Near Parkfield, California, there have been moderate-sized earthquakes every 21-22 years. These have been recorded at least since 1857. Scientists therefore expected a moderate-sized earthquake in 1993, but it is yet to come.
Because of the consistent earthquake activity, scientists found Parkfield an ideal place to try to predict earthquakes - or to try to find precursors that would help predicting earthquakes in the future. There have been lots of earthquake prediction experiments in Parkfield over the last decades. None of the experiments has led to long-term prediction of earthquakes, but some has found some small precursors, that might be able to help in the future.
"An earthquake results from sudden slip on a geological fault. Such fracture and failure problems are notoriously intractable." This is one of the main reasons that "the leading seismological authorities of each era have generally concluded that earthquake prediction is not feasible." (Geller 1616). Of the opposite opinion is Christopher Scholz, who writes: "There is no doubt in my mind that many earthquakes are preceded by real precursors, but their causative processes remain murky, mainly because we lack good observations." (Scholz)
As seen scientists do not agree on the subject of whether or not earthquakes can be predicted. This is the reason that many scientists have done experiments near Parkfield - and other places.
"A Test of Tiny Tremors". Science News 147. 14 (8 Apr. 1995): 223.
Bakun, W.H., and A.G. Lindh. " The Parkfield, California, Earthquake Prediction Experiment". Science 229 (1985): 619-624.
Bolt, Bruce A. Earthquakes. Freeman, W.H., 1993.
Bolt is a professor at University of Sydney. His interests are seismology and earthquake hazard reduction. This book is in general about earthquakes and earthquake hazard reduction. "The true value of the book comes with its up-to-date treatment of earthquake hazards and prediction concepts, with a full section on the Parkfield experiment." (Wright 174)
Cramer, C.H. " Weak-Motion Observations and Modeling for the Turkey Flat, U.S., Site- Effects Test Area near Parkfield, California". Bulletin of the Seismological Society of America 85. 2 (Apr. 1995): 440-451.
Crustal Deformation Measurement at Parkfield, California. 1 May 1998. USGS. <http://quake.wr.usgs.gov/QUAKES/crustaldef/park.html> [accessed 9 May 1998].
"Earthquakes: Earthquake Prediction". Britannica CD 2.0.
Geller, R.J. , et. al. "Earthquakes Cannot be Predicted". Science 275 (14 Mar. 1997): 5306+.
Goodman, Jeffrey. We Are the Earthquake Generation: Where and When the Catastrophies Will Strike. New York: Seaview Books, 1978.
Gray, Chris. A Review of Two Methods of Predicting Earthquakes. 9 May 1995. <http://clgray.simplenet.com/paper/article.html >[accessed 9 May 1998].
Greenwood, Addison. Clocks in the Earth? The Science of Earthquake Prediction. Washington DC: National Academy Press, 1994.
Heppenheimer, Thomas A. The Coming Quake; Science and Trembling on the California Earthquake Frontier. New York: Times Books, 1988.
Thomas A. Heppenheimer, author of The Coming Quake; Science and Trembling on the California Earthquake Frontier, is employed at Center for Space Science in Fountain Valley, California. He has written many books and articles on many areas of science. His main point in The Coming Quake; Science and Trembling on the California Earthquake Frontier is how scientists try to predict the time place and size of future earthquakes. H.N. Pollack from Choice writes: "Heppenheimer acquaints the reader with the techniques of deciphering when major earthquakes have occurred along the San Andreas [fault] in prehistoric times, in order to establish a statistical understanding of earthquake recurrence intervals." (Choice 966)
Johnson, P.A., and T.V. McEvilly. "Parkfield Seismicity: Fluid-Driven?". Journal of Geophysical Research 100 (1995): 12937-12950.
Kagan, Y.Y. " Statistical Aspects of Parkfield Earthquake Sequence and Parkfield Prediction Experiment". Tectonophysics 270. 3-4 (15 Mar. 1997): 207-219.
Kerr, R.A. "A Slow Start for Earthquakes". Science 279 (13 Feb. 1998): 5353+.
LaMacchia, Diane. Small Quakes at Parkfield Provide Clues to Big Ones. 17 Feb. 1995. Public Information Department. <http://www.lbl.gov/Science-Articles/Archive/Parkfield-quakes-small.html> [accessed 9 May 1998].
Longbein, John. "The October 1992 Parkfield, California, Earthquake Prediction". Earthquakes and volcanoes 23. 4 (1992): 160+.
Michael, Andrew, et. al. Quake Forecasting - An Emerging Capability. 3 Apr. 1996. USGS. <http://quake.usgs.gov/QUAKES/FactSheets/QuakeForecasts/> [accessed 24 Mar. 1998].
Milton, Leanne W. Rev . of Predicting Earthquakes by Gregory Vogt. Science Books & Films 26 (Sept./Oct. 1990): 58.
Monastersky, Richard. "A Predicted Earthquake: What Are the Chances?". Science News 152. 9 (5 July 1997): 9.
Monastersky, Richard. "The Overdue Quake: Unusual Activity Along the San Andreas Hints a Long-Expected Tremor". Science News 152. 1 (5 July 1997): 8+.
Nadeau, R.M., W. Foxall, and T.V. McEvilly. "Clustering and Periodic Recurrence of Microearthquakes on the San Andreas Fault at Parkfield, California". Science 267 (27 Jan. 1995): 503-7.
National Earthquake Prediction Evaluation Council (US) Working Group. Earthquake Research at Parkfield, California � 1993 and Beyond; Report of the NEPEC Working Group to Evaluate the Parkfield Earthquake Prediction Experiment. US Geological Survey Open-File Report 93-622, 1993.
Perlman, David. "Quakes Rekindle Interest in Parkfield Test - Scientists Study Hill Area Trying to Predict Tremblors". SF Chronicle 10 Oct. 1997: A6.
Pollack, H.N. Rev. of The Coming Quake; Science and Trembling on the California Earthquake Frontier, by T. A. Heppenheimer. Choice 26 (Feb. 1989): 966+.
Predicting Earthquakes. 23 Oct. 1997. USGS. <http://pubs.usgs.gov/gip/earthq1/predict.html>[accessed 9 May 1998].
Predicting Earthquakes. Rev. of Predicting Earthquakes by Gregory Vogt. Amazon.com. <http://www.amazon.com/exec/obidos/ASIN/0531107884/002-3846167-9280028> [accessed 19 May 1998].
Roeloffs, Evelyn, and John Langbein. "The Earthquake Prediction Experiment at Parkfield, California". Reviews of Geophysics 32. 3 (Aug. 1994): 315-336.
San Andreas Fault on the Move at Parkfield. 16 Mar. 1998. USGS. <http://www.dakotacg.com/releases/pa/gs0318b.htm> [accessed 9 May 1998].
Scholz, Christopher. What Ever Happened to Earthquake Prediction?. March 1997. University of Oklahoma. <http://www.gcn.ou.edu/~jahern/v&e/predict/prediction_scholz.htm> [accessed 24 Mar. 1998].
Scholz, Christopher. " Whatever Happened to Earthquake Prediction?". Geotimes 42. 3 (Mar. 1997): 16-19.
"Shakin' on the Fault Line". Science World 54. 8 (12 Jan. 1998): 17.
Sterngold, James. " He's Still Waiting for the Big One: USGS's Richard Liechti Waits to Record Major Earthquake in Parkfield, California. The New York Times 19 Apr. 1998:WK4.
Stuart, William. "Forecast Model for Moderate Earthquakes near Parkfield, California". Journal of Geophysical Research 90 (10 Jan. 1985): 592-604.
Stuart, William D. and Terry E. Tullis. "Fault Model for Preseismic Deformation at Parkfield, California". Journal of Geophysical Research 100. 12: 24079-24099.
Tazieff, Haroun. Earthquake Prediction. New York: McGraw-Hill, 1992.
Tullis, Terry E. " Rock Friction and Its Implications for Earthquake Prediction Examined via Models of Parkfield Earthquakes". Proceedings of the National Academy of Sciences 93. 9 (30 Apr. 1996): 3803+.
Vogt, Gregory. Predicting Earthquakes. New York: F. Watts, 1989.
Vogt here writes about how earthquakes are predicted, located and measured. This book "is distinguished by emphasizing scientific instruments and methods to predict or control these phenomena [earthquakes]" (Milton 58). Predicting Earthquakes is " a good description of the development of quantitative observing techniques, and clear discussion of our still maturing attempts to forecast such events [earthquakes]" (Predicting earthquakes 1998)
Wright, William H. Rev. of Earthquakes by Bruce A. Bolt. Science Books & Films 29 (Aug./Sept. 1993): 174.
HiQuake Bibliography (Download as Microsoft Word file)
All references used within HiQuake can be found within this bibliography. Additionally, numerous other references on induced seismicity are listed for further reading.
Adams, R. D. (1969), Seismic effects at Mangla Dam, Pakistan, Nature, 222, 1153-1155.
Adushkin, V. V., V. Rodionov, N, S. Turuntaev, and A. E. Yudin (2000), Seismicity in the oil field.
Adushkin, V. V., and A. Spivak (2015), Underground explosions, DTIC Document.
Ake, J., K. Mahrer, D. O’Connell, and L. Block (2005), Deep-injection and closely monitored induced seismicity at Paradox Valley, Colorado, Bulletin of the Seismological Society of America, 95, 664-683.
Albano, M., S. Barba, G. Tarabusi, M. Saroli, and S. Stramondo (2017), Discriminating between natural and anthropogenic earthquakes: insights from the Emilia Romagna (Italy) 2012 seismic sequence, Scientific reports, 7.
Albano, M., M. Polcari, C. Bignami, M. Moro, M. Saroli, and S. Stramondo (2017), Did Anthropogenic Activities Trigger the 3 April 2017 Mw 6.5 Botswana Earthquake?, Remote Sensing, 9(10), 1028.
Albaric, J., V. Oye, N. Langet, M. Hasting, I. Lecomte, K. Iranpour, M. Messeiller, and P. Reid (2014), Monitoring of induced seismicity during the first geothermal reservoir stimulation at Paralana, Australia, Geothermics, 52, 120-131.
Alcott, J. M., P. K. Kaiser, and B. P. Simser (1998), Use of microseismic source parameters for rockburst hazard assessment, in Seismicity caused by mines, fluid injections, reservoirs, and oil extraction, pp. 41-65, Springer.
Al-Enezi, A., L. Petrat, R. Abdel-Fattah, and G. D. M. Technologie (2008), Induced seismicity and surface deformation within Kuwait’s oil fields, paper presented at Proc. Int. Conf. Geol. Seismol.
Allis, R. G., S. A. Currie, J. D. Leaver, and S. Sherburn (1985), Results of injection testing at Wairakei geothermal field, New Zealand, Trans. GRC, 289-294.
Alvarez-Garcia, I. N., F. L. Ramos-Lopez, C. Gonzalez-Nicieza, M. I. Alvarez-Fernandez, and A. E. Alvarez-Vigil (2013), The mine collapse at Lo Tacón (Murcia, Spain), possible cause of the Torre Pacheco earthquake (2nd May 1998, se Spain), Engineering Failure Analysis, 28, 115-133.
Amidzic, D., S. K. Murphy, and G. Van Aswegen (1999), Case study of a large seismic event at a South African gold mine, paper presented at 9th ISRM Congress, International Society for Rock Mechanics.
Amos, C. B., P. Audet, W. C. Hammond, R. Bürgmann, I. A. Johanson, and G. Blewitt (2014), Uplift and seismicity driven by groundwater depletion in central California, Nature, 509, 483-486.
Arabasz, W. J., J. Ake, M. K. McCarter, and A. McGarr (2002), Mining-induced seismicity near Joes Valley dam: Summary of ground-motion studies and assessment of probable maximum magnitude, Technical Report, University of Utah Seismograph Stations, Salt Lake City, Utah, 35 pp. Accessible online at www/seis. utah. edu/Reports/sitla2002b.
Arabasz, W. J., S. J. Nava, M. K. McCarter, K. L. Pankow, J. C. Pechmann, J. Ake, and A. McGarr (2005), Coal-mining seismicity and ground-shaking hazard: A case study in the Trail Mountain area, Emery County, Utah, Bulletin of the Seismological Society of America, 95, 18-30.
Arkhipova, E. V., A. D. Zhigalin, L. I. Morozova, and A. V. Nikolaev (2012), The Van earthquake on October 23, 2011: Natural and technogenic causes, paper presented at Doklady Earth Sciences, Springer.
Armbruster, J. G., D. W. Steeples, and L. Seeber (1989), The 1989 earthquake sequence near Palco, Kansas: A possible example of induced seismicity (abstract), Seismological Research Letters, 60, 141.
Asanuma, H., N. Soma, H. Kaieda, Y. Kumano, T. Izumi, K. Tezuka, H. Niitsuma, and D. Wyborn (2005), Microseismic monitoring of hydraulic stimulation at the Australian HDR project in Cooper Basin, paper presented at Proceedings World Geothermal Congress.
Assumpção, M., V. Marza, L. Barros, C. Chimpliganond, J. E. Soares, J. Carvalho, D. Caixeta, A. Amorim, and E. Cabral (2002), Reservoir-induced seismicity in Brazil, in The mechanism of induced seismicity, pp. 597-617, Springer.
Assumpção, M., T. H. Yamabe, J. R. Barbosa, V. Hamza, A. E. V. Lopes, L. Balancin, and M. B. Bianchi (2010), Seismic activity triggered by water wells in the Paraná Basin, Brazil, Water Resources Research, 46.
