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Induced Seismicity References

  • Allis, R.G. (1982), Mechanisms of induced seismicity at The Geysers geothermal reservoir, California. Geophys. Res. Lett., 9, 629.
  • 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. Proc. WGC (CDROM).
  • Athanasopoulos, G.A., and P.C. Pelekis (2000), Ground vibrations from sheetpile driving in urban environment: measurements, analysis and effects on buildings and occupants. Soil Dynamics and Earthquake Engineering, 19, 371–387.
  • Baria, R., S. Michelet, J. Baumgärtner, B. Dyer, J. Nicholls, T. Hettkamp, D. Teza, N. Soma, H. Asanuma, J. Garnish and T. Megel (2005), Creation and mapping of 5000 m deep HDR/HFR Reservoir to produce electricity. Proceedings, Paper 1627.pdf, World Geothermal Congress 2005, Antalya, Turkey, April 24–29, 2005.
  • Baria, R., E. Majer, M. Fehler, N. Toksoz, C. Bromley, and D. Teza (2006), International cooperation to address induced seismicity in geothermal systems. Thirty-First Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California, January 30-February 1, 2006 SGP-TR-179
  • Barneich, J. (1985), Vehicle induced ground motion. In: Vibration Problems in Geotechnical Engineering, G. Gazetas and E. Selig, eds. Proceedings of a Symposium by the Geotechnical Engineering Division in Conjunction with the ASCE Convention in Detroit, Mich., Oct. 22, 1985.
  • Batini, F., R. Console, and G. Luongo (1985), Seismological study of the Larderello-Travelle geothermal area. Geothermics, 14, 255.
  • Batra, R, J.N. Albright, and C. Bradley (1984), Downhole seismic monitoring of an acid treatment in the Beowawe Geothermal Field. Trans. Geothermal Resources Council, 8, 479.
  • Beall, J.J., Stark, M.A., Smith, J.L. (Bill), and Kirkpatrick, A. (1999), Microearthquakes in the SE Geysers before and after SEGEP injection. Geothermal Resources Council, Transactions, 23, 253–257.
  • Beauce, A., H. Fabriol, D. LeMasne, C.Cavoit, P. Mechler, and X. K. Chen (1991), Seismic studies on the HDR Site of Soultz-forets (Alsace, France). Geotherm. Sci. Tech., 3, 239.
  • Bromley, C.J., C.F. Pearson, D.M. Rigor Jr. and PNOC-EDC,Microearthquakes at the Puhagan Geothermal Field, Philippines - ACase of Induced Seismicity, 31 J. of Volcanology & Geothermal Res.293 (1987)
  • Bommer, J.J., G. Georgallides, and I.J. Tromans (2001), Is there a near field for small-to-moderate-magnitude earthquakes? Journal of Earthquake Engineering, 5(3), 395–423.
  • 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(4), 287–306.
  • Boucher, G, A. Ryall, and A.E. Jones (1969), Earthquakes associated with underground nuclear explosions. J. Geophys. Res., 74, 3808.
  • Brune, J., and W. Thatcher (2002), International Handbook of Earthquake and Engineering Seismology. V 81A. Intl Assoc. Seismology and Phys of Earth's Interior, Committee on Education, pp 569–588.
  • Bufom, E. and Udias, A., 1979, A note on induced seismicity in dams and reservoirs in Spain, Bull. Seismol. of America, vol. 69, no. 5, pp. 1629-1632.
  • Clough, Ray W., 1978, Seismic loading considerations for Auburn Dam, U.S. Department of the Interior  Report, pp. 1-16.
  • Cook, N.G.W., 1976, Seismicity associated with mining, Engineering Geology, vol. 10, pp. 99-122.
  • Cornet, F.H., and Yin Jianmin (1995), Analysis of induced seismicity for stress field determination. Pure and Applied Geophys., 145, 677.
  • Cornet, F.H., and O. Scotti (1992), Analysis of induced seismicity for fault zone identification. Int. J. Rock Mech. Min. Sci. & Geomech Abstr., 30, 789.
  • Cornet, F.H., Y. Jianmin, and L. Martel (1992), Stress heterogeneities and flow paths in a granite Rock Mass. Pre-Workshop Volume for the Workshop on Induced Seismicity, 33rd U.S. Symposium on Rock Mechanics. 184.
