P., Hinnell, A., & Ferre, P. (2011). Practical limitations and applications of short dead time surface NMRNear Surface Geophysics9(2), 103–113.

Dlugosch, R., Mueller‐Petke, M., Günther, T., Costabel, S., & Yaramanci, U. (2011). Assessment of the potential of a new generation of surface nuclear magnetic resonance instrumentsNear Surface Geophysics9(2), 89–102.

Müller-Petke, M., Dlugosch, R., & Yaramanci, U. (2011). Evaluation of surface nuclear magnetic resonance-estimated subsurface water contentNew Journal of Physics13(9), 95002.

Walsh, D. O. (2008). Multi-channel surface NMR instrumentation and software for 1D/2D groundwater investigationsJournal of Applied Geophysics66(3–4), 140–150.

GMR™ Extended Abstracts

Lawrie, K., Yinfoo, D., Christensen, N. B., Tan, K., Symington, N., Cathro, D., Halas, L., Hostetler, S., Harris-Pascal, C., & McPherson, A. (2019). Multi-physics, inter-disciplinary approaches for groundwater system investigations and hydrogeological assessments in Northern Australia. ASEG Extended Abstracts2019(1), 1–4.

Tan, K. P., Symington, N., Harris-Pascal, C., Halas, L., & Lawrie, K. (2019). Mapping the hydrostratigraphy and groundwater salinity of the Ord Bonaparte plains from AEM and NMR data. ASEG Extended Abstracts2019(1), 1–5.

Gow, L., Woltmann, M., Christensen, N. B., Lawrie, K., YinFoo, D., Lai, E., Buchanan, S., Smith, M., & Tan, K. (2018). Using Hydrogeophysical Techniques to Characterise and Map Sea Water Intrusion and Preferential Flow Paths in Howards East Aquifer, Darwin Rural Area, Northern Territory. ASEG Extended Abstracts2018(1), 1.

Lawrie, K., YinFoo, D., Christensen, N. B., Halas, L., Tan, K., Harris-Pascal, C., McPherson, A., Smith, M., Brodie, R. S., & Symington, N. (2018). Rapid assessment of groundwater salinity and seawater intrusion hazard in the Keep River floodplain, Northern Territory, Australia. ASEG Extended Abstracts2018(1), 1.

Gow, L., Christensen, N. B., Wischusen, J., Lawrie, K., Cathro, D., Buchanan, S., Smith, M., & Tan, K. (2018). An Integrated Hydrogeophysical Approach to Exploring for Groundwater Resources in Southern Northern Territory. ASEG Extended Abstracts2018(1), 1.

Tan, K., Symington, N., Lawrie, K., Hoare, A., Grunewald, E., & Halas, L. (2018). Application of Magnetic Resonance Data for Groundwater Prospectivity in The Fitzroy Basin, Western Australia. ASEG Extended Abstracts2018(1), 1–4.

Gow, L., Christensen, N. B., Tickell, S., Lawrie, K., Cathro, D., Buchanan, S., Smith, M., & Tan, K. (2018). Assessing Aquifer Compartmentalisation in the Daly River Basin, Northern Territory: A Hydrogeophysical Approach. ASEG Extended Abstracts2018(1), 1.

Lawrie, K., Neumann, N., Brodie, R. S., Symington, N., Gow, L., Halas, L., Harris-Pascal, C., Tan, K., Cathro, D., & Smith, M. (2018). The ‘Exploring For The Future’Groundwater Programme: A Multi-Physics, Inter-Disciplinary Systems Approach For De-Risking Investment in Agriculture in Northern Australia. ASEG Extended Abstracts2018(1), 1.

Lawrie, K., Symington, N., Tan, K., Christensen, N. B., Halas, L., Harris-Pascal, C., McPherson, A., Cathro, D., & Grunewald, E. (2018). Using AEM and GMR Methods for Non-Invasive, Rapid Reconnaissance Mapping and Characterisation of Groundwater Systems in the Kimberley Region, Northern Australia. ASEG Extended Abstracts2018(1), 1.

Parsekian, A., Davis, A., Grombacher, D., Munday, T., Flinchum, B., Cahill, K., & Hatch, M. (2015). Hydrogeophysics for Informed Water Management Decisions in the Anangu Pitjantjatjara Yankunytjatjara (APY) Lands of South Australia. ASEG Extended Abstracts2015(1), 1–3.

Grunewald, E., Grombacher, D., & Walsh, D. O. (2015). Adiabatic pulses enhance speed and sensitivity of geophysical surface NMR measurements for groundwater investigations. ASEG Extended Abstracts2015(1), 1–3.

Mueller-Petke, A. C. D. M., Dlugosch, R., Quietsch, M., Macnae, J., & Stolz, R. (2015). First evidence ofT2* in SNMR measurements with SQUID sensors. ASEG Extended Abstracts2015(1), 1–3.