Astiz, L., J. H. Dieterich, C. Frohlich, B. H. Hager, R. Juanes, and J. H. Shaw (2014), On the potential for induced seismicity at the Cavone oilfield: analysis of geological and geophysical data, and geomechanical modeling, Report for the Laboratorio di Monitoraggio Cavone.
Atkinson, G. M., D. W. Eaton, H. Ghofrani, D. Walker, B. Cheadle, R. Schultz, R. Shcherbakov, K. Tiampo, J. Gu, R. M. Harrington, Y. Liu, M. van der Baan, and H. Kao (2016), Hydraulic Fracturing and Seismicity in the Western Canada Sedimentary Basin, Seismological Research Letters, 87, 631-647.
Avouac, J.-P. (2012), Earthquakes: Human-induced shaking, Nature Geoscience, 5, 763-764.
Awad, M., and M. Mizoue (1995), Earthquake activity in the Aswan region, Egypt, in Induced seismicity, pp. 69-86, Springer.
Baecher, G. B., and R. L. Keeney (1982), Statistical examination of reservoir-induced seismicity, Bulletin of the Seismological Society of America, 72, 553-569.
Baisch, S., E. Rothert, H. Stang, R. Vörös, C. Koch, and A. McMahon (2015), Continued geothermal reservoir stimulation experiments in the Cooper Basin (Australia), Bulletin of the Seismological Society of America.
Baisch, S., and R. Vörös (2011), Geomechanical study of Blackpool seismicity.
Baisch, S., R. Vörös, R. Weidler, and D. Wyborn (2009), Investigation of fault mechanisms during geothermal reservoir stimulation experiments in the Cooper Basin, Australia, Bulletin of the Seismological Society of America, 99, 148-158.
Baisch, S., R. Weidler, R. Vörös, D. Wyborn, and L. de Graaf (2006), Induced seismicity during the stimulation of a geothermal HFR reservoir in the Cooper Basin, Australia, Bulletin of the Seismological Society of America, 96, 2242-2256.
Baker, K., D. Hollett, and A. Coy (2014, February), Geothermal technologies office 2013 peer review report.
Balassanian, S. Y. (2005), Earthquakes induced by deep penetrating bombing?, Acta Seismologica Sinica, 18, 741-745.
Balfour, N., E. Borleis, C. Bugden, V. Dent, D. H. Glanville, D. Hardy, D. Love, M. Salmon, M. Sambridge, and A. Wallace (2014), Australian seismological report 2013.
Bao ,X., and D. W. Eaton (2016), Fault activation by hydraulic fracturing in western Canada, Science.
Barbee, J. (2017), Did fracking in Botswana cause Johannesburg to tremble?, Daily Maverick, https://www.dailymaverick.co.za/article/2017-04-04-did-fracking-in-botswana-cause-johannesburg-to-tremble/#.WeB3D1tSzRb, last accessed 13th October 2017.
Bardainne, T., N. Dubos-Sallée, G. Sénéchal, P. Gaillot, and H. Perroud (2008), Analysis of the induced seismicity of the Lacq gas field (southwestern France) and model of deformation, Geophysical Journal International, 172, 1151-1162.
Bardainne, T., P. Gaillot, N. Dubos-Sallée, J. Blanco, and G. Sénéchal (2006), Characterization of seismic waveforms and classification of seismic events using chirplet atomic decomposition. Example from the Lacq gas field (western Pyrenees, France), Geophysical Journal International, 166, 699-718.
Barros, L., V. Marza, C. Chimpliganond, and D. Caixeta (2001), Paraguay Seismicity during 2000, In 7th International Congress of the Brazilian Geophysical Society.
Basham, P. W. (1969), Canadian magnitudes of earthquakes and nuclear explosions in south-western North America, Geophysical Journal International, 17, 1-13.
Behm, M., A. Egreteau, M. Afifi, F. Ogliani, A. Voskamp (2014), Temporal and Spatial Variability of Microseismic Events due to Water Flooding: A Case Study from the Tazlau Field (RO), In Fifth EAGE Passive Seismic Workshop.
Bella, F., P. F. Biagi, M. Caputo, E. Cozzi, G. Della Monica, A. Ermini, W. Plastino, and V. Sgrigna (1998), Aquifer-induced seismicity in the central Apennines (Italy), Pure and applied geophysics, 153, 179-194.
Bennett, T. J., M. E. Marshall, K. L. Mclaughlin, B. W. Barker, and J. R. Murphy (1995a), Seismic characteristics and mechanisms of rockbursts, DTIC Document.
Bennett, T. J., K. L. McLaughlin, M. E. Marshall, B. W. Barker, and J. R. Murphy (1995b), Investigations of the seismic characteristics of rockbursts, DTIC Document.
Benz, H. M., N. D. McMahon, R. C. Aster, D. E. McNamara, and D. B. Harris (2015), Hundreds of earthquakes per day: The 2014 Guthrie, Oklahoma, earthquake sequence, Seismological Research Letters, 86, 1318-1325.
Bertani, R. (2012), Geothermal power generation in the world 2005–2010 update report, Geothermics, 41, 1-29.
Bertini, G., M. Casini, G. Gianelli, and E. Pandeli (2006), Geological structure of a long‐living geothermal system, Larderello, Italy, Terra Nova, 18, 163-169.
Białoń, W., E. Zarzycka, and S. Lasocki (2015), Seismicity of Czorsztyn Lake region: A case of reservoir triggered seismic process?, Acta Geophysica, 63, 1080-1089.
Bischoff, M., A. Cete, R. Fritschen, and T. Meier (2010), Coal mining induced seismicity in the Ruhr area, Germany, Pure and applied geophysics, 167, 63-75.
Bommer, J. J., S. Oates, J. M. Cepeda, C. Lindholm, J. Bird, R. Torres, G. Marroquín, and J. Rivas (2006), Control of hazard due to seismicity induced by a hot fractured rock geothermal project, Engineering Geology, 83, 287-306.
Boucher, G., A. Ryall, and A. E. Jones (1969), Earthquakes associated with underground nuclear explosions, Journal of Geophysical Research, 74, 3808-3820.
Bou‐Rabee, F. (1994), Earthquake recurrence in Kuwait induced by oil and gas extraction, Journal of Petroleum Geology, 17, 473-480.
Bou-Rabee, F., and A. Nur (2002), The 1993 M4.7 Kuwait earthquake: Induced by the burning of the oil fields, Kuwait J. Sci. Eng, 29, 155-163.
Bourne, S. J., and S. J. Oates (2014), An activity rate model of induced seismicity within the Groningen field.
Bowers, D. (1997), The October 30, 1994, seismic disturbance in South Africa: Earthquake or large rock burst?, Journal of Geophysical Research: Solid Earth, 102, 9843-9857.
Breede, K., K. Dzebisashvili, X. Liu, and G. Falcone (2013), A systematic review of enhanced (or engineered) geothermal systems: Past, present and future, Geothermal Energy, 1, 1-27.
British Columbia Oil and Gas Commission (BCOGC) (2012), Investigation of observed seismicity in the Horn River Basin.
British Columbia Oil and Gas Commission (BCOGC) (2014), Investigation of observed seismicity in the Montney trend.
Brodsky, E. E., and L. J. Lajoie (2013), Anthropogenic seismicity rates and operational parameters at the Salton Sea geothermal field, Science, 341, 543-546.
Bromley, C. J., C. F. Pearson, and D. M. Rigor (1987), Microearthquakes at the Puhagan geothermal field, Philippines—a case of induced seismicity, Journal of volcanology and geothermal research, 31, 293-311.
Brune, J. N., and P. W. Pomeroy (1963), Surface wave radiation patterns for underground nuclear explosions and small‐magnitude earthquakes, Journal of Geophysical Research, 68, 5005-5028.
Buchanan, R. C., K. D. Newell, C. S. Evans, R. D. Miller and S. L. Peterie (2015), Induced Seismicity: The Potential for Triggered Earthquakes in Kansas, Kansas Geological Survey.
Bukchin, B. G., A. Z. Mostinsky, A. A. Egorkin, A. L. Levshin, and M. H. Ritzwoller (2001), Isotropic and nonisotropic components of earthquakes and nuclear explosions on the Lop Nor test site, China, in Monitoring the comprehensive nuclear-test-ban treaty: Surface waves, pp. 1497-1515, Springer.
Calò, M., C. Dorbath, and M. Frogneux (2014), Injection tests at the EGS reservoir of Soultz-Sous-Forêts. Seismic response of the GPK4 stimulations, Geothermics, 52, 50-58.
Caciagli, M., R. Camassi, S. Danesi, S. Pondrelli, and S. Salimbeni (2015), Can We Consider the 1951 Caviaga (Northern Italy) Earthquakes as Noninduced Events?, Seismological Research Letters, 86(5), 1335-1344.
Caloi, P., M. De Panfilis, D. Di Filippo, L. Marcelli, and M. C. Spadea (1956), Terremoti della Val Padana del 15-16 Maggio 1951, Annals of Geophysics, 9, 63-105.
Carder, D. S. (1945), Seismic investigations in the Boulder dam area, 1940-1944, and the influence of reservoir loading on local earthquake activity, Bulletin of the Seismological Society of America, 35, 175-192.
Carpenter, P. J., and I. W. El-Hussain (2015), Reservoir induced seismicity near Heron and El Vado reservoirs, northern New Mexico, and implications for fluid injection within the San Juan Basin, paper presented at AAPG Annual Convention and Exhibition.
Cesca, S., F. Grigoli, S. Heimann, Á. González, E. Buforn, S. Maghsoudi, E. Blanch, and T. Dahm (2014), The 2013 September–October seismic sequence offshore Spain: A case of seismicity triggered by gas injection?, Geophysical Journal International, 198, 941-953.
Chadha, R. K. (1995), Role of dykes in induced seismicity at Bhatsa reservoir, Maharashtra, India, in Induced seismicity, pp. 155-165, Springer.
Chelidze, T. L., T. J. Jimsheladze, and G. I. Melikadze (2008), Induced seismicity due to oil production in Tbilisi region, Georgia, Journal of Georgian Geophysical Society, 12A, 7-16.
Chen, L., and P. Talwani (1998), Reservoir-induced seismicity in China, Pure and applied geophysics, 153, 133-149.
Chimpliganond, C., G. S. França, A. E. Bandeira, and L. A. Bevilaqua (2007a), Reservoir-triggered seismicity at the highest Brazillian dam, In 2007 AGU Joint Assembly.
Chimpliganond, C., K. T. Sousa, D. Caixeta, L. V. Barros, and G. S. França (2007b), Spatio-temporal evolution of triggered seismicity at Nova Ponte Reservoir, Brazil, In AGU Spring Meeting Abstracts.
Chouhan, R. K. S. (1986), Induced seismicity of Indian coal mines, Physics of the earth and planetary interiors, 44, 82-86.
Chouhan, R. K. S. (1992), Combating the rockburst problem – a seismological approach, in Induced seismicity, edited by P. Knoll, Balkema, Rotterdam.
Číž, R., and B. Růžek (1997), Periodicity of mining and induced seismicity in the Mayrau mine, Czech Republic, Studia Geophysica et Geodaetica, 41, 29-44.
Cladouhos, T. T., S. Petty, Y. Nordin, M. Moore, K. Grasso, M. Uddenberg, M. Swyer, B. Julian, and G. Foulger (2013), Microseismic monitoring of Newberry volcano EGS demonstration, paper presented at Proceedings of the 38th Workshop on Geothermal Reservoir Engineering, Stanford, CA.
Clark, D. (2009), Potential geologic sources of seismic hazard in the Sydney Basin, Proceedings volume of a one day workshop. Geoscience Australia Record 2009/11. 115pp.
Clarke, H., L. Eisner, P. Styles, and P. Turner (2014), Felt seismicity associated with shale gas hydraulic fracturing: The first documented example in Europe, Geophysical Research Letters, 41, 8308-8314.
Dahm, T., S. Cesca, S. Hainzl, T. Braun, and F. Krüger (2015), Discrimination between induced, triggered, and natural earthquakes close to hydrocarbon reservoirs: A probabilistic approach based on the modeling of depletion‐induced stress changes and seismological source parameters, Journal of Geophysical Research: Solid Earth, 120, 2491-2509.
Dahm, T., F. Krüger, K. Stammler, K. Klinge, R. Kind, K. Wylegalla, and J.-R. Grasso (2007), The 2004 Mw 4.4 Rotenburg, northern Germany, earthquake and its possible relationship with gas recovery, Bulletin of the Seismological Society of America, 97, 691-704.
Darold, A., A. A. Holland, C. Chen, and A. Youngblood (2014), Preliminary analysis of seismicity near Eagleton 1-‐29, Carter County, July 2014.
Davatzes, N. C., S. T. Ali, R. J. Mellors, W. Foxall, H. F. Wang, K. L. Feigl, P. S. Drakos, and E. Zemach (2013), Contrasts between deformation accommodated by induced seismic and aseismic processes revealed by combined monitoring of seismicity and surface deformations: Brady Geothermal Field, Nevada, USA, In AGU Fall Meeting Abstracts.
Davies, R., G. Foulger, A. Bindley, and P. Styles (2013), Induced seismicity and hydraulic fracturing for the recovery of hydrocarbons, Marine and Petroleum Geology, 45, 171-185.
Davis, S. D., and C. Frohlich (1993), Did (or will) fluid injection cause earthquakes?-criteria for a rational assessment, Seismological Research Letters, 64, 207-224.
Davis, S. D., P. A. Nyffenegger, and C. Frohlich (1995), The 9 April 1993 earthquake in south-central Texas: Was it induced by fluid withdrawal?, Bulletin of the Seismological Society of America, 85, 1888-1895.
