Julkaisut

Tältä sivulta löydät SEISMIC RISK -hankkeen tieteelliset vertaisarvioidut artikkelit, raportit ja konferenssi abstraktit ja julkaisut.
Tieteelliset vertaisarvioidut artikkelit

Artikkelit ovat listattu julkaisuvuoden mukaan.

Metsalo, K., Bäcklund, P., & Korja, A. (2024). SEISMIC RISK - Kaupunkialueiden indusoidun seismisen riskin hallinta -hanke laajentaa geotermisen energian vaikutusten ymmärrystä. Geologi, (1), 13-17. https://www.geologinenseura.fi/sites/geologinenseura.fi/files/geologi_-…

Eulenfeld, T., Hillers, G., Vuorinen, T. A. T., & Wegler, U. (2023). Induced Earthquake Source Parameters, Attenuation, and Site Effects From Waveform Envelopes in the Fennoscandian Shield. Journal of Geophysical Research : Solid Earth, 128(4). https://doi.org/10.1029/2022JB025162

Krenz, L., Wolf, S., Hillers, G., Gabriel, A. -A., & Bader, M. (2023). Numerical Simulations of Seismoacoustic Nuisance Patterns from an Induced M 1.8 Earthquake in the Helsinki, Southern Finland, Metropolitan Area. Bulletin of the Seismological Society of America, 113(4), 1596-1615. https://doi.org/10.1785/0120220225

Tuomisaari, J. M., Junno, N., Bäcklund, P., & Korja, A. (2022). Geoterminen energia ja politiikkaongelmien hallitsemisen tiedollinen haaste. Alue ja ympäristö, 51(1), 21-39. https://doi.org/10.30663/ay.115144

Rintamäki, A. E., Hillers, G., Vuorinen, T., Luhta, T., Pownall, J., Tsarsitalidou, C., Galvin, K., Keskinen, J., Kortström, J., Lin, T-C., Mäntyniemi, P., Oinonen, K., Oksanen, T. J., Seipäjärvi, P. J., Taylor, G., Uski, M., Voutilainen, A. I., & Whipp, D. (2022). A seismic network to monitor the 2020 EGS stimulation in the Espoo/Helsinki area, southern Finland. Seismological Research Letters, 93(2A), 1046–1062. https://doi.org/10.1785/0220210195

Taylor, G., Hillers, G., & Vuorinen, T. (2021). Using array‐derived rotational motion to obtain local wave propagation properties from earthquakes induced by the 2018 geothermal stimulation in Finland. Geophysical Research Letters, 48(6), [ARTN e2020GL090403]. https://doi.org/10.1029/2020GL090403

Hillers, G., Vuorinen, T. A. T., Uski, M., Kortström, J., Mäntyniemi, P., Tiira, T., Malin, P. E., & Saarno, T. (2020). The 2018 Geothermal Reservoir Stimulation in Espoo/Helsinki, Southern Finland: Seismic Network Anatomy and Data Features. Seismological Research Letters, 91(2), 770-786. https://doi.org/10.1785/0220190253

Konferenssi abstraktit

Konferenssi abstraktit ovat listattu julkaisuvuoden mukaan.

Rintamäki, A., Hillers, G., Heimann, S., Dahm, T., and Korja, A. (2023). Centroid full moment tensor analysis reveals fluid channels opened by induced seismicity at EGS, Helsinki region, southern Finland, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-12756, https://doi.org/10.5194/egusphere-egu23-12756, 2023.

Sadeghi-Bagherabadi, A., & Hillers, G. (2023). Array-derived rocking and vertical ground motion scaling relations from seismicity induced by the 2018 Espoo/Helsinki geothermal stimulation. In XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG) https://doi.org/10.57757/IUGG23-2868

Vuorinen, T., Hillers, G., Oinonen, K., Hällsten, J., Taylor, G., and Gal, M. (2023). Detecting and mapping the induced seismicity of a planned EGS in Helsinki/Espoo, Finland , EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-15982, https://doi.org/10.5194/egusphere-egu23-15982, 2023.

Fülöp, L., Junno, N., Oinonen, K. and Mäntyniemi, P. (2022). A new seismic source zone model for Finland. In Junno, N., Haapanala, P., Oinonen, K., Vuorinen, T., & Rintamäki, A. E. (Eds.) (2022). Joint Nordic EPOS and 53rd Nordic Seismology Seminar: Abstracts for oral and poster presentations.

Hillers, G., Sadeghi-Bagherabadi, A., Vuorinen, T., & Taylor, G. (2022). Array-derived peak ground rotation rate vs. peak ground acceleration: scaling relations from seismicity induced by the Espoo/Helsinki geothermal stimulation. In EGU General Assembly 2022 https://doi.org/10.5194/egusphere-egu22-11072

Junno, N., Rantanen, A. M., Bäcklund, P., & Korja, A. (2022). Geothermal energy and associated induced seismic risk management. In T. Veikkolainen, L. Tuomi, T. Saari, P. Mäntyniemi, I. Suomi, S. Väkevä, A. Laaksonen, & L. Holappa (Eds.), XXX GEOFYSIIKAN PÄIVÄT (pp. 23-26). (Geofysiikan Päivät). Geofysiikan seura.