Grunewald, E., Walsh, D., Knight, R., Dlubac, K., Parsekian, A., Butler, J., Knobbe, S., Reboulet, E., & Barrows, M. (2013). Integration of surface and logging NMR data to map hydraulic conductivity. ASEG Extended Abstracts2013(1), 1–4.

 

Javelin® Journal Articles

Alexander K. Kendrick Rosemary Knight Carole D. Johnson Gaisheng Liu Steven Knobbe Randall J. Hunt James J. Butler Jr. (2020). Assessment of NMR Logging for Estimating Hydraulic Conductivity in Glacial Aquifers. NGWA, 10 May 2020

Moravec, B. G., White, A. M., Root, R. A., Sanchez, A., Olshansky, Y., Paras, B. K., Carr, B., McIntosh, J., Pelletier, J. D., & Rasmussen, C. (2020). Resolving deep critical zone architecture in complex volcanic terrain. Journal of Geophysical Research: Earth Surface125(1), e2019JF005189.

Ren, S., Parsekian, A. D., Zhang, Y., & Carr, B. J. (2019). Hydraulic conductivity calibration of logging NMR in a granite aquifer, Laramie Range, Wyoming. Groundwater57(2), 303–319.

Kirkland, C. M., & Codd, S. L. (2018). Low-field borehole NMR applications in the near-surface environment. Vadose Zone Journal17(1).

Flinchum, B. A., Holbrook, W. S., Grana, D., Parsekian, A. D., Carr, B. J., Hayes, J. L., & Jiao, J. (2018). Estimating the water holding capacity of the critical zone using near‐surface geophysics. Hydrological Processes32(22), 3308–3326.

Kirkland, C. M., Zanetti, S., Grunewald, E., Walsh, D. O., Codd, S. L., & Phillips, A. J. (2017). Detecting microbially induced calcite precipitation in a model well-bore using downhole low-field NMR. Environmental Science & Technology51(3), 1537–1543.

Kirkland, C. M., Zanetti, S., Grunewald, E., Walsh, D. O., Codd, S. L., & Phillips, A. J. (2017). Detecting microbially induced calcite precipitation in a model well-bore using downhole low-field NMR. Environmental Science & Technology51(3), 1537–1543.

Fay, E. L., Knight, R. J., & Grunewald, E. D. (2017). A field study of nuclear magnetic resonance logging to quantify petroleum contamination in subsurface sediments. Geophysics82(4), EN81–EN92.

Fay, E. L., Knight, R. J., & Grunewald, E. D. (2017). A field study of nuclear magnetic resonance logging to quantify petroleum contamination in subsurface sediments. Geophysics82(4), EN81–EN92.

Knight, R., Walsh, D. O., Butler Jr, J. J., Grunewald, E., Liu, G., Parsekian, A. D., Reboulet, E. C., Knobbe, S., & Barrows, M. (2016). NMR logging to estimate hydraulic conductivity in unconsolidated aquifers. Groundwater54(1), 104–114.

Dlugosch, R., Günther, T., Lukàcs, T., & Müller-Petke, M. (2016). Localization and identification of thin oil layers using a slim-borehole nuclear magnetic resonance tool. Geophysics81(4), WB109–WB118.

Kirkland, C. M., Hiebert, R., Phillips, A., Grunewald, E., Walsh, D. O., Seymour, J. D., & Codd, S. L. (2015). Biofilm detection in a model well‐bore environment using low‐field NMR. Groundwater Monitoring & Remediation35(4), 36–44.

Kirkland, C. M., Herrling, M. P., Hiebert, R., Bender, A. T., Grunewald, E., Walsh, D. O., & Codd, S. L. (2015). In situ detection of subsurface biofilm using low-field NMR: A field study. Environmental Science & Technology49(18), 11045–11052.

Kirkland, C. M., Hiebert, R., Phillips, A., Grunewald, E., Walsh, D. O., Seymour, J. D., & Codd, S. L. (2015). Biofilm detection in a model well‐bore environment using low‐field NMR. Groundwater Monitoring & Remediation35(4), 36–44.

Parsekian, A. D., Dlubac, K., Grunewald, E., Butler, J. J., Knight, R., & Walsh, D. O. (2015). Bootstrap calibration and uncertainty estimation of downhole NMR hydraulic conductivity estimates in an unconsolidated aquifer. Groundwater53(1), 111–121.

Walsh, D., Turner, P., Grunewald, E., Zhang, H., Butler Jr, J. J., Reboulet, E., Knobbe, S., Christy, T., Lane Jr, J. W., & Johnson, C. D. (2013). A small‐diameter NMR logging tool for groundwater investigations. Groundwater51(6), 914–926.

Javelin® Extended Abstracts

Girard, J. F., Dlugosch, R., Legtchenko, A., Pierret, M. C., Dumont, M., & Boucher, M. (2017). Magnetic Resonance in Fractured Granite Aquifer-Surface and Borehole Measurements in the Strengbach Catchment, France. 79th EAGE Conference and Exhibition 20172017(1), 1–5.