Davis, S. D., and W. D. Pennington (1989), Induced seismic deformation in the Cogdell oil field of west Texas, Bulletin of the Seismological Society of America, 79, 1477-1495.
de Pater, C. J., and S. Baisch (2011), Geomechanical study of Bowland Shale seismicity, Synthesis Report, 57.
Deichmann, N., and J. Ernst (2009), Earthquake focal mechanisms of the induced seismicity in 2006 and 2007 below Basel (Switzerland), Swiss Journal of Geosciences, 102, 457-466.
Diaz, A. R., E. Kaya, and S. J. Zarrouk (2016), Reinjection in geothermal fields− a worldwide review update, Renewable and Sustainable Energy Reviews, 53, 105-162.
Doblas, M., N. Youbi, J. De Las Doblas, and A. J. Galindo (2014), The 2012/2014 swarmquakes of Jaen, Spain: A working hypothesis involving hydroseismicity associated with the hydrologic cycle and anthropogenic activity, Natural hazards, 74, 1223-1261.
Doornenbal, H., and A. Stevenson (2010), Petroleum geological atlas of the southern Permian Basin area, EAGE.
Doser, D. I., M. R. Baker, M. Luo, P. Marroquin, L. Ballesteros, J. Kingwell, H. L. Diaz, and G. Kaip (1992), The not so simple relationship between seismicity and oil production in the Permian Basin, west Texas, Pure and applied geophysics, 139, 481-506.
Dost, B., and J. Spetzler (2015), Probabilistic seismic hazard analysis for induced earthquakes in Groningen; update 2015.
Downing, J. A., Y. T. Prairie, J. J. Cole, C. M. Duarte, L. J. Tranvik, R. G. Striegl, W. H. McDowell, P. Kortelainen, N. F. Caraco, and J. M. Melack (2006), The global abundance and size distribution of lakes, ponds, and impoundments, Limnology and Oceanography, 51, 2388-2397.
Dreger, D. S., S. R. Ford, and W. R. Walter (2008), Source analysis of the Crandall Canyon, Utah, mine collapse, Science, 321, 217-217.
Durrheim, R. J. (2010), Mitigating the risk of rockbursts in the deep hard rock mines of South Africa: 100 years of research, in Extracting the science: A century of mining research, Brune, J. (eds), Society for Mining, Metallurgy, and Exploration, Inc, pp. 156-171.
Durrheim, R. J. (2015a), Earthquake Seismology, in: History of Geophysics in Southern Africa, 2015, de Beer, J. H. (ed.), South African Geophysical Association.
Durrheim, R. J. (2015b), Geophysical laboratories in deep gold mines: Earthquakes, neutrinos, extremophiles and the origin of the Earth’s magnetic field, in: History of Geophysics in Southern Africa, 2015, de Beer, J. H. (ed.), South African Geophysical Association.
Durrheim, R. J., and K. L. Riemer (2015), The history of mining seismology, in: History of Geophysics in Southern Africa, 2015, de Beer, J. H. (ed.), South African Geophysical Association.
Durrheim, R. J., R. L. Anderson, A. Cichowicz, R. Ebrahim-Trolloped, G. Hubert, A. Kijko, A. McGarr, W. D. Ortlepp, and N. van der Merwe (2006a), Investigation into the risks to miners, mines, and the public associated with large seismic events in gold mining districts, Department of Minerals and Energy.
Durrheim, R. J., R. L. Anderson, A. Cichowicz, R. Ebrahim-Trolloped, G. Hubert, A. Kijko, A. McGarr, W. Ortlepp, and N. van der Merwe (2006b), The risks to miners, mines, and the public posed by large seismic events in the gold mining districts of South Africa, paper presented at Proceedings of the Third International Seminar on Deep and High Stress Mining, 2-4 October 2006, Quebec City, Canada.
Eagar, K. C., G. L. Pavlis, and M. W. Hamburger (2006), Evidence of possible induced seismicity in the Wabash Valley seismic zone from improved microearthquake locations, Bulletin of the Seismological Society of America, 96, 1718-1728.
El-Hussain, I. W., and P. J. Carpenter (1990), Reservoir induced seismicity near Heron and El Vado reservoirs, northern New Mexico, Bulletin of the Association of Engineering Geologists, 27, 51-59.
Ellsworth, W. L. (2013), Injection-induced earthquakes, Science, 341, 1225942.
Emanov, A. F., A. A. Emanov, A. V. Fateev, E. V. Leskova, E. V. Shevkunova, and V. G. Podkorytova (2014), Mining-induced seismicity at open pit mines in Kuzbass (Bachatsky earthquake on June 18, 2013), Journal of Mining Science, 50, 224-228.
Engdahl, E. R. (1972), Seismic effects of the Milrow and Cannikin nuclear explosions, Bulletin of the Seismological Society of America, 62, 1411-1423.
Eremenko, V. A., A. A. Eremenko, S. V. Rasheva, and S. B. Turuntaev (2009), Blasting and the man-made seismicity in the Tashtagol mining area, Journal of mining science, 45, 468-474.
Evans, D. M. (1966), The Denver area earthquakes and the Rocky Mountain Arsenal disposal well, The Mountain Geologist, 3, 23-36.
Evans, K. F., A. Zappone, T. Kraft, N. Deichmann, and F. Moia (2012), A survey of the induced seismic responses to fluid injection in geothermal and CO2 reservoirs in Europe, Geothermics, 41, 30-54.
Fabriol, H., and A. Beauce (1997), Temporal and spatial distribution of local seismicity in the Chipilapa-Ahuachapán geothermal area, El Salvador, Geothermics, 26, 681-699.
Fajklewicz, Z., and K. Jakiel (1989), Induced gravity anomalies and seismic energy as a basis for prediction of mining tremors, in Seismicity in mines, pp. 535-552, Springer.
Farahbod, A. M., H. Kao, D. M. Walker, J. F. Cassidy, and A. Calvert (2015), Investigation of regional seismicity before and after hydraulic fracturing in the Horn River Basin, northeast British Columbia, Canadian Journal of Earth Sciences, 52, 112-122.
Feng, Q., and J. M. Lees (1998), Microseismicity, stress, and fracture in the Coso geothermal field, California, Tectonophysics, 289, 221-238.
Ferguson, G. (2015), Deep injection of waste water in the Western Canada Sedimentary Basin, Groundwater, 53, 187-194.
Ferreira, J. M., G. S. França, C. S. Vilar, A. F. do Nascimento, F. H. R. Bezerra, and M. Assumpção (2008), Induced seismicity in the Castanhão reservoir, ne Brazil—preliminary results, Tectonophysics, 456, 103-110.
Fletcher, J. B., and L. R. Sykes (1977), Earthquakes related to hydraulic mining and natural seismic activity in western New York state, Journal of Geophysical Research, 82, 3767-3780.
Folger, P. F., and M. Tiemann (2014), Human-induced earthquakes from deep-well injection: A brief overview, Congressional Research Service.
Ford, S. R., D. S. Dreger, and W. R. Walter (2008), Source characterization of the 6 August 2007 Crandall Canyon mine seismic event in central Utah, Seismological Research Letters, 79, 637-644.
Foulger, G. R., M. P. Wilson, J. G. Gluyas, R. J. Davies, and B. R. Julian (2017), Global review of induced and triggered earthquakes, Earth-Science Reviews, submitted.
Friberg, P. A., G. M. Besana‐Ostman, and I. Dricker (2014), Characterization of an earthquake sequence triggered by hydraulic fracturing in Harrison County, Ohio, Seismological Research Letters.
Fritschen, R. (2010), Mining-induced seismicity in the Saarland, Germany, Pure and applied geophysics, 167, 77-89.
Frohlich, C. (2012), Two-year survey comparing earthquake activity and injection-well locations in the Barnett Shale, Texas, Proceedings of the National Academy of Sciences, 109, 13934-13938.
Frohlich, C., and M. Brunt (2013), Two-year survey of earthquakes and injection/production wells in the Eagle Ford Shale, Texas, prior to the Mw4.8 20 October 2011 earthquake, Earth and Planetary Science Letters, 379, 56-63.
Frohlich, C., and S. D. Davis (2002), Texas earthquakes, University of Texas Press.
Frohlich, C., H. DeShon, B. Stump, C. Hayward, M. Hornbach, and J. I. Walter (2016), A Historical Review of Induced Earthquakes in Texas, Seismological Research Letters, 87(4), 1022-1038.
Frohlich, C., W. Ellsworth, W. A. Brown, M. Brunt, J. Luetgert, T. MacDonald, and S. Walter (2014), The 17 May 2012 M4.8 earthquake near Timpson, east Texas: An event possibly triggered by fluid injection, Journal of Geophysical Research: Solid Earth, 119, 581-593.
Frohlich, C., J. Glidewell, and M. Brunt (2012), Location and felt reports for the 25 April 2010 mbLg 3.9 earthquake near Alice, Texas: Was it induced by petroleum production?, Bulletin of the Seismological Society of America, 102, 457-466.
Frohlich, C., C. Hayward, B. Stump, and E. Potter (2011), The Dallas–Fort Worth earthquake sequence: October 2008 through May 2009, Bulletin of the Seismological Society of America, 101, 327-340.
Frohlich, C., and E. Potter (2013), What further research could teach us about “close encounters of the third kind”: Intraplate earthquakes associated with fluid injection, Memoir 103: Critical Assessment of Shale Resource Plays, 109-119.
Frohlich, C., J. I. Walter, and J. F. W. Gale (2015), Analysis of transportable array (USarray) data shows earthquakes are scarce near injection wells in the Williston Basin, 2008–2011, Seismological Research Letters.
Gahalaut, K., V. K. Gahalaut, and M. R. Pandey (2007), A new case of reservoir triggered seismicity: Govind Ballav Pant reservoir (Rihand dam), central India, Tectonophysics, 439, 171-178.
Gaite, B., A. Ugalde, A. Villaseñor, and E. Blanch (2016), Improving the location of induced earthquakes associated with an underground gas storage in the Gulf of Valencia (Spain), Physics of the Earth and Planetary Interiors, 254, 46-59.
Galybin, A. N., S. S. Grigoryan, and S. A. Mukhamediev (1998), Model of induced seismicity caused by water injection, paper presented at SPE/ISRM Rock Mechanics in Petroleum Engineering, Society of Petroleum Engineers.
Gan, W., and C. Frohlich (2013), Gas injection may have triggered earthquakes in the Cogdell oil field, Texas, Proceedings of the National Academy of Sciences, 110, 18786-18791.
Gasparini, P., P. Styles, S. Lasocki, P. Scandone, E. Huenges, F. Terlizzese, and S. Esposito (2015), The ICHESE report on the relationship between hydrocarbon exploration and the May 2012 earthquakes in the Emilia region (Italy) and their consequences.
Gaucher, E., M. Schoenball, O. Heidbach, A. Zang, P. A. Fokker, J.-D. van Wees, and T. Kohl (2015), Induced seismicity in geothermal reservoirs: A review of forecasting approaches, Renewable and Sustainable Energy Reviews, 52, 1473-1490.
Ge, S., M. Liu, N. Lu, J. W. Godt, and G. Luo (2009), Did the Zipingpu reservoir trigger the 2008 Wenchuan earthquake?, Geophysical Research Letters, 36.
Gendzwill, D. J., R. B. Horner, and H. S. Hasegawa (1982), Induced earthquakes at a potash mine near Saskatoon, Canada, Canadian Journal of Earth Sciences, 19, 466-475.
Genmo, Z., C. Huaran, M. Shuqin, and Z. Deyuan (1995), Research on earthquakes induced by water injection in China, in Induced seismicity, pp. 59-68, Springer.
German, V. I. (2014), Rock failure prediction in mines by seismic monitoring data, Journal of Mining Science, 50, 288-297.
Gestermann, N., T. Plenefisch, U. Schwaderer, and M. Joswig (2015), Induced seismicity at the natural gas fields in northern Germany, in Schatzalp Induced Seismicity Workshop, 10-13 March 2015, Davos, Switzerland.
Gibowicz, S. J. (1998), Partial stress drop and frictional overshoot mechanism of seismic events induced by mining, in Seismicity caused by mines, fluid injections, reservoirs, and oil extraction, pp. 5-20, Springer.
Gibowicz, S. J., A. Bober, A. Cichowicz, Z. Droste, Z. Dychtowicz, J. Hordejuk, M. Kazimierczyk, and A. Kijko (1979), Source study of the Lubin, Poland, tremor of 24 March 1977, Acta Geophys. Pol, 27, 3-38.
Gibowicz, S. J., Z. Droste, B. Guterch, and J. Hordejuk (1981), The Belchatow, Poland, earthquakes of 1979 and 1980 induced by surface mining, Engineering Geology, 17, 257-271.
Gibowicz, S. J., R. P. Young, S. Talebi, and D. J. Rawlence (1991), Source parameters of seismic events at the Underground Research Laboratory in Manitoba, Canada: Scaling relations for events with moment magnitude smaller than −2, Bulletin of the Seismological Society of America, 81, 1157-1182.
Gibson, G., and M. Sandiford (2013), Seismicity and induced earthquakes, Office of the New South Wales Chief Scientist and Engineer.
Gilyarov, V. L., E. E. Damaskinskaya, A. G. Kadomtsev, and I. Y. Rasskazov (2014), Analysis of statistic parameters of geoacoustic monitoring data for the Antey Uranium Deposit, Journal of Mining Science, 50, 443-447.
