ASSOCIATE PROFESSOR IG PAS

tel. +48 12 292 38 11
e-mail: rudzin@igf.edu.pl

Education

  • 2019-Habilitated Doctor in Earth Sciences, specializing in Geophysics, Institute of Geophysics, Polish Academy of Sciences.
  • 2012 – Doctor of Earth Sciences (Ph.D.) in Geophysics, Institute of Geophysics, Polish Academy of Sciences.
  • 2005 – Master of Science in Geology, specialization in Geophysics, University of Silesia in Katowice.

Employment

  • since 01.08.2020 – Professor at the Department of Seismology, Institute of Geophysics, Polish Academy of Sciences
  • 01.08.2020 –  30.09.2023 – Head of the Seismology Department, Institute of Geophysics, Polish Academy of Sciences
  • 06.2008 – 03.2012 – Geophysicist Specialist at the Department of Seismology and Physics of the Earth’s Interior, Institute of Geophysics, Polish Academy of Sciences
  • 10.2005 – 06.2010 – Doctoral Program Student at the Institute of Geophysics, Polish Academy of Sciences,
  • 01.04.2012 – 31.07.2020 – Assistant Professor at the Department of Seismology and Physics of the Earth’s Interior, Institute of Geophysics, Polish Academy of Sciences

Areas of Research

  • Seismometry and Observational Seismology
  • Anthropogenic Seismicity
  • Seismic source

Membership

  • National Representative to the International Seismological Center (ISC)
  • National Representative to the European-Mediterranean Seismological Centre (EMSC)
  • Member of WG10 – Infrastructure for Georesources, EPOS Project
  • Member of THAIS (Teamwork for Hazard Assessment of Induced Seismicity)

International Interships

  • 12.2010 Greece, Aristotle University of Thessaloniki, Faculty of Geophysics
  • 11 – 12.2011 Germany, University of Hamburg, Institute of Geophysics
  • 01-02.201411.2014 Germany, Helmholtz-Centre Potsdam – GFZ German Research Centre for Geosciences