Hawke, P. J., Harrild, A., & Grunewald, E. (2016). Determination of formation specific NMR calibrations for water well evaluation in a semi-consolidated aquifer. ASEG Extended Abstracts2016(1), 1–5.

Tan, K. P., Lawrie, K. L., Abraham, J., & Brodie, R. S. (2015). Using Borehole NMR Data to Determine the Effective Porosity of Sediment for Groundwater Resource Estimation, Australia. Near Surface Geoscience 2015-21st European Meeting of Environmental and Engineering Geophysics2015(1), 1–5.

Viezzoli, A., Rutherford, J., Munday, T., & Vogwill, R. (2013). Updated inversion of SkyTEM data using downhole a-priori for new conceptual model and GW management targets at Toolibin Lake. ASEG Extended Abstracts2013(1), 1–4.

 

Dart™ Journal Articles

Flinchum, B. A., Banks, E., Hatch, M., Batelaan, O., Peeters, L., & Pasquet, S. (2020). Identifying recharge under subtle ephemeral features in flat-lying semi-arid region using a combined geophysical approach. Hydrology and Earth System Sciences Discussions, 1–31.

Claes, N., Paige, G. B., & Parsekian, A. D. (2019). Uniform and lateral preferential flows under flood irrigation at field scale. Hydrological Processes33(15), 2131–2147.

Hatch, M. (2019). Environmental geophysics: Geoscientists without Borders mapping groundwater in Laos. Preview2019(199), 32–34.

Niu, F., Gao, Z., Lin, Z., Luo, J., & Fan, X. (2019). Vegetation influence on the soil hydrological regime in permafrost regions of the Qinghai-Tibet Plateau, China. Geoderma354, 113892.

Kass, M. A., Irons, T. P., Minsley, B. J., Pastick, N. J., Brown, D. R. N., & Wylie, B. K. (2017). In situ nuclear magnetic resonance response of permafrost and active layer soil in boreal and tundra ecosystems. The Cryosphere11(6), 2943.

Minsley, B. J., Pastick, N. J., Wylie, B. K., Brown, D. R. N., & Andy Kass, M. (2016). Evidence for nonuniform permafrost degradation after fire in boreal landscapes. Journal of Geophysical Research: Earth Surface121(2), 320–335.

Walsh, D. (2015). Environmental geophysics: Portable NMR tools for measuring and monitoring soil moisture. Preview2015(178), 41–42.

Dart™ Extended Abstracts

Hatch, M., Batelaan, O., Banks, E., & Douangsavanh, S. (2019). Geophysics used to help find good quality groundwater in the Vientiane Plain, Lao PDR. ASEG Extended Abstracts2019(1), 1–3.

Mungia, Z. J., Minton, B., Schmidt, L., Hahm, W. J., & Rempe, D. (2019). Investigating water storage in a shale bedrock vadose zone in a montane conifer forest, Slate River, Colorado. In SEG Technical Program Expanded Abstracts 2019 (pp. 4824–4828). Society of Exploration Geophysicists.

Batelaan, O., Banks, E., Hatch, M., Douangsavanh, S., Sithiengtham, P., Enemark, T., Pavelic, P., Xayavong, V., & Xayviliya, O. (2018). Geophysics to enhance agricultural productivity and livelihoods of smallholder farmers through improved groundwater management of the Vientiane Plain, Lao PDR. In SEG Technical Program Expanded Abstracts 2018 (pp. 2501–2505). Society of Exploration Geophysicists.

Rempe, D. M., Schmidt, L. M., & Hahm, W. J. (2018). In-situ nuclear magnetic resonance detection of fracture-held water in variably saturated bedrock. In SEG Technical Program Expanded Abstracts 2018 (pp. 4919–4923). Society of Exploration Geophysicists.

Helios™ Journal Articles and Extended Abstracts

Downey, M., & Trofimczyk, K. (2019). Using Helios to test NMR response of iron ore chip samples. ASEG Extended Abstracts2019(1), 1–4.

Yao, T., Milczarek, M., Reidel, F., Daniel Weber, P. G., & Brooker, M. (2018). A New Rapid Brine Release Extraction Method in Support of Lithium Brine Resource Estimation. Proceedings of Mine Water Solutions.

Caporuscio, F. A., Boukhalfa, H., Cheshire, M., & Ding, M. (2014). Brine migration experimental studies for salt repositories. Los Alamos National Lab.(LANL), Los Alamos, NM (United States).

Sanderlin, A. B., Vogt, S. J., Grunewald, E., Bergin, B. A., & Codd, S. L. (2013). Biofilm detection in natural unconsolidated porous media using a low-field magnetic resonance system. Environmental Science & Technology47(2), 987–992.

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