Glowacka, E., and F. A. Nava (1996), Major earthquakes in Mexicali valley, Mexico, and fluid extraction at Cerro Prieto geothermal field, Bulletin of the Seismological Society of America, 86, 93-105.
Göbel, T. (2015), A comparison of seismicity rates and fluid-injection operations in Oklahoma and California: Implications for crustal stresses, The Leading Edge, 34, 640-648.
Godano, M., E. Gaucher, T. Bardainne, M. Regnier, A. Deschamps, and M. Valette (2010), Assessment of focal mechanisms of microseismic events computed from two three‐component receivers: Application to the Arkema‐Vauvert field (France), Geophysical prospecting, 58, 775-790.
Goebel, T. H. W., E. Hauksson, F. Aminzadeh, and J., -P. Ampuero (2015), An objective method for the assessment of fluid injection-induced seismicity and application to tectonically active regions in central California, Journal of Geophysical Research: Solid Earth, 120(10), 7013-7032.
Goebel, T. H. W., S. M. Hosseini, F. Cappa, E. Hauksson, J. P. Ampuero, F. Aminzadeh, and J. B. Saleeby (2016), Wastewater disposal and earthquake swarm activity at the southern end of the Central Valley, California, Geophysical Research Letters.
Goldbach, O. D. (2009), Flooding-induced seismicity in mines, paper presented at 11th SAGA Biennial Technical Meeting and Exhibition.
Gomberg, J., and L. Wolf (1999), Possible cause for an improbable earthquake: The 1997 Mw 4.9 southern Alabama earthquake and hydrocarbon recovery, Geology, 27, 367-370.
González, P. J., K. F. Tiampo, M. Palano, F. Cannavó, and J. Fernández (2012), The 2011 Lorca earthquake slip distribution controlled by groundwater crustal unloading, Nature Geoscience, 5, 821-825.
Gough, D. I., and W. I. Gough (1970), Load-induced earthquakes at Lake Kariba—II, Geophysical Journal International, 21, 79-101.
Grasso, J.-R. (1992), Mechanics of seismic instabilities induced by the recovery of hydrocarbons, Pure and applied geophysics, 139, 507-534.
Green, C. A., P. Styles, and B. J. Baptie (2012), Preese Hall shale gas fracturing review & recommendations for induced seismic mitigation: UK department of energy and climate change.
Groos, J., J. Zeiß, M. Grund, and J. Ritter (2013), Microseismicity at two geothermal power plants at Landau and Insheim in the Upper Rhine Graben, Germany, paper presented at EGU General Assembly Conference Abstracts.
Ground Water Research & Education Foundation (GWREF) (2013), White paper II summarizing a special session on induced seismicity.
Grünthal, G. (2014), Induced seismicity related to geothermal projects versus natural tectonic earthquakes and other types of induced seismic events in central Europe, Geothermics, 52, 22-35.
Guglielmi, Y., F. Cappa, J.-P. Avouac, P. Henry, and D. Elsworth (2015), Seismicity triggered by fluid injection–induced aseismic slip, Science, 348, 1224-1226.
Guha, S. K. (2000), Water Reservoir and Deep Well Induced Seismicity, In Induced Earthquakes, Springer Netherlands, 5-76.
Guha, S. K., and D. N. Patil (1990), Large water-reservoir-related induced seismicity, Gerlands Beitr Geophys, 99, 265-288.
Gupta, H. K. (2002), A review of recent studies of triggered earthquakes by artificial water reservoirs with special emphasis on earthquakes in Koyna, India, Earth-Science Reviews, 58, 279-310.
Gupta, H. K. (2011), Artificial water reservoir triggered earthquakes, Encyclopedia of Solid Earth Geophysics, 15-24.
Hamilton, R. M., B. E. Smith, F. G. Fischer, and P. J. Papanek (1972), Earthquakes caused by underground nuclear explosions on Pahute Mesa, Nevada test site, Bulletin of the Seismological Society of America, 62, 1319-1341.
Haney, F., J. Kummerow, C. Langenbruch, C. Dinske, S. A. Shapiro, and F. Scherbaum (2011), Magnitude estimation for microseismicity induced during the KTB 2004/2005 injection experiment, Geophysics, 76, WC47-WC53.
Hasegawa, H. S., R. J. Wetmiller, and D. J. Gendzwill (1989), Induced seismicity in mines in Canada—an overview, Pure and applied geophysics, 129, 423-453.
Hauksson, E., T. Göbel, J.-P. Ampuero, and E. Cochran (2015), A century of oil-field operations and earthquakes in the Greater Los Angeles Basin, southern California, The Leading Edge, 34, 650-656.
Healy, J. H., W. W. Rubey, D. T. Griggs, and C. B. Raleigh (1968), The Denver earthquakes, Science, 161(3848), 1301-1310.
Heck, N. H., and R. R. Bodle (1931), United States earthquakes 1929, US Coast and Geodetic Survey, Serial.
Hedley, D. G. F., and J. E. Udd (1989), The Canada-Ontario-industry rockburst project, in Seismicity in mines, pp. 661-672, Springer.
Heesakkers, V., S. K. Murphy, G. van Aswegen, R. Domoney, S. Addams, T. Dewers, M. Zechmeister, and Z. Reches (2005), The rupture zone of the M= 2.2 earthquake that reactivated the ancient Pretorius fault in Tautona mine, South Africa, paper presented at AGU Fall Meeting Abstracts.
Heick, C., and D. Flach (1989), Microseismicity in a flooded potash mine, the Hope mine, Federal Republic of Germany, in Seismicity in mines, pp. 475-496, Springer.
Herrmann, R. B. (1978), A seismological study of two Attica, New York earthquakes, Bulletin of the Seismological Society of America, 68, 641-651.
Hill, D. P., P. A. Reasenberg, A. Michael, W. J. Arabaz, G. Beroza, D. Brumbaugh, J. N. Brune, R. Castro, S. Davis, and W. L. Ellsworth (1993), Seismicity remotely triggered by the magnitude 7.3 Landers, California, earthquake, Science, 260, 1617-1623.
Holland, A. A. (2011), Examination of possibly induced seismicity from hydraulic fracturing in the Eola field, Garvin County, Oklahoma.
Holland, A. A. (2013), Earthquakes triggered by hydraulic fracturing in south‐central Oklahoma, Bulletin of the Seismological Society of America, 103, 1784-1792.
Holmgren, J. (2015), Induced seismicity in the Dannemora mine, Sweden, Uppsala Universitet.
Holschneider, M., G. Zöller, and S. Hainzl (2011), Estimation of the maximum possible magnitude in the framework of a doubly truncated Gutenberg–Richter model, Bulletin of the Seismological Society of America, 101, 1649-1659.
Holub, K., J. Holečko, J. Rušajová, and A. Dombkova (2012), Long-term development of seismic monitoring networks in the Ostrava-Karviná coal mine district, Acta Geodynamica et Geomaterialia, 9, 115-132.
Hong, T. K., C. E. Baag, H. Choi, and D. H. Sheen (2008), Regional seismic observations of the 9 October 2006 underground nuclear explosion in North Korea and the influence of crustal structure on regional phases, Journal of Geophysical Research: Solid Earth, 113.
Hornbach, M. J., H. R. DeShon, W. L. Ellsworth, B. W. Stump, C. Hayward, C. Frohlich, H. R. Oldham, J. E. Olson, M. B. Magnani, and C. Brokaw (2015), Causal factors for seismicity near Azle, Texas, Nature communications, 6.
Horner, R. B., J. E. Barclay, and J. M. MacRae (1994), Earthquakes and hydrocarbon production in the Fort St. John area of northeastern British Columbia, Canadian Journal of Exploration Geophysics, 30, 39-50.
Horton, S. (2012), Disposal of hydrofracking waste fluid by injection into subsurface aquifers triggers earthquake swarm in central Arkansas with potential for damaging earthquake, Seismological Research Letters, 83, 250-260.
Hough, S. E., and M. Page (2015), A century of induced earthquakes in Oklahoma?, Bulletin of the Seismological Society of America, 105, 2863-2870.
Hsieh, P. A., and J. D. Bredehoeft (1981), A reservoir analysis of the Denver earthquakes: A case of induced seismicity, Journal of Geophysical Research: Solid Earth, 86, 903-920.
Hsiung, S. M., W. Blake, A. H. Chowdhury, and T. J. Williams (1992), Effects of mining-induced seismic events on a deep underground mine, Pure and applied geophysics, 139, 741-762.
Hua, W., Z. Chen, S. Zheng, and C. Yan (2013), Reservoir-induced seismicity in the Longtan reservoir, southwestern China, Journal of seismology, 17, 667-681.
Hua, W., H. Fu, Z. Chen, S. Zheng, and C. Yan (2015), Reservoir-induced seismicity in high seismicity region—a case study of the Xiaowan reservoir in Yunnan province, China, Journal of Seismology, 19, 567-584.
Hua, W., S. Zheng, C. Yan, and Z. Chen (2013), Attenuation, site effects, and source parameters in the Three Gorges reservoir area, China, Bulletin of the Seismological Society of America, 103, 371-382.
Huaman, R. N. E., and T. X. Jun (2014), Energy related CO2 emissions and the progress on CCS projects: A review, Renewable and Sustainable Energy Reviews, 31, 368-385.
Husen, S., E. Kissling, and A. von Deschwanden (2012), Induced seismicity during the construction of the Gotthard Base Tunnel, Switzerland: Hypocenter locations and source dimensions, Journal of seismology, 16, 195-213.
Iannacchione, A. T., and J. C. Zelanko (1995), Occurrence and remediation of coal mine bumps: A historical review, Paper in Proceedings: Mechanics and Mitigation of Violent Failure in Coal and Hard-Rock Mines. US Bureau of Mines Spec. Publ, 01-95.
Improta, L., L. Valoroso, D. Piccinini, C. Chiarabba, and M. Buttinelli (2015), A detailed analysis of initial seismicity induced by wastewater injection in the Val d’Agri oil field (Italy), in Schatzalp Induced Seismicity Workshop, 10-13 March 2015, Davos, Switzerland.
Jaku, E. P., A. Z. Toper, and A. J. Jager (2001), Updating and maintaining the accident database, Safety in Mines Research Advisory Committee.
Jiménez, A., K. F. Tiampo, A. M. Posadas, F. Luzón, and R. Donner (2009), Analysis of complex networks associated to seismic clusters near the Itoiz reservoir dam, The European Physical Journal Special Topics, 174, 181-195.
Jost, M. L., T. Büßelberg, Ö. Jost, and H. P. Harjes (1998), Source parameters of injection-induced microearthquakes at 9 km depth at the KTB deep drilling site, Germany, Bulletin of the Seismological Society of America, 88(3), 815-832.
Juanes, R., B. Jha, B. H. Hager, J. H. Shaw, A. Plesch, L. Astiz, H. Dieterich, and C. Frohlich (2016), Were the May 2012 Emilia‐Romagna earthquakes induced? A coupled flow‐geomechanics modeling assessment, Geophysical Research Letters, 43(13), 6891-6897.
Julià, J., A. A. Nyblade, R. Durrheim, L. Linzer, R. Gök, P. Dirks, and W. Walter (2009), Source mechanisms of mine-related seismicity, Savuka mine, South Africa, Bulletin of the Seismological Society of America, 99, 2801-2814.
Julian, B. R., G. R. Foulger, and F. C. Monastero (2009), Seismic monitoring of EGS stimulation tests at the Coso geothermal field, California, using microearthquake locations and moment tensors, paper presented at Thirty-Fourth Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, February.
Julian, B. R., A. Ross, G. R. Foulger, and J. R. Evans (1996), Three‐dimensional seismic image of a geothermal reservoir: The Geysers, California, Geophysical Research Letters, 23, 685-688.
Juncu, D., T. Árnadóttir, H. Geirsson, G. Guðmundsson, G. Gunnarsson, A. Hooper, S. Hreinsdóttir, and K. Michalczewska (2017, April), Induced surface deformation and seismicity during 2011-2012 at the Húsmúli reinjection site, Iceland, In EGU General Assembly Conference Abstracts (Vol. 19, p. 16854).
Jupe, A. J., A. S. P. Green, and T. Wallroth (1992), Induced microseismicity and reservoir growth at the Fjällbacka hot dry rocks project, Sweden, International journal of rock mechanics and mining sciences & geomechanics abstracts, 29, 343-354.
Justinic, A. H., B. Stump, C. Hayward, and C. Frohlich (2013), Analysis of the Cleburne, Texas, earthquake sequence from June 2009 to June 2010, Bulletin of the Seismological Society of America, 103, 3083-3093.
Kaieda, H., H. Ito, K. Kiho, K. Suzuki, H. Suenaga, and K. Shin (2005), Review of the Ogachi HDR project in Japan, paper presented at World Geothermal Congress.
Kaieda, H., S. Sasaki, and D. Wyborn (2010), Comparison of characteristics of micro-earthquakes observed during hydraulic stimulation operations in Ogachi, Hijiori and Cooper Basin HDR projects, paper presented at World Geothermal Congress.
Kalkan, E. (2016), An automatic P‐phase arrival‐time picker, Bulletin of the Seismological Society of America.
Kalkan, E., C. Gurbuz, and E. Zor (2014), The usage of correlation method for micro-earthquake analysis at Salavatli geothermal area, Aydin, Turkey, paper presented at AGU Fall Meeting Abstracts.
Kaneko, K., K. Sugawara, and Y. Obara (1989), Microseismic monitoring for coal burst prediction in the Miike coal mine, Gerlands Beitrage zur Geophysik, 98, 447-460.