  • Cornet, F.H., and P. Julien (1993), Stress determination from hydraulic test data and focal mechanisms of induced seismicity. Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., 26, 235.
  • Cypser, D.A., S.D. Davis (1998), Induced seismicity and the potential for liability under U.S. law. Tectonophysics, 289(1), 239–255.
  • Davis, Scott D., Nyffenegger, Paul A., and Frohlich, Cliff, 1995, The 9 April 1993 earthquake in south-central Texas: Was it induced by fluid withdrawal? Bull. Seismol. of America, vol. 85, no. 6, pp. 1888-1895.
  • Das, S. and Scholz, C.H. 1983, Why large earthquakes do not nucleate at shallow depths, Nature, vol. 305, pp. 621-623.
  • R.P. Denlinger & C.G. Bufe, Reservoir Conditions Related to InducedSeismicity at the Geysers Steam Reservoir, Northern California, 72Bulletin Seismol. Soc. Am. 1317 (1982).
  • Dewey, J.W., R.A. White, and D.A. Hernández (2004), Seismicity and tectonics of El Salvador. In: Natural Hazards in El Salvador, Geological Society of America Special Paper 375, Rose et al., eds., pp. 363–378.
  • Eberhart-Phillips, D., and D.H. Oppenheimer (1984), Induced seismicity in The Geysers Geothermal Area, California, J. Geophys. Res., 89, 1191–1207.
  • Enedy, S.L., K.L. Enedy, and J. Maney (1992), In Monograph on the Geyser Geothermal Field, Special Report No. 17, Geothermal Research Council, pp. 211–218.
  • Fehler, M. C, Stress Control of Seismicity Patterns Observed during Hydraulic Fracturing Experiments at the Fenton Hill Hot Dry Rock Geothermal Energy Site, New Mexico, 26 Int. J. Rock Mech. Min. Sci. & Geochem. Abstr., 211 (1989) Feng , Q., and J.M. Lees, Microseismicity, Stress and Fracturewithin the Coso Geothermal Field [abstract], Abstracts XXI GeneralAssembly Int'l Union Geodesy & Geophys. A372 (1995) Ferrazzini, B. Chouet, M. Fehler & K. Aki, QuantitativeAnalysis of Long-Period Events Recorded during HydrofractureExperiments at Fenton Hill, New Mexico, 95 Jour. Geophys. Res. 21871(1990). 
  • Fletcher, J.B., 1980, Spectra from high-dynamic range digital recordings of Oroville, California aftershocks and their source parameters, Bull. Seismol. of America, vol. 70, no. 3, pp. 735-755.
  • Ghassemi, A., and S. Tarasovs, (2005), A three-dimensional study of the effects of thermo-mechanical loads on fracture slip in enhanced geothermal reservoirs. Submitted to International Journal of Rock Mech. Min. Sci. & Geomech.
  • Gomberg, J., Field Observations of Triggered Earthquakes:Implication for Rupture Initiation, EOS, Trans. Am. Geophysical UnionF532 (1995). Gomberg, J., and S. D. Davis, Stress/Strain Changes andTriggered Seismicity at The Geysers, California, 101 Jour. Geophys.Research 733 (1996). 
  • Grasso, J. (1992), Mechanics of seismic instabilities induced by the recovery of hydrocarbons. Pure & Applied Geophysics, 139, 507.
  •  Greenfelder,R., New Evidence of the Causative Relationship Between Well Injection and Microseismicity in theGeysers Geothermal Field, 17 Trans. Geothermal Res. Council 243-247
  • Guha, S.K. (2000), Induced Earthquakes. Kluwer Academic Publishers, Dordrecht, The Netherlands.
  • Gupta, Harsh K., 1983, Induced seismicity hazard mitigation through water level manipulation at Koyna, India: A suggestion, Bull. Seismol. Soc. of America, vol. 73, no. 2, pp. 679-682.
  • Gupta, Harsh K. and Rajendran, Kusala, 1986, Large artificial water reservoirs in the vicinity of the Flinialayan foothills and reservoir-induced seismicity, Bull. Seismol. Soc. of America, vol. 76, no. 1, pp. 205-215.
