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IS-EPOS: a platform for anthropogenic seismicity research

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Research in the field of anthropogenic seismicity (AS) requires not only seismicity data but also data regarding the progress of the technological/production activities which is the origin of the induced or triggered seismic events. Such data are typically restricted and proprietary, and therefore, usually not available for independent researchers who wish to develop, perform and verify scientific research. The induced seismicity-European plate observing system (IS-EPOS) web portal offers to its user’s access to data, applications and documents in order to facilitate AS research. IS-EPOS web portal has been designed to serve as one of the main pillars of the Thematic Core Service-Anthropogenic Hazards belonging to pan-European multidisciplinary research infrastructure created within the EPOS program. IS-EPOS platform is open for research community and general public according to its rules of access. The platform is operating since January 2016 and is now integrated in the EPOS Integrated Core Services. IS-EPOS e-platform promotes new opportunities to study and comprehend the dynamic and complex solid earth system by integrating the use of multidisciplinary data, data products, analysis models and online applications. The integration of existing and new national and transnational Research Infrastructures increases the access and use of multidisciplinary data recorded by the solid earth observing systems, acquired in laboratory experiments and/ or produced by computational simulations. In this paper, we describe the structure and the main innovative characteristics implemented in IS-EPOS. The platform is open to accommodate data integrated within other research projects, and it is continuously being updated with improvements in existing features and implementations of new ones. An appendix at the end of the article provides a summary of acronyms and abbreviations in order to make the reader familiar with the terms used throughout the manuscript.
Czasopismo
Rocznik
Strony
299--310
Opis fizyczny
Bibliogr. 33 poz.
Twórcy
  • Instytut Geofizyki Polskiej Akademii Nauk, Warsaw, Poland
  • Instytut Geofizyki Polskiej Akademii Nauk, Warsaw, Poland
  • Instytut Geofizyki Polskiej Akademii Nauk, Warsaw, Poland
  • Instytut Geofizyki Polskiej Akademii Nauk, Warsaw, Poland
autor
  • Akademickie Centrum Komputerowe (ACK)-Cyfronet, Kraków, Poland
  • Instytut Geofizyki Polskiej Akademii Nauk, Warsaw, Poland
  • Instytut Geofizyki Polskiej Akademii Nauk, Warsaw, Poland
  • Akademickie Centrum Komputerowe (ACK)-Cyfronet, Kraków, Poland
  • Akademickie Centrum Komputerowe (ACK)-Cyfronet, Kraków, Poland
Bibliografia
  • 1. Cielesta S, Orlecka-Sikora B, Staszek M, Urban P, Olszewska D, Ruigrok E, Toon S, Picozzi M, Kwiatek G, Cesca S, Lopez Comino JA, Isherwood C, Montcoudiol N, Jarosławski J (2018) SHEER “smart” database—technical note. Acta Geophys (manuscript submitted in this issue)
  • 2. Committee on Induced Seismicity Potential in Energy Technologies: Hitzman MW (Chair), Clarke DD, Detournay E, Dieterich JH, Dillon DK, Green SJ, Habiger RM, McGuire RK, Mitchell JK, Shemeta JE, Smith JL (2013) Induced seismicity potential in energy technologies. National Academy of Sciences, The National Academies Press, Washington, DC, p 248
  • 3. Davies R, Foulger G, Bindley A, Styles P (2013) Induced seismicity and hydraulic fracturing for the recovery of hydrocarbons. Mar Petrol Geol 45:171–185
  • 4. Foulger GR, Wilson MP, Gluyas JG, Julian BR, Davies RJ (2017) Global review of human-induced earthquakes. Earth Sci Rev 178:438–514
  • 5. Gahalaut K, Gahalaut VK (2010) Effect of the Zipingpu reservoir impoundment on the occurrence of the 2008 Wenchuan earthquake and local seismicity. Geophys J Int 183:277–285
  • 6. Gan Q, Elsworth D (2014) Analysis of fluid injection-induced fault reactivation and seismic slip in geothermal reservoirs. J Geophys Res. https://doi.org/10.1002/2013JB010679
  • 7. Ge S, Liu M, Lu N, Godt JW, Luo G (2009) Did the Zipingpu Reservoir trigger the 2008 Wenchuan earthquake? Geophys Res Lett 36:L20315. https://doi.org/10.1029/2009GL040349
  • 8. Gibowicz SJ (2009) Seismicity induced by mining: recent research. Adv Geophys 51:1–53
  • 9. Gibowicz SJ, Lasocki S (2001) Seismicity induced by mining: ten years later. Adv Geophys 44:39–181
  • 10. Gkarlaouni C, Lasocki S, Papadimitriou E, Tsaklidis G (2017) Hurst analysis of seismicity in Corinth rift and Mygdonia graben (Greece). Chaos Soliton Fract 96:30–42
  • 11. Grigoli F, Cesca S, Priolo E, Rinaldi AP, Clinton JF et al (2017) Current challenges in monitoring, discrimination, and management of induced seismicity related to underground industrial activities: a European perspective. Rev Geophys 55:310–340
  • 12. Gupta HK (2002) A review of recent studies of triggered earthquakes by artificial water reservoirs with special emphasis on earthquakes in Koyna, India. Earth Sci Rev 58:279–310