Kangi, A., and N. Heidari (2008), Reservoir-induced seismicity in Karun III dam (southwestern Iran), Journal of Seismology, 12, 519-527.
Kao, H., A. M. Farahbod, J. F. Cassidy, M. Lamontagne, D. Snyder, and D. Lavoie (2015), Natural resources Canada’s induced seismicity research, in Schatzalp Induced Seismicity Workshop, 10-13 March 2015, Davos, Switzerland.
Kaven, J. O., S. H. Hickman, A. F. McGarr, and W. L. Ellsworth (2015), Surface monitoring of microseismicity at the Decatur, Illinois, CO2 sequestration demonstration site, Seismological Research Letters, 86, 1096-1101.
Keck, R. G., and R. J. Withers (1994), A field demonstration of hydraulic fracturing for solids waste injection with real-time passive seismic monitoring, paper presented at SPE Annual Technical Conference and Exhibition, Society of Petroleum Engineers.
Keiding, M., T. Árnadóttir, S. Jonsson, J. Decriem, and A. Hooper (2010), Plate boundary deformation and man-made subsidence around geothermal fields on the Reykjanes Peninsula, Iceland, Journal of Volcanology and Geothermal Research, 194, 139-149.
Keranen, K. M., C. Hogan, H. M. Savage, G. A. Abers, and N. van der Elst (2013a), Variable seismic response to fluid injection in central Oklahoma, paper presented at AGU Fall Meeting Abstracts.
Keranen, K. M., H. M. Savage, G. A. Abers, and E. S. Cochran (2013b), Potentially induced earthquakes in Oklahoma, USA: Links between wastewater injection and the 2011 Mw 5.7 earthquake sequence, Geology, 41, 699-702.
Keranen, K. M., M. Weingarten, G. A. Abers, B. A. Bekins, and S. Ge (2014), Sharp increase in central Oklahoma seismicity since 2008 induced by massive wastewater injection, Science, 345, 448-451.
Kerr, R. A. (2009), After the quake, in search of the science–or even a good prediction, Science, 324, 322-322.
Kerr, R. A., and R. Stone (2009), A human trigger for the great quake of Sichuan?, Science, 323, 322-322.
Kertapati, E. K. (1987), Saguling-Cirata water reservoirs along Citarum river west Java, Indonesia as reservoir induced seismicity, YY1-YY9.
Kim, W. Y. (2013), Induced seismicity associated with fluid injection into a deep well in Youngstown, Ohio, Journal of Geophysical Research: Solid Earth, 118, 3506-3518.
Kim, W. Y., M. Gold, C. Schamberger, J. Jones, and H. Delano (2009), The 2008-2009 earthquake swarm near Dillsburg, Pennsylvania.
Kim, M., B. Yoon, C. Lee, K. G. Park, W. -S. Yoon, Y. Song, and T. J. Lee (2017), Microseismic monitoring during Hydraulic stimulation in Pohang (Korea) for EGS pilot project, paper presented at AGU Fall Meeting Abstracts.
King, G. C. P., R. S. Stein, and J. Lin (1994), Static stress changes and the triggering of earthquakes, Bulletin of the Seismological Society of America, 84, 935-953.
King, G. E. (2012), Hydraulic fracturing 101: What every representative, environmentalist, regulator, reporter, investor, university researcher, neighbor and engineer should know about estimating frac risk and improving frac performance in unconventional gas and oil wells, paper presented at SPE Hydraulic Fracturing Technology Conference, Society of Petroleum Engineers.
Kinscher, J., P. Bernard, I. Contrucci, A. Mangeney, J. P. Piguet, and P. Bigarre (2015), Location of microseismic swarms induced by salt solution mining, Geophysical Journal International, 200, 337-362.
Király, E., V. Gischig, D. Karvounis, and S. Wiemer (2014), Validating models to forecasting induced seismicity related to deep geothermal energy projects, paper presented at Proceedings, 39th Workshop on Geothermal Reservoir Engineering.
Kitano, K., Y. Hori, and H. Kaieda (2000), Outline of the Ogachi HDR project and character of the reservoirs, paper presented at World Geothermal Congress, Kyushu-Tohoku, Japan, May 28-June 10
Klose, C. D. (2007a), Coastal land loss and gain as potential earthquake trigger mechanism in SCRs, paper presented at AGU Fall Meeting Abstracts.
Klose, C. D. (2007b), Geomechanical modeling of the nucleation process of Australia’s 1989 M5.6 Newcastle earthquake, Earth and Planetary Science Letters, 256, 547-553.
Klose, C. D. (2007c), Mine water discharge and flooding: A cause of severe earthquakes, Mine Water and the Environment, 26, 172-180.
Klose, C. D. (2010), Human-triggered earthquakes and their impacts on human security, Achieving Environmental Security: Ecosystem Services and Human Welfare, 13-19.
Klose, C. D. (2012), Evidence for anthropogenic surface loading as trigger mechanism of the 2008 Wenchuan earthquake, Environmental Earth Sciences, 66, 1439-1447.
Klose, C. D. (2013), Mechanical and statistical evidence of the causality of human-made mass shifts on the Earth’s upper crust and the occurrence of earthquakes, Journal of Seismology, 17, 109-135.
Klose, C. D., and L. Seeber (2007), Shallow seismicity in stable continental regions, Seismological Research Letters, 78, 554-562.
Knoll, P., G. Kowalle, K. Rother, B. Schreiber, and I. Paskaleva (1996), Analysis of microtremors within the Provadia region near a salt leaching mine, in Induced seismic events, pp. 389-407, Springer.
Kouznetsov, O., V. Sidorov, S. Katz, and G. Chilingarian (1995), Interrelationships among seismic and short-term tectonic activity, oil and gas production, and gas migration to the surface, Journal of Petroleum Science and Engineering, 13, 57-63.
Kovach, R. L. (1974), Source mechanisms for Wilmington oil field, California, subsidence earthquakes, Bulletin of the Seismological Society of America, 64, 699-711.
Kraaijpoel, D., D. Nieuwland, B. Wassing, and B. Dost (2012), Induced seismicity at an underground gas storage facility in the Netherlands, paper presented at EGU General Assembly Conference Abstracts.
Kreitler, C. W. (1976), Faulting and land subsidence from ground-water and hydrocarbon production, Houston-Galveston, Texas, paper presented at Proceedings of the Anaheim Symposium.
Kremenetskaya, E. O., and V. M. Trjapitsin (1995), Induced seismicity in the Khibiny Massif (Kola Peninsula), in Induced seismicity, pp. 29-37, Springer.
Kundu, B., N. K. Vissa, and V. K. Gahalaut (2015), Influence of anthropogenic groundwater unloading in Indo‐Gangetic Plains on the 25 April 2015 Mw 7.8 Gorkha, Nepal earthquake, Geophysical Research Letters, 42.
Kwee, J. (2012), Micro-seismicity in the Bergermeer gas storage field, University of Utrecht, The Netherlands.
Kwiatek, G., M. Bohnhoff, G. Dresen, A. Schulze, T. Schulte, G. Zimmermann, and E. Huenges (2010), Microseismicity induced during fluid-injection: A case study from the geothermal site at Groß Schönebeck, North German Basin, Acta Geophysica, 58, 995-1020.
Lamontagne, M., Y. Hammamji, and V. Peci (2008), Reservoir-triggered seismicity at the Toulnustouc hydroelectric project, Quebec north shore, Canada, Bulletin of the Seismological Society of America, 98, 2543-2552.
Leblanc, G., and F. Anglin (1978), Induced seismicity at the Manic 3 reservoir, Quebec, Bulletin of the Seismological Society of America, 68, 1469-1485.
Lee, M. F., P. Mikula, and E. Kinnersly (2006), In situ rock stress measurements and stress change monitoring at Mt Charlotte gold mine, western Australia, paper presented at In-Situ Rock Stress: International Symposium on In-Situ Rock Stress, Trondheim, Norway, 19-21 June 2006, CRC Press.
Lehner, B., C. R. Liermann, C. Revenga, C. Vörösmarty, B. Fekete, P. Crouzet, P. Döll, M. Endejan, K. Frenken, and J. Magome (2011), High-resolution mapping of the world’s reservoirs and dams for sustainable river-flow management, Frontiers in Ecology and the Environment, 9, 494-502.
Lei, X., D. Huang, J. Su, G. Jiang, X. Wang, H. Wang, X. Guo, and H. Fu (2017), Fault reactivation and earthquakes with magnitudes of up to Mw4.7 induced by shale-gas hydraulic fracturing in Sichuan Basin, China, Scientific reports, 7, 7971.
Lei, X., S. Ma, W. Chen, C. Pang, J. Zeng, and B. Jiang (2013), A detailed view of the injection‐induced seismicity in a natural gas reservoir in Zigong, southwestern Sichuan Basin, China, Journal of Geophysical Research: Solid Earth, 118, 4296-4311.
Lei, X., G. Yu, S. Ma, X. Wen, and Q. Wang (2008), Earthquakes induced by water injection at ∼3 km depth within the Rongchang gas field, Chongqing, China, Journal of Geophysical Research: Solid Earth, 113.
Li, T., M. F. Cai, and M. Cai (2007), A review of mining-induced seismicity in China, International Journal of Rock Mechanics and Mining Sciences, 44, 1149-1171.
Lin, C. H. (2005), Seismicity increase after the construction of the world’s tallest building: An active blind fault beneath the Taipei 101, Geophysical Research Letters, 32.
Lizurek, G., Ł. Rudziński, and B. Plesiewicz (2015), Mining induced seismic event on an inactive fault, Acta Geophysica, 63, 176-200.
Llenos, A. L., and A. J. Michael (2013), Modeling earthquake rate changes in Oklahoma and Arkansas: Possible signatures of induced seismicity, Bulletin of the Seismological Society of America, 103, 2850-2861.
Lockridge, J. S., M. J. Fouch, and J. R. Arrowsmith (2012), Seismicity within Arizona during the deployment of the Earthscope USarray transportable array, Bulletin of the Seismological Society of America, 102, 1850-1863.
Long, L. T., and C. W. Copeland (1989), The Alabama, USA, seismic event and strata collapse of May 7, 1986, Pure and applied geophysics, 129, 415-421.
Lorenz, J. C. (2001), The stimulation of hydrocarbon reservoirs with subsurface nuclear explosions, Oil-Industry History, 2, 56-63.
Lovchikov, A. V. (2013), Review of the strongest rockbursts and mining-induced earthquakes in Russia, Journal of Mining Science, 49, 572-575.
Ma, T. H., C. A. Tang, L. X. Tang, W. D. Zhang, and L. Wang (2015), Rockburst characteristics and microseismic monitoring of deep-buried tunnels for Jinping II hydropower station, Tunnelling and Underground Space Technology, 49, 345-368.
Ma, W. (2012), Analysis on the disaster mechanism of rock collapse of M4.4 reservoir-induced earthquake on January 17, 2010, at Dongjing reservoir in Guizhou Province, China, Natural hazards, 62, 141-148.
Maggi, A., J. A. Jackson, D. Mckenzie, and K. Priestley (2000), Earthquake focal depths, effective elastic thickness, and the strength of the continental lithosphere, Geology, 28, 495-498.
Maghsoudi, S., D. W. Eaton, and J. Davidsen (2016), Nontrivial clustering of microseismicity induced by hydraulic fracturing, Geophysical Research Letters, 43, 10672-10679.
Mahani, A. B., R. Schultz, H. Kao, D. Walker, J. Johnson, and C. Salas (2017), Fluid Injection and Seismic Activity in the Northern Montney Play, British Columbia, Canada, with Special Reference to the 17 August 2015 Mw 4.6 Induced Earthquake, Bulletin of the Seismological Society of America, 107, 542-552.
Mahdi, S. K. (1988), Tarbela reservoir a question of induced seismicity, in International Conference on Case Histories in Geotechnical Engineering.
Majer, E. L. (2011), Workshop on induced seismicity due to fluid injection/production from energy-related applications, Lawrence Berkeley National Laboratory.
Majer, E. L., R. Baria, M. Stark, S. Oates, J. Bommer, B. Smith, and H. Asanuma (2007), Induced seismicity associated with enhanced geothermal systems, Geothermics, 36, 185-222.
Majer, E. L., and J. E. Peterson (2008), The impact of injection on seismicity at The Geysers, California geothermal field, International Journal of Rock Mechanics and Mining Sciences, 44, 1079-1090.
Malovichko, D., R. Dyagilev, D. Y. Shulakov, P. Butyrin, and S. V. Glebov (2009), Seismic monitoring of large-scale karst processes in a potash mine, Controlling seismic hazard and sustainable development of deep mines, 2, 989-1002.
Manga, M., C. –Y. Wang, and M. Shirzaei (2016), Increased stream discharge after the 3 September 2016 MW 5.8 Pawnee, Oklahoma earthquake, Geophysical Research Letters, 43, 11588-11594.
Marcak, H., and Mutke, G. (2013), Seismic activation of tectonic stresses by mining, Journal of Seismology, 17(4), 1139-1148.
Matcharashvili, T., T. Chelidze, and J. Peinke (2008), Increase of order in seismic processes around large reservoir induced by water level periodic variation, Nonlinear Dynamics, 51(3), 399-407.
Matcharashvili, T., T. Chelidze, N. Zhukova, and Z. Tsveradze (2016), Application of the dynamic data analysis in the real time monitoring of high dam body behaviour, Chaotic Modeling and Simulation (CMSIM), 3, 309-316.
Matos, D. R., M. G. Vol Huelsen, A. A. Braga, C. Chimpliganond, G. S. Franca, L. V. Barros, and J. O. de Araújo (2010), Geophysical integration and triggered seismicity at the Irapé Reservoir, Minas Gerais State, Brazil, In 2010 AGU Joint Assembly.
