The acceleration response spectra for legnica-glogow copper district

[1] Arup (2015), NEN-NPR Topic 2: Site Classes and Design Response Spectra, Doc. Ref. 229746_033.0_NOT1002.Search in Google Scholar

[2] Bommer J.J., Dost B., Edwards B., Stafford P. J., van Elk J., Doornhof D., Ntinalexis M., Developing an Application-Specific Ground-Motion Model for Induced Seismicity. Bulletin of the Seismological Society of America, 106 (1)/2015, 158–173. DOI: 10.1785/0120150184.10.1785/0120150184Search in Google Scholar

[3] Chmielewski T., Zembaty Z., Dynamika budowli, Politechnika Opolska, Opole 1997.Search in Google Scholar

[4] Davies R., Foulger G., Bindley A., Styles P., Induced seismicity and hydraulic fracturing for the recovery of hydrocarbons, Mar. Petrol. Geol., 45/2013, 171–185.10.1016/j.marpetgeo.2013.03.016Search in Google Scholar

[5] Di Manna, P., Guerrieri L., Piccardi L., Vittori E., Castaldini D., Berlusconi A., Bonadeo L., Comerci V., Ferrario F., Gambillara R., Livio F., Lucarini M., Michetti A. M. Ground effects induced by the 2012 seismic sequence in Emilia: implications for seismic hazard assessment in the Po Plain. Annals of Geophysics, 55 (4)/2012, DOI: 10.4401/ag-6143.10.4401/ag-6143Search in Google Scholar

[6] Douglas J., Earthquake ground motion estimation using strong-motion records: a review of equations for the estimation of peak ground acceleration and response spectra, Earth-Science Reviews 61/2003, 43–104.10.1016/S0012-8252(02)00112-5Search in Google Scholar

[7] Ellsworth W.L., Injection-Induced Earthquakes, Science, 341 (6142)/2013, 1225942. DOI: 10.1126/science.1225942.10.1126/science.1225942Search in Google Scholar

[8] Ellsworth W.L., Llenos A.L., McGarr A.F., Michael A.J., Rubinstein J.L., Mueller C.S., Petersen M.D., Calais E., Increasing seismicity in the U.S. midcontinent: Implications for earthquake hazard, The Leading Edge, 34 (6)/2015, 618–626, DOI: 10.1190/tle34060618.110.1190/tle34060618.1Search in Google Scholar

[9] Eurocode-8: Design of structures for earthquake resistance – the European Standard. ENV 1998-1-3: 1995.Search in Google Scholar

[10] Jennings P.C., An introduction to the Earthquake Response Spectra, [in:] International Handbook of Earthquake Engineering Seismology, Vol. 18B, W.H.K. Lee, H. Kanamori, P.C. Jennings, C. Kisslinger, (ed.) Academic, Amsterdam 2003, 1097–1125.10.1016/S0074-6142(03)80181-XSearch in Google Scholar

[11] Kozłowska M., Orlecka-Sikora B., Rudziński Ł., Cielesta S., Mutke G., A typical evolution of seismicity patterns resulting from the coupled natural, human-induced and coseismic stresses in a longwall coal mining environment, International Journal of Rock Mechanics and Mining Sciences, 86/2016, 5–15. DOI: 10.1016/j.ijrmms.2016.03.024.10.1016/j.ijrmms.2016.03.024Search in Google Scholar

[12] Kwiatek, G., Plenkers K., Dresen G., Source Parameters of Picoseismicity Recorded at Mponeng Deep Gold Mine, South Africa: Implications for Scaling Relations, Bulletin of the Seismological Society of America, 101 (6)/2011, 2592–2608, DOI: 10.1785/0120110094.10.1785/0120110094Search in Google Scholar

[13] Kwiatek G., Martinez-Garzon P., Dresen G., Bohnhoff M., Sone H., Hartline C., Effects of long-term fluid injection on induced seismicity parameters and maximum magnitude in northwestern part of The Geysers geothermal field, Journal of Geophysical Research: Solid Earth, 120 (10)/2015, 7085–7101, DOI: 10.1002/2015JB012362.10.1002/2015JB012362Search in Google Scholar

[14] Lasocki S., Site Specific Prediction Equations for Peak Acceleration of Ground Motion Due to Earthquakes Induced by Underground Mining in Legnica-Głogów Copper District in Poland, Acta Geoph. 61 (5)/2013, 1130–1155.10.2478/s11600-013-0139-8Search in Google Scholar

[15] Lasocki S., Orlecka-Sikora B., Seismic hazard assessment under complex source size distribution of mining-induced seismicity, Tectonophysics, 456 (1–2)/2008, 28–37.10.1016/j.tecto.2006.08.013Search in Google Scholar

[16] Maciąg E., Kuźniar K., Tatara T., Response spectra of the ground motion and building foundation vibrations excited by rockbursts in the LGC region, Earthq Spectra 32(3)/2016,1769–1791, DOI:10.1193/020515EQS022M.10.1193/020515EQS022MSearch in Google Scholar

