Groundwater in geologic processes SE Ingebritsen, WE Sanford Cambridge University Press, 1999 | 884* | 1999 |
Permeability of the continental crust: Implications of geothermal data and metamorphic systems CE Manning, SE Ingebritsen Reviews of Geophysics 37 (1), 127-150, 1999 | 731 | 1999 |
Land subsidence in the United States DL Galloway, DR Jones, SE Ingebritsen Geological Survey (USGS), 1999 | 723 | 1999 |
Detection of aquifer system compaction and land subsidence using interferometric synthetic aperture radar, Antelope Valley, Mojave Desert, California DL Galloway, KW Hudnut, SE Ingebritsen, SP Phillips, G Peltzer, F Rogez, ... Water Resources Research 34 (10), 2573-2585, 1998 | 602 | 1998 |
Changes in permeability caused by transient stresses: Field observations, experiments, and mechanisms M Manga, I Beresnev, EE Brodsky, JE Elkhoury, D Elsworth, ... Reviews of Geophysics 50 (2), 2012 | 470 | 2012 |
Permeability of the continental crust: dynamic variations inferred from seismicity and metamorphism SE Ingebritsen, CE Manning Geofluids 10 (1‐2), 193-205, 2010 | 387 | 2010 |
Multiphase groundwater flow near cooling plutons DO Hayba, SE Ingebritsen Journal of Geophysical Research: Solid Earth 102 (B6), 12235-12252, 1997 | 325 | 1997 |
Geological implications of a permeability-depth curve for the continental crust SE Ingebritsen, CE Manning Geology 27 (12), 1107-1110, 1999 | 303 | 1999 |
Numerical simulation of magmatic hydrothermal systems SE Ingebritsen, S Geiger, S Hurwitz, T Driesner Reviews of Geophysics 48 (1), 2010 | 224 | 2010 |
Principal components analysis of multitemporal image pairs SE Ingebritsen, RJP Lyon International Journal of Remote Sensing 6 (5), 687-696, 1985 | 209 | 1985 |
Use of precipitation and groundwater isotopes to interpret regional hydrology on a tropical volcanic island: Kilauea volcano area, Hawaii MA Scholl, SE Ingebritsen, CJ Janik, JP Kauahikaua Water Resources Research 32 (12), 3525-3537, 1996 | 182 | 1996 |
Magmatic activity beneath the quiescent Three Sisters volcanic center, central Oregon Cascade Range, USA CW Wicks Jr, D Dzurisin, S Ingebritsen, W Thatcher, Z Lu, J Iverson Geophysical Research Letters 29 (7), 26-1-26-4, 2002 | 174 | 2002 |
The computer model Hydrotherm, a three-dimensional finite-difference model to simulate ground-water flow and heat transport in the temperature range of 0 to 1,200 degrees C DO Hayba, SE Ingebritsen Water-resources investigations report, 1994 | 163 | 1994 |
Potentially exploitable supercritical geothermal resources in the ductile crust N Watanabe, T Numakura, K Sakaguchi, H Saishu, A Okamoto, ... Nature Geoscience 10 (2), 140-144, 2017 | 144 | 2017 |
Groundwater flow, heat transport, and water table position within volcanic edifices: Implications for volcanic processes in the Cascade Range S Hurwitz, KL Kipp, SE Ingebritsen, ME Reid Journal of Geophysical Research: Solid Earth 108 (B12), 2003 | 138 | 2003 |
Vapor‐dominated zones within hydrothermal systems: Evolution and natural state SE Ingebritsen, ML Sorey Journal of Geophysical Research: Solid Earth 93 (B11), 13635-13655, 1988 | 131 | 1988 |
Heat flow and hydrothermal circulation in the Cascade Range, north-central Oregon SE Ingebritsen, DR Sherrod, RH Mariner Science 243 (4897), 1458-1462, 1989 | 117 | 1989 |
The physical hydrogeology of ore deposits SE Ingebritsen, MS Appold Economic Geology 107 (4), 559-584, 2012 | 105 | 2012 |
Geyser periodicity and the response of geysers to deformation SE Ingebritsen, SA Rojstaczer Journal of Geophysical Research: Solid Earth 101 (B10), 21891-21905, 1996 | 104 | 1996 |
Hydrothermal systems of the Cascade Range, north-central Oregon SE Ingebritsen, RH Mariner, DR Sherrod Professional Paper, 1994 | 102 | 1994 |