Matrullo, E., I. Contrucci, P. Dominique, M. Bennani, H. Aochi, J. Kinsher, P. Bernard, and P. Bigarré (2015), Analysis and interpretation of induced micro-seismicity by flooding of the Gardanne Coal Basin (Provence–southern France), paper presented at 77th EAGE Conference and Exhibition-Workshops.
Maurer, V., N. Cuenot, E. Gaucher, M. Grunberg, J. Vergne, H. Wodling, M. Lehujeur, and J. Schmittbuhl (2015), Seismic monitoring of the Rittershoffen EGS project (Alsace, France), paper presented at World Geothermal Congress.
Maxwell, S. C., D. Cho, T. L. Pope, M. Jones, C. L. Cipolla, M. G. Mack, F. Henery, M. Norton, and J. A. Leonard (2011), Enhanced reservoir characterization using hydraulic fracture microseismicity, paper presented at SPE Hydraulic Fracturing Technology Conference, Society of Petroleum Engineers.
Maxwell, S. C., and H. Fabriol (2004), Passive seismic imaging of CO2 sequestration at Weyburn.
Maxwell, S. C., U. Zimmer, R. W. Gusek, and D. J. Quirk (2009), Evidence of a horizontal hydraulic fracture from stress rotations across a thrust fault, SPE Production & Operations, 24, 312-319.
Mazzoldi, A., A. Borgia, M. Ripepe, E. Marchetti, G. Ulivieri, M. della Schiava, and C. Allocca (2015), Faults strengthening and seismicity induced by geothermal exploitation on a spreading volcano, Mt. Amiata, Italia, Journal of Volcanology and Geothermal Research, 301, 159-168.
McClure, M. W., and R. N. Horne (2014), Correlations between formation properties and induced seismicity during high pressure injection into granitic rock, Engineering Geology, 175, 74-80.
McGarr, A. (1991), On a possible connection between three major earthquakes in California and oil production, Bulletin of the Seismological Society of America, 81, 948-970.
McGarr, A. (2014), Maximum magnitude earthquakes induced by fluid injection, Journal of Geophysical Research: Solid Earth, 119, 1008-1019.
McGarr, A., and A. J. Barbour (2017), Wastewater disposal and the earthquake sequences during 2016 near Fairview, Pawnee, and Cushing, Oklahoma, Geophysical Research Letters, 44, 9330-9336.
McGarr, A., B. Bekins, N. Burkardt, J. Dewey, P. Earle, W. Ellsworth, S. Ge, S. Hickman, A. Holland, and E. Majer (2015), Coping with earthquakes induced by fluid injection, Science, 347, 830-831.
McGarr, A., and D. Simpson (1997), A broad look at induced and triggered seismicity, Rockbursts and Seismicity in Mines, 385-396.
McGarr, A., D. Simpson, and L. Seeber (2002), Case histories of induced and triggered seismicity, in International geophysics series, international handbook of earthquake and engineering seismology, pp. 647-664.
McKavanagh, B., B. Boreham, K. McCue, G. Gibson, J. Hafner, and G. Klenowski (1995), The CQU regional seismic network and applications to underground mining in Central Queensland, Australia, Pure and applied geophysics, 145, 39-57.
McKeown, F. A. (1975), Relation of geological structure to seismicity at Pahute Mesa, Nevada test site, Bulletin of the Seismological Society of America, 65, 747-764.
McKeown, F. A., and D. D. Dickey (1969), Fault displacements and motion related to nuclear explosions, Bulletin of the Seismological Society of America, 59, 2253-2269.
McNamara, D. E., H. M. Benz, R. B. Herrmann, E. A. Bergman, P. Earle, A. Holland, R. Baldwin, and A. Gassner (2015a), Earthquake hypocenters and focal mechanisms in central Oklahoma reveal a complex system of reactivated subsurface strike‐slip faulting, Geophysical Research Letters, 42, 2742-2749.
McNamara, D. E., G. P. Hayes, H. M. Benz, R. A. Williams, N. D. McMahon, R. C. Aster, A. Holland, T. Sickbert, R. Herrmann, and R. Briggs (2015b), Reactivated faulting near Cushing, Oklahoma: Increased potential for a triggered earthquake in an area of United States strategic infrastructure, Geophysical Research Letters, 42, 8328-8332.
Mercerat, E. D., L. Driad-Lebeau, and P. Bernard (2010), Induced seismicity monitoring of an underground salt cavern prone to collapse, Pure and applied geophysics, 167, 5-25.
Mereu, R. F., J. Brunet, K. Morrissey, B. Price, and A. Yapp (1986), A study of the microearthquakes of the Gobles oil field area of southwestern Ontario, Bulletin of the Seismological Society of America, 76, 1215-1223.
Milev, A. M., and S. M. Spottiswoode (2002), Effect of the rock properties on mining-induced seismicity around the Ventersdorp Contact Reef, Witwatersrand Basin, South Africa, in The mechanism of induced seismicity, pp. 165-177, Springer.
Milne, W. G., and M. J. Berry (1976), Induced seismicity in Canada, Engineering Geology, 10, 219-226.
Mirzoev, K. M., A. V. Nikolaev, A. A. Lukk, and S. L. Yunga (2009), Induced seismicity and the possibilities of controlled relaxation of tectonic stresses in the Earth’s crust, Izvestiya, Physics of the Solid Earth, 45, 885-904.
Moeck, I., T. Bloch, R. Graf, S. Heuberger, P. Kuhn, H. Naef, M. Sonderegger, S. Uhlig, and M. Wolfgramm (2015), The St. Gallen project: Development of fault controlled geothermal systems in urban areas, paper presented at World Geothermal Congress.
Mogren, S., and M. Mukhopadhyay (2013), Study of seismogenic crust in the eastern province of Saudi Arabia and its relation to the seismicity of the Ghawar fields, paper presented at AGU Fall Meeting Abstracts.
Morrison, D. M. (1989), Rockburst research at Falconbridge’s Strathcona mine, Sudbury, Canada, Pure and applied geophysics, 129, 619-645.
Mossop, A., and P. Segall (1999), Volume strain within The Geysers geothermal field, Journal of Geophysical Research: Solid Earth, 104, 29113-29131.
Mulargia, F., and A. Bizzarri (2014), Anthropogenic triggering of large earthquakes, Scientific Reports, 4.
Mulyadi (2010), Case study: Hydraulic fracturing experiment in the Wayang Windu geothermal field, paper presented at World Geothermal Congress, Bali, Indonesia, 25-29 April 2010.
Murria, J. (1997). Earthquake geotechnical engineering aspects of the protection dikes of the Costa Oriental of Lake Maracaibo, Venezuela, Venezuelan Foundation for Seismological Research, Caracas, Venezuela.
National Research Council (NRC) (2013), Induced seismicity potential in energy technologies, National Academies Press, Committee on Induced Seismicity Potential in Energy Technologies.
Neuhaus, C. W., and J. L. Miskimins (2012), Analysis of surface and downhole microseismic monitoring coupled with hydraulic fracture modeling in the Woodford Shale, paper presented at SPE Europec/EAGE Annual Conference, Society of Petroleum Engineers.
Nicholson, C., E. Roeloffs, and R. L. Wesson (1988), The northeastern Ohio earthquake of 31 January 1986: Was it induced?, Bulletin of the Seismological Society of America, 78, 188-217.
Nicholson, C. J. (1992), Earthquakes associated with deep well activities-comments and case histories, paper presented at The 33th US Symposium on Rock Mechanics (USRMS), American Rock Mechanics Association.
Nicholson, C. J., and R. L. Wesson (1992), Triggered earthquakes and deep well activities, Pure and applied geophysics, 139, 561-578.
Nicol, A., R. Carne, M. Gerstenberger, and A. Christophersen (2011), Induced seismicity and its implications for CO2 storage risk, Energy Procedia, 4, 3699-3706.
Nuannin, P., O. Kulhanek, L. Persson, and T. Askemur (2005), Inverse correlation between induced seismicity and b-value, observed in the Zingruvan mine, Sweden, Acta Geodynamica et Geomaterialia, 2, 5.
Ohtake, M. (1974), Seismic activity induced by water injection at Matsushiro, Japan, Journal of Physics of the Earth, 22, 163-176.
Orlic, B., B. B. T. Wassing, and C. R. Geel (2013), Field scale geomechanical modeling for prediction of fault stability during underground gas storage operations in a depleted gas field in the Netherlands, paper presented at 47th US Rock Mechanics/Geomechanics Symposium, American Rock Mechanics Association.
Orzol, J., R. Jung, R. Jatho, T. Tischner, and P. Kehrer (2005), The Genesys-Project: Extraction of geothermal heat from tight sediments, paper presented at World Geothermal Congress.
Ottemöller, L., H. H. Nielsen, K. Atakan, J. Braunmiller, and J. Havskov (2005), The 7 May 2001 induced seismic event in the Ekofisk oil field, North Sea, Journal of Geophysical Research: Solid Earth, 110.
Oye, V., E. Aker, T. M. Daley, D. Kühn, B. Bohloli, and V. Korneev (2013), Microseismic monitoring and interpretation of injection data from the In Salah CO2 storage site (Krechba), Algeria, Energy Procedia, 37, 4191-4198.
Oye, V., and M. Roth (2005), Source parameters of microearthquakes from the 1.5 km deep Pyhäsalmi ore mine, Finland, paper presented at Proceedings, Thirtieth Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, January.
Park, S., L. Xie, K. –I. Kim, S. Kwon, K. –B. Min, J. Choi, W. –S. Yoon, and Y. Song (2017), First Hydraulic Stimulation in Fractured Geothermal Reservoir in Pohang PX-2 Well, Procedia Engineering, 191, 829-837.
Paskaleva, I., A. G. Aronov, R. R. Seroglazov, and T. I. Aronova (2006), Characteristic features of induced seismic processes in mining regions exemplified by the potassium salt deposits in Belarus and Bulgaria, Acta Geodaetica et Geophysica Hungarica, 41, 293-303.
Pavlou, K., G. Drakatos, V. Kouskouna, K. Makropoulos, and H. Kranis (2016), Seismicity study in Pournari reservoir area (w. Greece) 1981–2010, Journal of Seismology, 20, 701-710.
Pavlou, K., G. Kaviris, K. Chousianitis, G. Drakatos, V. Kouskouna, and K. Makropoulos (2013), Seismic hazard assessment in Polyphyto dam area (nw Greece) and its relation with the “unexpected” earthquake of 13 May 1995 (Ms= 6.5, nw Greece), Nat. Hazards Earth Sys. Sci, 13, 141-149.
Pavlovski, O. A. (1998), Radiological consequences of nuclear testing for the population of the former USSR (input information, models, dose, and risk estimates), in Atmospheric nuclear tests, pp. 219-260, Springer.
Pechmann, J. C., W. J. Arabasz, K. L. Pankow, R. Burlacu, and M. K. McCarter (2008), Seismological report on the 6 August 2007 Crandall Canyon mine collapse in Utah, Seismological Research Letters, 79, 620-636.
Peinke, J., T. Matcharashvili, T. Chelidze, J. Gogiashvili, A. Nawroth, O. Lursmanashvili, and Z. Javakhishvili (2006), Influence of periodic variations in water level on regional seismic activity around a large reservoir: field data and laboratory model, Physics of the Earth and Planetary Interiors, 156(1), 130-142.
Pennington, W. D., S. D. Davis, S. M. Carlson, J. DuPree, and T. E. Ewing (1986), The evolution of seismic barriers and asperities caused by the depressuring of fault planes in oil and gas fields of south Texas, Bulletin of the Seismological Society of America, 76, 939-948.
Petersen, M. D., C. S. Mueller, M. P. Moschetti, S. M. Hoover, A. L. Llenos, W. L. Ellsworth, A. J. Michael, J. L. Rubinstein, A. F. McGarr, and K. S. Rukstales (2016), One-year seismic hazard forecast for the central and eastern United States from induced and natural earthquakes, US Geological Survey.
Petersen, M. D., C. S. Mueller, M. P. Moschetti, S. M. Hoover, J. L. Rubinstein, A. L. Llenos, A. J. Michael, W. L. Ellsworth, A. McGarr, and A. A. Holland (2015), Incorporating induced seismicity in the 2014 United States national seismic hazard model: Results of 2014 workshop and sensitivity studies, US Department of the Interior, US Geological Survey.
Phillips, W. S., T. D. Fairbanks, J. T. Rutledge, and D. W. Anderson (1998), Induced microearthquake patterns and oil-producing fracture systems in the Austin Chalk, Tectonophysics, 289, 153-169.
Phillips, W. S., J. T. Rutledge, L. S. House, and M. C. Fehler (2002), Induced microearthquake patterns in hydrocarbon and geothermal reservoirs: Six case studies, in The mechanism of induced seismicity, pp. 345-369, Springer.
Piccinelli, F. G., M. Mucciarelli, P. Federici, and D. Albarello (1995), The microseismic network of the Ridracoli dam, north Italy: Data and interpretations, Pure and applied geophysics, 145, 97-108.
Plotnikova, L. M., B. S. Nurtaev, J. R. Grasso, L. M. Matasova, and R. Bossu (1996), The character and extent of seismic deformation in the focal zone of Gazli earthquakes of 1976 and 1984, M> 7.0, in Induced seismic events, pp. 377-387, Springer.