[17] McGarr A.F., Simpson D., A broad look at induced and triggered seismicity, [in:] Rockbrust and seismicity in mines. Balkema, Rotterdam 1977, 385–396.Search in Google Scholar

[18] Mutke G., Muszyński L., Lurka A., Siata R., Logiewa H., Musiał M., Byrczek B., Assessment of correctness of measurements of ground vibrations for ZG Rudna mine rockbursts (in Polish), GIG report number 42162719-123, April 2000.Search in Google Scholar

[19] Olszewska D., Analysis of site effects and spectrum of signals in order to improve the accuracy of the prognosis of ground motion caused by mining-induced seismic events in Legnica-Głogów Copper District, Ph.D. Thesis, AGH University of Science and Technology, Kraków 2008.Search in Google Scholar

[20] Olszewska D., Lasocki S., Application of the horizontal to vertical spectral ratio technique for estimating the site characteristics of ground motion caused by mining induced seismic events, Acta Geophys. Pol, Vol. 52, No. 3/2004, 301–318.Search in Google Scholar

[21] Olszewska D., Kula D., Preliminary site-effects characterization by inversion of HVSR data in mining area, ESC General Assembly 2016, Trieste, Italy 2016, Abstracts.Search in Google Scholar

[22] Oye V., Bungum H., Roth M., Source Parameters and Scaling Relations for Mining-Related Seismicity within the Pyhasalmi Ore Mine, Finland, Bulletin of the Seismological Society of America, 95 (3)/2005, 1011–1026, DOI: 10.1785/0120040170,10.1785/0120040170Search in Google Scholar

[23] Petersen M.D., Mueller C.S., Moschetti M.P., et al., 2017 One-Year Seismic-Hazard Forecast for the Central and Eastern United States from Induced and Natural Earthquakes, Seismological Reaserch letters, Vol. 88, No. 3/2017, 772–783, DOI: 10.1785/0220170005.10.1785/0220170005Search in Google Scholar

[24] Richardson E., Jordan T.H., Seismicity in Deep Gold Mines of South Africa: Implications for Tectonic Earthquakes, Bulletin of the Seismological Society of America, 92 (5)/2002, 1766–1782, DOI: 10.1785/0120000226.10.1785/0120000226Search in Google Scholar

[25] Soeder D.J., Sharma S., Pekney N., Hopkinson L., Dilmore R., Kutchko B., Stewart B., Carter K., Hakala A., Capo R., An approach for assessing engineering risk from shale gas wells in the United States, International Journal of Coal Geology, 126/2014, 4–19, DOI: 10.1016/j.coal.2014.01.004.10.1016/j.coal.2014.01.004Search in Google Scholar

[26] Tatara T., Działanie drgań powierzchniowych wywołanych wstrząsami górniczymi na niską tradycyjną zabudowę mieszkalną, Zeszyty Naukowe Politechniki Krakowskiej, seria: Inżynieria Lądowa, Kraków 2002.Search in Google Scholar

[27] Tatara T., Pachla F., Uszkodzenia w obiektach budowlanych w warunkach wstrząsów górniczych, [in:] Pilecka E (ed.) Mat. XIV Warsztaty Górnicze „Zagrożenia naturalne w górnictwie”, [in:] Mat. XIV Warsztaty Górnicze „Zagrożenia naturalne w górnictwie”, Pilecka E (ed.), Wyd. JGSMiE PAN, Kraków, 2012, 442–458.Search in Google Scholar

[28] Urban P., Lasocki S., Blascheck P., do Nascimento A.F., Van Giang N., Kwiatek G., Violations of Gutenberg–Richter Relation in Anthropogenic Seismicity, Pure and Applied Geophysics, 173 (5)/2016, 1517–1537, DOI: 10.1007/s00024-015-1188-5.10.1007/s00024-015-1188-5Search in Google Scholar

[29] Wodyński A., Zużycie Techniczne Budynków na Terenach Górniczych, Wydawnictwa AGH, Kraków 2007.Search in Google Scholar

[30] Van Eck T., Goutbeek F., Haak H., Dost B., Seismic hazard due to small-magnitude, shallow-source, induced earthquakes in The Netherlands, Engineering Geology, 87 (12)/2006, 105–121, DOI: 10.1016/j.enggeo.2006.06.005.10.1016/j.enggeo.2006.06.005Search in Google Scholar

[31] Zembaty Z., Rockburst induced ground motion – a comparative study, Soil Dyn Earthq Eng 24/2004, 11–23, DOI: 10.1016/j.solidyn.2003.10.001.Search in Google Scholar

[32] Zembaty Z., How to model rockburst seismic loads for civil engineering purposes?, Bull Earthq Eng 9/2011, 1403–1416, DOI:10.1007/s10518-011-9269-z.10.1007/s10518-011-9269-zSearch in Google Scholar

[33] Zembaty Z., Kokot S., Bozzoni F., Scandella L., Lai C.G., Kuś J., Bobra P., A system to mitigate deep mine tremor effects in the design of civil infrastructure, International Journal of Rock Mechanics and Mining Sciences, Vol. 74/2015, 81–90, DOI: 10.1016/j. ijrmms.2015.01.004.Search in Google Scholar