  • 13. Kocot J, Szepieniec T, Wójcik P, Trzeciak M, Golik M, Grabarczyk T, Siejkowski H, Sterzel M (2014) A framework for domain-specific science gateways. In: Bubak M, Kitowski J, Wiatr K (eds) E-science on distributed computing infrastructure. Springer, Berlin, pp 130–146
  • 14. Kozłowska Μ, Orlecka-Sikora B, Rudziński Ł, Cielesta S, Mutke G (2016) Atypical evolution of seismicity patterns resulting from the coupled natural, human-induced and coseismic stresses in a longwall coal mining environment. Int J Rock Mech Min Sci 86:5–15. https://doi.org/10.1016/j.ijrmms.2016.03.024
  • 15. Lasocki S, Orlecka Sikora B (2016) Integrated approach to geophysical hazards induced by exploration and exploitation of georesources—to facilitate the way of attaining excellence. The EPOS Newsletter, Issue 01, Article 03
  • 16. Lasocki S, Orlecka Sikora B, Grasso JR, the members of EPOS WG10 (2014) Interactive research infrastructure for solid-earth anthropogenic hazards. WG10 White Paper
  • 17. Lasocki S, Orlecka Sikora B, Leptokaropoulos K, Sterzel M, Szepieniec T, Kocot J, Mutke G, Barański A, the IS-EPOS team (2017) IS-EPOS: a digital research space to facilitate integrated approach to anthropogenic seismic hazards.In: Proceedings of 16th world conference on earthquake engineering, 16WCEE, Santiago, Chile
  • 18. Leptokaropoulos K, Staszek M (2018) Temporal response of magnitude distribution to fluid injection rates in The Geysers Geothermal Field, Acta Geophys (manuscript submitted in this issue)
  • 19. Leptokaropoulos K, Orlecka-Sikora B, Lasocki S, Kwiatek G, Grasso JR, Schmittbuhl J, Garcia-Aristizabal A, Kocot J, Szepieniec T, Sterzel M, Lizurek G, Chodzinska K (2017a) IS-EPOS e-platform of EPOS Thematic Core Service ANTHROPOGENIC HAZARDS—a virtual laboratory for collaborative research experimentation. In: International conference on research development and cooperation in geophysics, VIET-GEOPHYS-2017, Hanoi, Vietnam
  • 20. Leptokaropoulos K, Staszek M, Cielesta S, Urban P, Olszewska D, Lizurek G (2017b) Time dependent seismic hazard in Bobrek coal mine, Poland, assuming different magnitude distribution estimations. Acta Geophys. https://doi.org/10.1007/s11600-016-0002-9
  • 21. Leptokaropoulos K, Staszek M, Lasocki S, Martínez-Garzón P, Kwiatek G (2018a) Evolution of seismicity in relation to fluid injection in North-Western part of The Geysers Geothermal field. Geophys J Int. https://doi.org/10.1093/gji/ggx481
  • 22. Leptokaropoulos K, Adamaki A, Roberts R, Gkarlaouni C, Paradisopoulou P (2018b) Impact of magnitude uncertainties on seismic catalog properties. Geophys J Int. https://doi.org/10.1093/gji/ggy023
  • 23. Lizurek G (2017) Full moment tensor inversion as a practical tool in case of discrimination of tectonic and anthropogenic seismicity in Poland. Pure appl Geophys 174:197–212
  • 24. Lizurek G, Wiszniowski J, Giang NV, Plesiewicz B, Van DQ (2017) Clustering and stress inversion in the Song Tranh 2 reservoir, Vietnam. Bull Seismol Soc Am 107:2636–2648. https://doi.org/10.1785/0120170042
  • 25. Olszewska D, Lasocki S, Leptokaropoulos K (2017) Non-stationarity and internal correlations of the occurrence process of mining induced seismic events. Acta Geophys. https://doi.org/10.1007/s11600-017-0024-y
  • 26. Orlecka-Sikora B, Cielesta S, Lasocki S (2018) Tracking the development of seismic fracture network from The Geysers geothermal field, Acta Geophys (manuscript submitted in this issue)
  • 27. Rudziński Ł, S Dineva (2017) Towards Energy Magnitude for Mining Induced Seismicity. In: Proceeding of the 9th international symposium on rockbursts and seismicity in mines, RaSiM9, Santiago, Chile, Chapter: Ground control and support system, pp 189–195
  • 28. Rudziński ŁS, Lasocki B, Orlecka-Sikora T, Szepieniec K, Leptokaropoulos A, Garcia-Aristizabal J-R, Grasso G, Kwiatek (2017) IS-EPOS Platform for anthropogenic seismicity research: a modern e-tool of EPOS thematic core service “anthropogenic hazards”, designed to integrate infrastructures and facilitate research of human induced seismicity. In: Proceeding of the 9th international symposium on rockbursts and seismicity in mines, RaSiM9, Santiago, Chile, Chapter: Seismic hazard and seismic monitoring, pp 15–22
  • 29. Snoke JA (1987) Stable determination of (Brune) stress drops. Bull Seismol Soc Am 77(2):530–538
  • 30. Staszek M, Orlecka-Sikora B, Leptokaropoulos K, Kwiatek G, Martínez-Garzón P (2017) Temporal static stress drop variations due to injection activity at the Geysers geothermal field, California. Geophys Res Lett 44:7168–7176. https://doi.org/10.1002/2017GL073929
  • 31. Suckale J (2009) Induced seismicity in hydrocarbon fields. Adv Geophys 51:55–106
  • 32. Wiszniowski J, Giang NV, Plesiewicz B, Lizurek G, Van DQ, Khoi LQ, Lasocki S (2015) Preliminary results of anthropogenic seismicity monitoring in the region of Song Tranh 2 reservoir, central Vietnam. Acta Geophys 63:843–862. https://doi.org/10.1515/acgeo-2015-0021
  • 33. Zang A, Oye V, Jousset P, Deichmann N, Gritto R, McGarr A, Majer E, Bruhn D (2014) Analysis of induced seismicity in geothermal reservoirs—an overview. Geothermics 52:6–21
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-baebb888-71aa-4a7e-9d00-b5278d203857
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