Pomeroy, P. W., D. W. Simpson, and M. L. Sbar (1976), Earthquakes triggered by surface quarrying-the Wappingers falls, New York sequence of June, 1974, Bulletin of the Seismological Society of America, 66, 685-700.
Pramono, B., and D. Colombo (2005), Microearthquake characteristics in Darajat geothermal field, Indonesia, paper presented at World Geothermal Congress 2005, Antalya, Turkey, 24–29 April, 2005.
Prioul, R., F. H. Cornet, C. Dorbath, I. Dorbath, M. Ogena, and E. Ramos (2000), An induced seismicity experiment across a creeping segment of the Philippine fault, Journal of geophysical research, 105, 13,595-513,612.
Rajendran, K. (1995), Sensitivity of a seismically active reservoir to low-amplitude fluctuations: Observations from Lake Jocassee, South Carolina, Pure and applied geophysics, 145, 87-95.
Raleigh, C. B., J. H. Healy, and J. D. Bredehoeft (1976), An experiment in earthquake control at Rangely, Colorado, Science, 191, 1230-1237.
Rastogi, B. K., C. V. R. K. Rao, R. K. Chadha, and H. K. Gupta (1986), Microearthquakes near Osmansagar reservoir, Hyderabad, India, Physics of the earth and planetary interiors, 44, 134-141.
Redmayne, D. W. (1988), Mining induced seismicity in UK coalfields identified on the BGS national seismograph network, Geological Society, London, Engineering Geology Special Publications, 5, 405-413.
Reyners, M. (1988), Reservoir-induced seismicity at Lake Pukaki, New Zealand, Geophysical Journal International, 93, 127-135.
Ringdal, F., P. D. Marshall, and R. W. Alewine (1992), Seismic yield determination of Soviet underground nuclear explosions at the Shagan River test site, Geophysical Journal International, 109, 65-77.
Rojas, E., P. Cavieres, R. Dunlop, and S. Gaete (2000), Control of induced seismicity at El Teniente mine Codelco-Chile, Proceeding, Massmin 2000, 777-781.
Ross, A., G. R. Foulger, and B. R. Julian (1999), Source processes of industrially-induced earthquakes at The Geysers geothermal area, California, Geophysics, 64, 1877-1889.
Rubinstein, J. L., W. L. Ellsworth, and A. McGarr (2012), The 2001-present triggered seismicity sequence in the Raton Basin of southern Colorado/northern New Mexico, paper presented at AGU Fall Meeting Abstracts.
Rubinstein, J. L., W. L. Ellsworth, A. McGarr, and H. M. Benz (2014), The 2001–present induced earthquake sequence in the Raton Basin of northern New Mexico and southern Colorado, Bulletin of the Seismological Society of America.
Rubinstein, J. L., and A. B. Mahani (2015), Myths and facts on wastewater injection, hydraulic fracturing, enhanced oil recovery, and induced seismicity, Seismological Research Letters, 86, 1060-1067.
Rudziński, Ł., Cesca, S., and Lizurek, G. (2016), Complex rupture process of the 19 March 2013, Rudna Mine (Poland) induced seismic event and collapse in the light of local and regional moment tensor inversion, Seismological Research Letters, 87(2A), 274-284.
Rutledge, J. T., W. S. Phillips, and B. K. Schuessler (1998), Reservoir characterization using oil-production-induced microseismicity, Clinton County, Kentucky, Tectonophysics, 289, 129-152.
Sanford, A. R., T. M. Mayeau, J. W. Schlue, R. C. Aster, and L. H. Jaksha (2006), Earthquake catalogs for New Mexico and bordering areas II: 1999–2004, New Mexico Geology, 28.
Sargsyan, L. S. (2009), Reservoir-triggered seismicity in Armenian large dams, Journal of Seismology and Earthquake Engineering, 11, 153.
Sasaki, S. (1998), Characteristics of microseismic events induced during hydraulic fracturing experiments at the Hijiori hot dry rock geothermal energy site, Yamagata, Japan, Tectonophysics, 289, 171-188.
Sato, K., and Y. Fujii (1988), Induced seismicity associated with longwall coal mining, paper presented at International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, Elsevier.
Sato, K., and Y. Fujii (1989), Source mechanism of a large scale gas outburst at Sunagawa coal mine in Japan, Pure and applied geophysics, 129, 325-343.
Sato, K., T. Isobe, N. Mori, and T. Goto (1986), 9. Microseismic activity associated with hydraulic mining, paper presented at International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, Elsevier.
Scales, M. M., H. R. DeShon, M. B. Magnani, J. I. Walter, L. Quinones, T. L. Pratt, and M. J. Hornbach (2017), A Decade of Induced Slip on the Causative Fault of the 2015 Mw 4.0 Venus Earthquake, Northeast Johnson County, Texas, Journal of Geophysical Research: Solid Earth, 122, 7879-7894.
Schultz, R., V. Stern, and Y. J. Gu (2014), An investigation of seismicity clustered near the Cordel field, west central Alberta, and its relation to a nearby disposal well, Journal of Geophysical Research: Solid Earth, 119, 3410-3423, doi:10.1002/2013JB010836.
Schultz, R., S. Mei, D. Pană, V. Stern, Y. J. Gu, A. Kim, and D. Eaton (2015a), The Cardston earthquake swarm and hydraulic fracturing of the Exshaw Formation (Alberta Bakken Play), Bulletin of the Seismological Society of America.
Schultz, R., V. Stern, M. Novakovic, G. Atkinson, and Y. J. Gu (2015b), Hydraulic fracturing and the Crooked Lake sequences: Insights gleaned from regional seismic networks, Geophysical Research Letters, 42, 2750-2758.
Schultz, R., R. Wang, Y. J. Gu, K. Haug, & G. Atkinson (2017), A seismological overview of the induced earthquakes in the Duvernay play near Fox Creek, Alberta, Journal of Geophysical Research: Solid Earth, 122(1), 492-505.
Seeber, L., J. G. Armbruster, and W.-Y. Kim (2004), A fluid-injection-triggered earthquake sequence in Ashtabula, Ohio: Implications for seismogenesis in stable continental regions, Bulletin of the Seismological Society of America, 94, 76-87.
Seeber, L., J. G. Armbruster, W. Y. Kim, N. Barstow, and C. Scharnberger (1998), The 1994 Cacoosing Valley earthquakes near Reading, Pennsylvania: A shallow rupture triggered by quarry unloading, Journal of Geophysical Research: Solid Earth, 103, 24505-24521.
Segall, P. (1985), Stress and subsidence resulting from subsurface fluid withdrawal in the epicentral region of the 1983 Coalinga earthquake, Journal of Geophysical Research: Solid Earth, 90, 6801-6816.
Segall, P. (1989), Earthquakes triggered by fluid extraction, Geology, 17, 942-946.
Segall, P., J. R. Grasso, and A. Mossop (1994), Poroelastic stressing and induced seismicity near the Lacq gas field, southwestern France, Journal of Geophysical Research: Solid Earth, 99(B8), 15423-15438.
Semmane, F., I. Abacha, A. K. Yelles-Chaouche, A. Haned, H. Beldjoudi, and A. Amrani (2012), The earthquake swarm of December 2007 in the Mila region of northeastern Algeria, Natural hazards, 64, 1855-1871.
Shapiro, S. A., C. Dinske, C. Langenbruch, and F. Wenzel (2010), Seismogenic index and magnitude probability of earthquakes induced during reservoir fluid stimulations, The Leading Edge, 29, 304-309.
Shapiro, S. A., J. Kummerow, C. Dinske, G. Asch, E. Rothert, J. Erzinger, H. J. Kümpel, and R. Kind (2006), Fluid induced seismicity guided by a continental fault: Injection experiment of 2004/2005 at the German deep drilling site (KTB), Geophysical Research Letters, 33.
Sherburn, S., S. Bourguignon, S. Bannister, S. Sewell, B. Cumming, C. Bardsley, J. Quinao, and I. Wallis (2013), Microseismicity at Rotokawa geothermal field, 2008 to 2012, paper presented at Proceedings of the 35th New Zealand geothermal workshop. Rotorua, New Zealand.
Sherburn, S., C. Bromley, S. Bannister, S. Sewell, and S. Bourguignon (2015), New Zealand geothermal induced seismicity: An overview.
Shirley, J. E. (1980), Tasmanian seismicity—natural and reservoir-induced, Bulletin of the Seismological Society of America, 70, 2203-2220.
Shivakumar, K., M. V. M. S. Rao, C. Srinivasan, and K. Kusunose (1996), Multifractal analysis of the spatial distribution of area rockbursts at Kolar gold mines, paper presented at International journal of rock mechanics and mining sciences & geomechanics abstracts, Elsevier.
Silitonga, T. H., E. E. Siahaan, and Suroso (2005), A Poisson’s ratio distribution from Wadati diagram as indicator of fracturing of Lahendong geothermal field, north Sulawesi, Indonesia, paper presented at World Geothermal Congress 2005, Antalya, Turkey, 24–29 April, 2005.
Simiyu, S. M., and G. R. Keller (2000), Seismic monitoring of the Olkaria geothermal area, Kenya Rift Valley, Journal of volcanology and geothermal research, 95, 197-208.
Simpson, D. W., and W. Leith (1985), The 1976 and 1984 Gazli, USSR, earthquakes—were they induced?, Bulletin of the Seismological Society of America, 75, 1465-1468.
Simpson, D. W., and S. K. Negmatullaev (1981), Induced seismicity at Nurek reservoir, Tadjikistan, USSR, Bulletin of the Seismological Society of America, 71, 1561-1586.
Skoumal, R. J., M. R. Brudzinski, and B. S. Currie (2015), Earthquakes induced by hydraulic fracturing in Poland Township, Ohio, Bulletin of the Seismological Society of America, 105, 189-197.
Son, M. (2015), Microevent detection based on waveform cross-correlation in the Dogye mining area, Korea, paper presented at 2015 AGU Fall Meeting.
Stein, S., M. Liu, T. Camelbeeck, M. Merino, A. Landgraf, E. Hintersberger, and S. Kuebler (2015), Challenges in assessing seismic hazard in intraplate Europe, Geological Society, London, Special Publications, 432, SP432. 437.
Stork, A. L., J. P. Verdon, and J.-M. Kendall (2015), The microseismic response at the In Salah carbon capture and storage (CCS) site, International Journal of Greenhouse Gas Control, 32, 159-171.
Styles, P., P. Gasparini, E. Huenges, P. Scandone, S. Lasocki, and F. Terlizzese (2014), Report on the hydrocarbon exploration and seismicity in Emilia region, 1-213.
Suckale, J. (2009), Induced seismicity in hydrocarbon fields, Advances in geophysics, 51, 55-106.
Sumy, D. F., E. S. Cochran, K. M. Keranen, M. Wei, and G. A. Abers (2014), Observations of static coulomb stress triggering of the November 2011 M5.7 Oklahoma earthquake sequence, Journal of Geophysical Research: Solid Earth, 119, 1904-1923.
Sun, X., and S. Hartzell (2014), Finite‐fault slip model of the 2011 Mw 5.6 Prague, Oklahoma earthquake from regional waveforms, Geophysical Research Letters, 41, 4207-4213.
Sun, X., P. Yang, and Z. Zhang (2017), A study of earthquakes induced by water injection in the Changning salt mine area, SW China, Journal of Asian Earth Sciences, 136, 102-109.
Swanson, P. L. (1992), Mining-induced seismicity in faulted geologic structures: An analysis of seismicity-induced slip potential, Pure and applied geophysics, 139, 657-676.
Sylvester, A. G., and J. Heinemann (1996), Preseismic tilt and triggered reverse faulting due to unloading in a diatomite quarry near Lompoc, California, Seismological Research Letters, 67, 11-18.
Sze, E. K.-M. (2005), Induced seismicity analysis for reservoir characterization at a petroleum field in Oman, Massachusetts Institute of Technology.
Tadokoro, K., M. Ando, and K. y. Nishigami (2000), Induced earthquakes accompanying the water injection experiment at the Nojima fault zone, Japan: Seismicity and its migration, Journal of Geophysical Research: Solid Earth, 105, 6089-6104.
Talwani, P. (1995), Speculation on the causes of continuing seismicity near Koyna reservoir, India, Pure and applied geophysics, 145, 167-174.
Tang, C., T. Ma, and X. Ding (2009), On stress-forecasting strategy of earthquakes from stress buildup, stress shadow and stress transfer (SSS) based on numerical approach, Earthquake Science, 22, 53-62.
Tang, C. A., J. Wang, and J. Zhang (2010), Preliminary engineering application of microseismic monitoring technique to rockburst prediction in tunneling of Jinping II project, Journal of Rock Mechanics and Geotechnical Engineering, 2, 193-208.
Tang, L., and L. Meng (2015), Injection-induced Seismicity in a Natural Gas Reservoir in HutubiSouthern Junggar Basin, Northwest China, In 2015 AGU Fall Meeting.
Taylor, O.-D. S., T. A. Lee III, and A. P. Lester (2015), Hazard and risk potential of unconventional hydrocarbon development-induced seismicity within the central United States, Natural Hazards Review, 16, 04015008.
Taylor, O.-D. S., A. P. Lester, and T. A. Lee III (2015), Unconventional hydrocarbon development hazards within the central United States. Report 1: Overview and potential risk to infrastructure, DTIC Document.
Telesca, L., T. Matcharasvili, T. Chelidze, and N. Zhukova (2012), Relationship between seismicity and water level in the Enguri high dam area (Georgia) using the singular spectrum analysis, Natural Hazards and Earth System Science, 12, 2479-2485.