Junno, N., Fülöp, L., Oinonen, K., Mäntyniemi, P.,Korja, A. and SEISMIC RISK working group (2022). SEISMIC RISK – Mitigation of induced seismic risk in urban environment. In Pietari Skyttä, Kaisa Nikkilä, Esa Heilimo, Ilmo Kukkonen, Toni Veikkolainen, Fredrik Karell, Elena Kozlovskaya, Arto Luttinen, Vesa Nykänen, Markku Poutanen, Eija Tanskanen and Timo Tiira (Eds.).2022. LITHOSPHERE 2022: TWELFTH SYMPOSIUM ON STRUCTURE, COMPOSITION AND EVOLUTION OF THE LITHOSPHERE: PROGRAMME AND EXTENDED ABSTRACTS. Report-S, Vol. 72.

Junno, N., Fülöp, L., Oinonen, K., Mäntyniemi, P.,Korja, A. and SEISMIC RISK working group (2022). SEISMIC RISK – Mitigation of induced seismic risk in urban environment. Joint Nordic EPOS and 53rd Nordic Seismology Seminar: Abstracts for oral and poster presentations.

Korja, A., Junno, N., Tuomisaari, J. M., & Bäcklund, P. (2022). Mitigation of induced seismic risk associated with geothermal energy in urban environments in Finland. In Þ. Sæmundsson, Á. R. Hjartardóttir, B. Gautason, & H. Geirsson (Eds.), Abstracts of the 35th Nordic Geological Winter Meeting 2022 (pp. 101-101). Geoscience Society of Iceland.

Lindqvist, T., Ruuska, E.,Kosonen, E., Hornborg, N., Skyttä, P. and Putkinen, N. (2022). Integrated modelling of bedrock surface and bedrock deformation zones for induced seismic risk assessments – improved constraints for thickness of sedimentary cover. In Pietari Skyttä, Kaisa Nikkilä, Esa Heilimo, Ilmo Kukkonen, Toni Veikkolainen, Fredrik Karell, Elena Kozlovskaya, Arto Luttinen, Vesa Nykänen, Markku Poutanen, Eija Tanskanen and Timo Tiira (Eds.).2022. LITHOSPHERE 2022: TWELFTH SYMPOSIUM ON STRUCTURE, COMPOSITION AND EVOLUTION OF THE LITHOSPHERE: PROGRAMME AND EXTENDED ABSTRACTS. Report-S, Vol. 72.

Mäntyniemi, P., Fülöp, L., Toro, G. and Okko, O. (2022). A Bayesian prior distribution of the maximum credible magnitude, Mmax, for Fennoscandia. Joint Nordic EPOS and 53rd Nordic Seismology Seminar: Abstracts for oral and poster presentations.

Rintamäki, A., Heimann, S., Dahm, T., and Hillers, G. (2022). Source mechanisms of earthquakes induced by the 2018 and 2020 geothermal stimulations in Espoo/Helsinki, southern Finland, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-7969, https://doi.org/10.5194/egusphere-egu22-7969, 2022.

Sadeghi-Bagherabadi, A., Eulenfeld, T., Vuorinen, T., Rintamäki, A. E., & Hillers, G. (2022). Magnitude estimates of earthquakes induced by the geothermal stimulations in Espoo/Helsinki, southern Finland: a comparison of different approaches. In EGU General Assembly 2022 https://doi.org/10.5194/egusphere-egu22-7486

Fülöp, L., Mäntyniemi, P., Junno, N., Oinonen, K. and Korja, A. (2021). Seismic source zone refinements of the Seismic-Risk project in Finland. Abstracts from the 52nd Nordic Seismology Meeting 2021.

Junno, N., Bäcklund, P., Tuomisaari, J. M., Oinonen, K., Veikkolainen, T., & Korja, A. (2021). How to deliver information on induced seismicity to the authorities and general public? In Geophysical Research Abstracts [EGU21-2732] https://doi.org/10.5194/egusphere-egu21-2732

Korja, A., & Junno, N. (2021). SEISMIC RISK – Mitigation of induced seismic risk in urban environments. In I. Kukkonen, T. Veikkolainen, S. Heinonen, F. Karell, E. Kozlovskaya, A. Luttinen, K. Nikkilä, V. Nykänen, M. Poutanen, P. Skyttä, E. Tanskanen, & T. Tiira (Eds.), LITHOSPHERE 2021: ELEVENTH SYMPOSIUM ON STRUCTURE, COMPOSITION AND EVOLUTION OF THE LITHOSPHERE: PROGRAMME AND EXTENDED ABSTRACTS (Vol. 71, pp. 61-62). (Report S; Vol. 71). https://www.seismo.helsinki.fi/ilp/lito2021/Lithosphere_2021_Symposium_…