  • Hamilton, D.H., McMillian, K. and Aistine, D.Y., 1995, Faulting and Earthquakes as Issues in the Planning and Design of an Auburn Dam, HMG Associates Report, Palo Alto, CA, 20 pp.
  • Hazzard, J.F., R.P. Young, and S.J. Oates, (2002), Numerical modeling of seismicity induced by fluid injection in a fractured reservoir. Mining and Tunnel Innovation and Opportunity, Proceedings of the 5th North American Rock Mechanics Symposium, Toronto,Canada, 1023-1030. University of Toronto Press.
  • Higashi T., Yamabe andValiya M. Hamza, GeothermalInvestigations in a Area of Induced Seismic Activity, Northern SaoPaulo State, Brasil, 253 Tectonophysics 209 (1996)
  • Hoover, D.B., and J.A. Dietrich, (1969), Seismic activity during the 1968 test pumping at the Rocky Mountain Arsenal disposal well. US Geological Survey Circular 613
  • House, L.S., Locating Microearthquakes Induced by HydraulicFracturing in Crystalline Rock, 14 Geophys. Res. Lett. 919 (1987) House, L.S., M.C. Fehler & W. S. Phillips, Studies of SeismicityInduced by hydraulic Fracture in a Geothermal Reservoir, Pre-WorkshopVolume for the Workshop on Induced Seismicity, 33rd U.S. Symp. onRock Mech. 186 (1992). 
  • Hsieh, P.A., and J.D. Bredehoft, (1981), A reservoir analysis of the Denver earthquakes: a case of induced seismicity. J. Geophys. Res., 86 (B2), 903-920.
  • Hunt , T.M., and J.H. Latter, A Survey of Seismic Activity nearWairakei Geothermal Field, New Zealand, 14 J. Volcan. Geotherma. Res.319 (1982). 
  • Jacob, K.H., Pennington, W.D., Armbruster, J., Seeber, L. and Farhatulla, S., 1979, Tarbela Reservoir, Pakistan: A region of compressional tectonics with reduced seismicity upon initial reservoir filling, Bull. Seismol. of America, vol. 69, no. 4, pp. 1175-1192.
  • Jahns, Richard H., 1978, Seismic loading considerations for Auburn Dam, U.S. Department of the Interior Report, pp. 1-19.
  • Kanamori, H., and L. Rivera, (2004), Static and Dynamic Scaling Relations for Earthquakes and their implications for Rupture Speed and Stress Drop. Bull. Seismol. Soc. Am., v. 94, no. 1, p. 314-319.
  • Kirkpatrick, A., J.E. Peterson, E.L. Majer, and R. Nadeau (1999), Characteristics of microseismicity in the DV11 injection area, Southeast Geysers, California. Proc. Twenty-Fourth Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, Jan 25–27, 1999.
  • Kisslinger, C., 1976, A review of theories of mechanism of induced seismicity, Engineering Geology, vol. 10, pp. 85-98.
  • Knoll, P. (Ed.) (1992), Induced Seismicity. A.A. Balkema, Rotterdam, The Netherlands.
  • Kohl, T., and T. Mégel, (2005), Coupled hydro-mechanical modelling of the GPK3 reservoir stimulation at the European EGS site Soultz-Sous-Forets. Proceedings, Thirtieth workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, January 31-February 2, 2005.
  • Ludwin, R.S., V. Cagnetti, and C.G. Bufe (1982), Comparision of seismicity in the Geysers geothermal area with the surrounding area. Bulletin Seismol. Soc. Am., 72, 863.
  • Majer, E. L., (1978), Seismological Investigation in Geothermal Regions, Ph.D. Thesis, University of California, Berkeley, LBL Report 7054
  • Majer, E.L., and T.V. McEvilly (1979), Seismogical investigations at the Geysers Geothermal Field. Geophysics, 44, 246–269.
  • Majer, E.L., and J.E. Peterson (2005), Application of microearthquake monitoring for evaluating and managing the effects of fluid injection at naturally fractured EGS Sites. GRC Transactions, 29, 103–107.
  • Majer, E., R. Baria, and M. Fehler (2005), Cooperative research on induced seismicity associated with enhanced geothermal systems. Geothermal Resources Council Transactions, 29, GRC 2005 Annual Meeting, Sept. 25–28, 2005.