Terakawa, T., S. A. Miller, and N. Deichmann (2012), High fluid pressure and triggered earthquakes in the enhanced geothermal system in Basel, Switzerland, Journal of Geophysical Research: Solid Earth, 117.
Terashima, T. (1981), Survey on induced seismicity at Mishraq area in Iraq, Journal of Physics of the Earth, 29, 371-375.
Teyssoneyre, V., B. Feignier, J. Šilény, and O. Coutant (2002), Moment tensor inversion of regional phases: Application to a mine collapse, in The mechanism of induced seismicity, pp. 111-130, Springer.
Tiira, T. (1996), Discrimination of nuclear explosions and earthquakes from teleseismic distances with a local network of short period seismic stations using artificial neural networks, Physics of the Earth and Planetary Interiors, 97, 247-268.
TNO (2014), Literature review on injection-related induced seismicity and its relevance to nitrogen injection.
Torcal, F., I. Serrano, J. Havskov, J. L. Utrillas, and J. Valero (2005), Induced seismicity around the Tous New dam (Spain), Geophysical Journal International, 160, 144-160.
Townend, J., and M. D. Zoback (2000), How faulting keeps the crust strong, Geology, 28, 399-402.
Trifu, C.-I., T. I. Urbancic, and R. P. Young (1995), Source parameters of mining-induced seismic events: An evaluation of homogeneous and inhomogeneous faulting models for assessing damage potential, Pure and applied geophysics, 145, 3-27.
Trippi, M. H., H. E. Belkin, S. Dai, S. J. Tewalt, and C.-J. Chou (2014), USGS compilation of geographic information system (GIS) data representing coal mines and coal-bearing areas in China, US Geological Survey.
Turbitt, T. (1988), Bulletin of British earthquakes. British Geological Survey technical report wl/88/11.
Turuntaev, S. B. (1994), Temporal and spatial structures of triggered seismicity in Romashkinskoye oil-field, paper presented at Rock Mechanics in Petroleum Engineering, Society of Petroleum Engineers.
Urban, E., and J. F. Lermo (2012), Relationship of local seismic activity, injection wells and active faults in the geothermal fields of Mexico, paper presented at Proceedings of Thirty-Seventh Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, CA, SGP-TR-194.
Urban, E., and J. F. Lermo (2013), Local seismicity in the exploitation of Los Humeros geothermal field, Mexico, paper presented at Proceedings of the Thirty-Eighth Workshop on Geothermal Reservoir Engineering.
Urbancic, T. I. J., V. J. Shumila, J. T. J. Rutledge, and R. J. J. Zinno (1999), Determining hydraulic fracture behavior using microseismicity, paper presented at Vail Rocks 1999, The 37th US Symposium on Rock Mechanics (USRMS), American Rock Mechanics Association.
Vallejos, J. A., and S. D. McKinnon (2011), Correlations between mining and seismicity for re-entry protocol development, International Journal of Rock Mechanics and Mining Sciences, 48, 616-625.
Valoroso, L., L. Improta, L. Chiaraluce, R. Di Stefano, L. Ferranti, A. Govoni, and C. Chiarabba (2009), Active faults and induced seismicity in the Val d’Agri area (southern Apennines, Italy), Geophysical Journal International, 178, 488-502.
van der Elst, N. J., H. M. Savage, K. M. Keranen, and G. A. Abers (2013), Enhanced remote earthquake triggering at fluid-injection sites in the midwestern United States, Science, 341, 164-167.
van der Voort, N., and F. Vanclay (2015), Social impacts of earthquakes caused by gas extraction in the province of Groningen, the Netherlands, Environmental Impact Assessment Review, 50, 1-15.
van Eck, T., F. Goutbeek, H. Haak, and B. Dost (2006), Seismic hazard due to small-magnitude, shallow-source, induced earthquakes in the Netherlands, Engineering Geology, 87, 105-121.
Van Eijs, R. M. H. E., F. M. M. Mulders, M. Nepveu, C. J. Kenter, and B. C. Scheffers (2006), Correlation between hydrocarbon reservoir properties and induced seismicity in the Netherlands, Engineering Geology, 84, 99-111.
Van Wees, J. D., L. Buijze, K. Van Thienen-Visser, M. Nepveu, B. B. T. Wassing, B. Orlic, and P. A. Fokker (2014), Geomechanics response and induced seismicity during gas field depletion in the Netherlands, Geothermics, 52, 206-219.
Verdon, J. P. (2014), Significance for secure CO2 storage of earthquakes induced by fluid injection, Environmental Research Letters, 9, 064022.
Verdon, J. P., J. –M. Kendall, A. C. Horleston, and A. L. Stork (2016), Subsurface fluid injection and induced seismicity in southeast Saskatchewan, International Journal of Greenhouse Gas Control, 54, 429-440.
Verdon, J. P., J. –M. Kendall, A. L. Stork, R. A. Chadwick, D. J. White, and R. C. Bissell (2013), Comparison of geomechanical deformation induced by megatonne-scale CO2 storage at Sleipner, Weyburn, and In Salah, Proceedings of the National Academy of Sciences, 110, E2762-E2771.
Vogler, D., R. Settgast, V. Gischig, M. Jalali, J. Doetsch, B. Valley, K. F. Evans, C. Sherman, M. O. Saar, and F. Amann (2017), Modeling the hydraulic fracture stimulation performed for reservoir permeability enhancement at the Grimsel Test Site, Switzerland, In Proceedings of the 42nd Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, February 13-15.
Voosen, P. (2017), Deep in a mine, earthquake gold awaits, Science, 356(6341), 891-892.
Walsh, F. R., and M. D. Zoback (2015), Oklahoma’s recent earthquakes and saltwater disposal, Science advances, 1, e1500195.
Walter, J. I., P. J. Dotray, C. Frohlich, and J. F. W. Gale (2016), Earthquakes in northwest Louisiana and the Texas–Louisiana border possibly induced by energy resource activities within the Haynesville Shale Play, Seismological Research Letters, 87, 285-294.
Wang, R., Y. J. Gu, R. Schultz, A. Kim, and G. Atkinson (2016), Source analysis of a potential hydraulic fracturing induced earthquake near Fox Creek, Alberta, Geophysical Research Letters.
Wang, W., X. Meng, Z. Peng, Q. F. Chen, and N. Liu (2015), Increasing background seismicity and dynamic triggering behaviors with nearby mining activities around Fangshan pluton in Beijing, china, Journal of Geophysical Research: Solid Earth, 120, 5624-5638.
Wang, Z., C. N. Tang, T. H. Ma, L. C. Li, and Y. F. Yang (2012), Research on the surrounding rock damage of deep hard rock tunnels caused by bottom excavation, paper presented at Applied Mechanics and Materials, Trans Tech Publ.
Weingarten, M., S. Ge, J. W. Godt, B. A. Bekins, and J. L. Rubinstein (2015), High-rate injection is associated with the increase in US mid-continent seismicity, Science, 348, 1336-1340.
Weiser, D. A. (2016), Maximum magnitude and probabilities of induced earthquakes in California geothermal fields: Applications for a science-based decision framework, University of California.
Westbrook, G. K., N. J. Kusznir, C. W. A. Browitt, and B. K. Holdsworth (1980), Seismicity induced by coal mining in Stoke-on-Trent (UK), Engineering Geology, 16, 225-241.
Wettainen, T., and J. Martinsson (2014), Estimation of future ground vibration levels in Malmberget town due to mining-induced seismic activity, Journal of the Southern African Institute of Mining and Metallurgy, 114, 835-843.
Wheeler, R. L. (2009), Sizes of the largest possible earthquakes in the central and eastern United States-summary of a workshop, September 8-9, 2008, Golden, Colorado, US Geological Survey.
Wiejacz, P., and Rudziński, Ł. (2010), Seismic event of January 22, 2010 near Bełchatów, Poland, Acta Geophysica, 58(6), 988-994.
Wilson, M. P., R. J. Davies, G. R. Foulger, B. R. Julian, P. Styles, J. G. Gluyas, and S. Almond (2015), Anthropogenic earthquakes in the UK: A national baseline prior to shale exploitation, Marine and Petroleum Geology, 30, e17.
Windsor, C. R., P. Caviares, E. Villaescusa, and J. Pereira (2006), Reconciliation of strain, structure and stress in the El Teniente mine region, Chile, paper presented at Proceedings of International Symposium on In Situ Rock Stress, Trondheim, Norway.
Wiprut, D., and M. D. Zoback (2000). Fault reactivation and fluid flow along a previously dormant normal fault in the northern North Sea, Geology, 28(7), 595-598.
Wiszniowski, J., N. Van Giang, B. Plesiewicz, G. Lizurek, D. Q. Van, L. Q. Khoi, and S. Lasocki (2015), Preliminary results of anthropogenic seismicity monitoring in the region of Song Tranh 2 reservoir, central Vietnam, Acta Geophysica, 63, 843-862.
Wolhart, S. L., T. A. Harting, J. E. Dahlem, T. Young, M. J. Mayerhofer, and E. P. Lolon (2006), Hydraulic fracture diagnostics used to optimize development in the Jonah field, paper presented at SPE Annual Technical Conference and Exhibition, Society of Petroleum Engineers.
Xie, L., K.-B. Min, and Y. Song (2015), Observations of hydraulic stimulations in seven enhanced geothermal system projects, Renewable Energy, 79, 56-65.
Xiumin, M. A., L. I. Zhen, P. E. N. G. Hua, J. I. A. N. G. Jingjie, Z. H. A. O. Fang, H. A. N. Chaopu, Y. U. A. N. Pengxiang, L. U. Shengzhou, and P. E. N. G. Liguo (2015), Fluid‐injection‐induced seismicity experiment of the WFSD‐3P borehole, Acta Geologica Sinica (English Edition), 89, 1057-1058.
Xu, N.-w., C.-a. Tang, H. Li, F. Dai, K. Ma, J.-d. Shao, and J.-c. Wu (2012), Excavation-induced microseismicity: Microseismic monitoring and numerical simulation, Journal of Zhejiang University SCIENCE A, 13, 445-460.
Yeck, W. L., G. P. Hayes, D. E. McNamara, J. L. Rubinstein, W. D. Barnhart, P. S Earle, and H. M. Benz (2017), Oklahoma experiences largest earthquake during ongoing regional wastewater injection hazard mitigation efforts, Geophysical Research Letters, 44, 711-717.
Yeck, W. L., A. F. Sheehan, M. Weingarten, J. Nakai, and S. Ge (2014), The 2014 Greeley, Colorado earthquakes: Science, industry, regulation, and media, paper presented at AGU Fall Meeting Abstracts.
Younger, P. L., J. G. Gluyas, and W. E. Stephens (2012), Development of deep geothermal energy resources in the UK, Proceedings of the Institution of Civil Engineers-Energy, 165, 19-32.
Yu, Q., C.-A. Tang, L. Li, G. Cheng, and L.-X. Tang (2015), Study on rockburst nucleation process of deep-buried tunnels based on microseismic monitoring, Shock and Vibration, 501, 685437.
Zaliapin, I., and Y. Ben‐Zion (2016), Discriminating characteristics of tectonic and human‐induced seismicity, Bulletin of the Seismological Society of America.
Zang, A., V. Oye, P. Jousset, N. Deichmann, R. Gritto, A. McGarr, E. Majer, and D. Bruhn (2014), Analysis of induced seismicity in geothermal reservoirs–an overview, Geothermics, 52, 6-21.
Zedník, J., and J. Pazdírková (2014), Seismic activity in the Czech Republic in 2012, Studia Geophysica et Geodaetica, 58, 342.
Zedník, J., J. Pospíšil, B. Růžek, J. Horálek, A. Boušková, P. Jedlička, Z. Skácelová, V. Nehybka, K. Holub, and J. Rušajová (2001), Earthquakes in the Czech Republic and surrounding regions in 1995–1999, Studia Geophysica et Geodaetica, 45, 267-282.
Zhang, H., H. Cheng, Y. Pang, Y. Shi, and D. A. Yuen (2016), Influence of the impoundment of the Three Gorges Reservoir on the micro-seismicity and the 2013 M5. 1 Badong earthquake (Yangtze, China), Physics of the Earth and Planetary Interiors, 261, 98-106.
Zhang, W.-d., and T.-h. Ma (2013), Research on characteristic of rockburst and rules of microseismic monitoring at headrace tunnels in Jinping II hydropower station, paper presented at Digital Manufacturing and Automation (ICDMA), 2013 Fourth International Conference on, IEEE.
Zhang, Y., W. Feng, L. Xu, C. Zhou, and Y. Chen (2009), Spatio-temporal rupture process of the 2008 great Wenchuan earthquake, Science in China Series D: Earth Sciences, 52, 145-154.
Zhang, Y., M. Person, J. Rupp, K. Ellett, M. A. Celia, C. W. Gable, B. Bowen, J. Evans, K. Bandilla, and P. Mozley (2013), Hydrogeologic controls on induced seismicity in crystalline basement rocks due to fluid injection into basal reservoirs, Groundwater, 51, 525-538.
Zoback, M. D., and S. M. Gorelick (2012), Earthquake triggering and large-scale geologic storage of carbon dioxide, Proceedings of the National Academy of Sciences, 109, 10164-10168.
Zoback, M. D., and H. P. Harjes (1997), Injection‐induced earthquakes and crustal stress at 9 km depth at the KTB deep drilling site, Germany, Journal of Geophysical Research: Solid Earth, 102, 18477-18491.
Zoback, M. D., and J. C. Zinke (2002), Production-induced normal faulting in the Valhall and Ekofisk oil fields, in The mechanism of induced seismicity, pp. 403-420, Springer.