Selected publications

  • Staszek M., Rudziński Ł., Kwiatek G., 2021. Spatial and temporal multiplet analysis for identification of dominant fluid migration path at The Geysers geothermal field, California. Scientific Reports, 11(1), 23908, DOI: 
  • Ilieva, M., Rudziński, Ł., Pawłuszek-Filipiak, K., Lizurek, G., Kudłacik, I., Tondaś, D., Olszewska, D. (2020). Combined Study of a Significant Mine Collapse Based on Seismological and Geodetic Data—29 January 2019, Rudna Mine, Poland. Remote Sens. 12, 1570.
  • Orlecka-Sikora, B., Lasocki, S., Kocot, J., et al. (2020). An open data infrastructure for the study of anthropogenic hazards linked to georesource exploitation. Sci Data 7, 89 (2020). 
  • Alicja Caputa and Łukasz Rudziński, (2019), Source Analysis of Post-Blasting Events Recorded in Deep Copper Mine, Poland, Pure Appl. Geophys. DOI: 10.1007/s00024-019-02171-x
  • Łukasz Rudziński, Katarzyna Mirek, Janusz Mirek, (2019), Rapid ground deformation corresponding to a mining‑induced seismic event followed by a massive collapse, Natural Hazards (2019) 96:461–471, DOI: 10.1007/s11069-018-3552-0. 
  • Rudziński Ł., Cesca S., Talaga A., Koziarz E. (2017): Complex Mechanism of Rockburst observed on Polish Copper Mines, In: Proc. 9th Int. Symp. on Rockbursts and Seismicity in Mines – RaSiM9, November 15-17, Santiago, Chile (Vallejos J.A., ed.), Editec S.A., Santiago, Chile, pp. 87-92
  • Rudziński Ł., Dineva S. (2017):  Towards Energy Magnitude for Mining Induced Seismicity,  In: Proc. 9th Int. Symp. on Rockbursts and Seismicity in Mines – RaSiM9, November 15-17, Santiago, Chile (Vallejos J.A., ed.), Editec S.A., Santiago, Chile, pp. 189-195
  • Rudziński Ł., Lasocki S., Orlecka-Sikora B., Szepieniec T., Leptokaropoulos K., Garcia-Aristizabal A., Grasso J-R., Kwiatek G. and IS-EPOS and EPOS-IP teams (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: Proc. 9th Int. Symp. on Rockbursts and Seismicity in Mines – RaSiM9, November 15-17, Santiago, Chile (Vallejos J.A., ed.), Editec S.A., Santiago, Chile, pp. 15-22
  • Lasocki, S., Orlecka-Sikora, B., Mutke, G., Pytel, W., Rudziński, Ł. (2017): A catastrophic event in Rudna copper-ore mine in Poland on 29 November, 2016: what, how and why. In: Proc. 9th Int. Symp. on Rockbursts and Seismicity in Mines – RaSiM9, November 15-17, Santiago, Chile (Vallejos J.A., ed.), Editec S.A., Santiago, Chile, pp. 316-324
  • Rudziński Ł., Mirek J., Lizurek G. (2017): Identification of seismic doublets occurred on Rudna mine, Poland, Acta Geophysica Volume: 65, Issue: 2, Pages: 287–298 DOI:10.1007/s11600-017-0034-9
  • Talaga A.,Koziarz E., Rudziński Ł. (2017): Skomplikowany mechanizm pękania górotworu w warunkach działania kopalni głębinowej na podstawie zjawiska sejsmicznego z ZG Rudna w Polkowicach,  Przegląd Górniczy Tom: 73, Nr.: 4, Strony: 34-40
  • Rudziński Ł., Cesca S., 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, Vol 87, pp: 274-284 doi:10.1785/0220150150
  • Kozłowska M., 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. International Journal of Rock Mechanics and Mining Sciences 86 (2016) 5- 15, doi: dx.doi.org/10.1016/j.ijrmms.2016.03.024
  • Rudziński Ł., Lizurek G., (2015) Mechanizm zjawiska sejsmicznego oraz tąpnięcia w OZG Rudna w Polkowicach z 19.03.2013 r. z wykorzystaniem lokalnych i regionalnych sieci sejsmologicznych Cuprum : czasopismo naukowo-techniczne górnictwa rud, Zeszyt 3, strony: 61-72
  • Caputa A., Talaga A., Rudziński Ł., (2015) Analysis of post-blasting source mechanisms of mining-induced seismic events in Rudna copper mine, Poland Contemporary Trends in Geoscience, Tom 4(1), str. 26-38 doi: 10.1515/ctg-2015-0003.
  • Beata Orlecka-Sikora, Simone Cesca Stanisław Lasocki, Grzegorz Lizurek, Paweł Wiejacz and Łukasz Rudziński (2014): Seismogenesis of exceptional ground motion due to a sequence of mining induced tremors from Legnica-Głogów Copper District in Poland, Geophys. J. Int. (2014) doi: 10.1093/gji/ggu109
  • Lizurek, G., Rudziński, Ł., Plesiewicz, B., (2014): Mining induced seismic event on an inactive fault, Acta Geophysica, DOI: 10.2478/s11600-014-0249-y
  • Rudziński Ł. oraz W. Dębski (2013) Rozszerzenie techniki Podwójnych – Różnic z możliwością zastosowania do lokalizacji zjawisk sejsmicznych dla przykładu kopalnianej sieci sejsmologicznej Przegląd Górniczy 1/2013, UKD:622.33:622.83/84:622.1:550.8,
  • Rudziński Ł. (2013) Rozwiązanie mechanizmu zjawiska sejsmicznego poprzez inwersję sejsmogramów Przegląd Górniczy 5/2013 UKD 622.33:622.83/84:550.94
  • Rudziński Ł., Dębski W. (2012) Extending the double difference location technique—improving hypocenter depth determination, J. Seismol, (Online First) DOI 10.1007/s10950-012-9322-7
  • Orlecka-Sikora B., Lasocki S., Lizurek G., Rudziński Ł. (2012) Response of seismic activity in mines to the stress changes due to mining induced strong seismic events, International Journal of Rock Mechanics & Mining Sciences 53 (2012) 151–158,
  • Orlecka-Sikora B., Lizurek G., Rudziński Ł., (2011) Statyczny Transfer Naprężeń w procesie sejsmogenicznym na przykładzie kopalni “Rudna”, Przegląd Górniczy Nr 6 (1063) Tom 66 (CVII) 76-85, UKD: 622.343(438): 622.831.32: 551.24: 550.34: 550.348
  • Rudziński, Ł. Dębski, W. (2011) Extending the Double-Difference Location Technique to Mining Applications Part I: Numerical Study, Acta Geophysica vol. 59, no. 4 Aug. 2011, pp. 785-814 DOI: 10.2478/s11600-011-0021-5,
  • Wiejacz, P., Rudziński, Ł., 2010, Seismic Event of January 22, 2010 near Bełchatów, Poland, Acta Geophys. 58, 988-994,
  • Dębski W., Rudziński Ł., 2009, Pasywna tomografia sejsmiczna obszaru GZW. W: W. M. Zuberek, K. Jochymczyk (red.) Geneza i charakterystyka zagrożenia sejsmicznego w Górnośląskim Zagłębiu Węglowym, Wydawnictwo Uniwersytetu Śląskiego, Katowice.
  • Rudziński Ł., Dębski W., 2008, Relocation of mining – induced seismic events in the Upper Silesian Coal Basin, Poland, by a Double – Difference method. Acta Geodyn. Geomater. Vol 5, No 2 (150) 97 – 104,
  • Rudziński Ł., 2007, Relokalizacja wstrząsów górniczych z obszaru Górnośląskiego Zagłębia Węglowego metodą probabilistyczną. Prace Naukowe GIG Nr III/2007 373 – 378,
  • Rudziński Ł., Idziak A. F., 2006, Energy Distribution of induced Seismic Events Occuring In Wesoła Coalmine, Poland, Puls. Inst. Geophys. Pol. Acad. SC. M-29 (395).

Ważniejsze Projekty badawcze, ekspertyzy i konsultacje

  • Digital Research Infrastructure for Induced Seismicity for EPOS purposes (IS-EPOS), a project co-financed by the European Regional Development Fund under the Innovative Economy Operational Programme, since 2014, contractor
  • Analysis of Seismic Source Mechanisms Induced by Mining Activities Using the LUMINOES Surface Seismic Network – Internal IGF PAN Project: Principal Investigator
  • Analysis of Interactions between Natural and Mining-Induced Seismicity for Assessing Time-Variable Seismic Hazard – Coordinator: Prof. S. Lasocki, funded by the Ministry of Science and Higher Education, contributor
  • Development of an Expert Group in Geophysical Assessment and Monitoring of Nuclear Facility Sites in Poland – contributor
  • Determination of the Causes of Atypical Effects of Seismic Events Recorded at Field XX/1 on Surface Structures, KGHM-ZH-U-0144-2012 – contributor