  • Majer, E.L, Baria , R., Stark, M., Oates, S., Bommer, J., Smith, B., and Asanuma, H., 2007, Induced seismicity associated with Enhanced Geothermal Systems, Geothermics 36, 185-227. LBNL- 61681
  • Majer, E. and Peterson, J. E., The impact of injection on seismicity at The Geysers California Geothermal Field, 2007, International Journal of Rock Mechanics & Mining Sciences, v. 44 (1079-1090) LBNL-61693.
  • Mauk, F., G.G. Sorrells, and B. Kimball (1981), Microseismicity associated with development of Gulf Coast geopressured-geothermal wells: Two studies, Pleasant Bayou No. 2 and Dow L.R. Sweezy No. 1. In: Geopressured-Geothermal Energy, 105 (Proc. 5th U.S. Gulf Coast Geopressured-Geothermal Energy Conf., D.G. Bebout and A.L. Bachman, eds.).
  • Mauk, F.J., (1985) Results of the Seismic Monitoring Programs at thePleasant Bayou and Bayou Parcperdue, geopressured-geothermal DesignWells, 6th Conf. on Geopressured-Geothermal Energy (M.H. Dorfman &R.A. Morton, ed.)
  • McGarr, A. (1976), Seismic moment and volume change. J. Geophys. Res., 81, 1487.
  • Mossop, A.P., and Segall, P. (in press), Induced seismicity in geothermal fields: II. Correlation and interpretation at The Geysers. J. Geophys Res.
  • NAM, (2002), Aardtrillingen. Nederlandse Aardolie Maatschappij (NAM) public information leaflet, available from www.nam.nl, September 2002.
  • Oppenheimer, D.C. (1986), Extensional tectonics at the Geysers Geothermal Area, California. J. Geophys. Res., 91, 11463–11476.
  • Pearson, C., H. Keppler, J. Albright & R. Potter, Rock FractureDuring Massive Hydraulic Stimulation of the Baca Location GeothermalReservoir, 6 Trans. Geothermal Res. Council 157 (1982)
  • 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. Bull. of the Seismological Soc. of America, 76(4), 939–948.
  • Raleigh, C.B., J.H. Healy, and J.D. Bredehoeft (1972), Faulting and crustal stress at Rangely, Colorado. AGU Geophysical Monograph, 16, 275–284.
  • Richardson, E., and T. Jordan (2002), Seismicity in deep gold mines of South Africa: Implications for tectonic earthquakes. Bulletin of the Seismological Society of America, 92(5), 1766–1782.
  • Ross, A., Foulger, G.R., and Julian, B.R. (1999), Source processes of industrially-induced earthquakes at The Geysers Geothermal Area, California, Geophysics, 64, 1877–1889
  • Rutledge J.T., Stark M.A., Fairbanks T.D., and Anderson T.D. (2002), Near-surface Microearthquakes at The Geysers Geothermal Field, California. Pure and Applied Geophys., 159, 473–487.
  • Rutqvist J., Wu, Y.-S., Tsang, C.-F., and Bodvarsson, G. (2002). A Modeling Approach for Analysis of Coupled Multiphase Fluid Flow, Heat Transfer, and Deformation in Fractured Porous Rock Int. J. Rock mech. Min. Sci. 39, 429-442
  • Rutqvist J., and Tsang, C.-F. (2002), A study of caprock hydromechanical changes associated with CO2 injection into a brine aquifer. Environmental Geology, 42, 296-305
  • Rutqvist J., Tsang C.-F., and Tsang Y. (2003), Analysis of stress- and moisture-induced changes in fractured rock permeability at the Yucca Mountain drift scale test. GEOPROC 2003: Proceedings of the International Conference on Coupled T-H-M-C Processes in Geo-systems: Fundamentals, Modeling, Experiments & Applications, Stockholm, Sweden, 13-15 October 2003, Royal Institute of Technology, pp. 147–152
  • Sarmiento, S., Waste Water Reinjection at Tonganan GeothermalField: Results & Implications, 15 Geothermics 295 (1986) 
  • 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. Jour. Geophys. Res., 99, 15423–15438.
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Induced Seismicity Primer