Marek Jarosiński

Marek Jarosiński

Associate Professor

D.Sc.: 2008, Polish Geological Institute - National Research Institute, Warsaw, Poland

D.Sc. thesis: Study of the present-day geodynamics of the lithosphere in Poland      

     

Ph.D.: 1998, Polish Geological Institute - National Research Institute, Warsaw, Poland

Ph.D. thesis: Study of present-day stress of the Earth's crust based on deep borehole data from Poland   

        

M.Sc.:1984, Geological Department, Warsaw University, Poland

M.Sc. thesis: Geological structure of Roztocze Lubelskie, near Frampol

 

ResearchGate

E-mail: marek.jarosinski(at)pgi.gov.pl

Phone: (+48) 22 45 92 554 

 

Research Experiences:

  • Tectonics of sedimentary rocks complexes based on outcrop, borehole and geophisical data 

  • Present-day tectonic stress measurements in boreholes

  • Lithospheric stress and strain FEM modeling  

  • Lithospheric heat transfer modeling by numerical and analytical methods.

  • Geodetic strain interpretation and integration into geodynamic model of the lithosphere

  • Structural and geomechanical control on hydrocarbon production and underground storage

  • Assessment of geodynamic hazard for nuclear power plant location.  

 

Publications: author of 65 peer-reviewd publications, including:

  1. Olkowicz, M., Bobek, K., Jarosiński, M., & Pachytel, R. 2021. Comparison of joint sets orientation in the Lower Paleozoic shales exposed in Scania (SW Sweden) and concealed in N Poland: a multi-methodological approach. Geological Quarterly, 65(4), 65-63

  2. Piłacik A, Jarosiński M., 2021. Present-day stress profile in the Baltic Basin sedimentary succession constrained by drilling-induced structures: interpretation uncertainties. Geological Quarterly, 65: 51 DOI: http://dx.doi.org/10.7306/gq.1620 

  3. Trzeciak, M., Dabrowski, M., Jarosiński M., 2019. Stress distribution models in layered, viscoelastic sedimentary basins under tectonic and glacial loads. Geophys. J. Int., accepted.

  4. Wojtowicz, M., Jarosiński, M., 2019. Reconstructing the mechanical parameters of a transversely-isotropic rock based on log and incomplete core data integration. International Journal of Rock Mechanics and Mining Sciences, 115: 111–120.

  5. Szymczak P. Kwiatkowski, K., Jarosiński, M., Kwiatkowski, K., 2019. Wormhole formation during acidization of calcite-cemented fractures in shales. SPE Journal, 24 (2): 1-16.

  6. Bobek K., Jarosiński M., 2018, Parallel structural interpretation of drill cores and microresistivity scanner images from gas-bearing shale (Baltic Basin, Poland), Interpretation

  7. Gajek W., Trojanowski J., Malinowski M. and Jarosiński M., 2018 Results of downhole microseismic monitoring at a hydraulic fracturing site in Poland, Part 1: Events location and stimulation performance. Interpretation, vol. 6 (3): SH39-SH48.

  8. Bobek, K., Jarosiński M. and Pachytel R. 2017. Tectonic structures in shale that you do not include in your reservoir model. American Rock Mechanics Assoc. Publ. 17-79.

  9. Pachytel R., Jarosiński M. and Bobek, K., 2017. Geomechanical stratification in a shale reservoir and its correlation with natural fractures: case from Pomeranian Basin (Poland). American Rock Mechanics Assoc. Publ. 17-79.

  10. Araszkiewicz, A., Figurski M., Jarosiński M., 2016. Erroneous GNSS Strain Rate Patterns and their Application to Investigate the Tectonic Credibility of GNSS Velocities. Acta Geophysica,57: DOI: 10.1515/acgeo-2016-0057

  11. Bogusz J., Kłos A., Figurski M., Jarosiński M., Kontny B., 2013. Investigation of the reliability of local strain analysis by means of the triangle modelling. Acta Geodynamica et Geomaterialia, 10 (3): 93–305.

  12. Aagaard P., Balaz P., Cortes V., Hasse H., Holmes J., Huppert H., Jarosinski M., Kalaydjian F., Kaskel S., Laenen B., Lemos de Sousa M., Mazzotti M., Morris J., Niemi A., Swennen R., Tier S., Wiemer S., 2013. Carbon capture and storage in Europe. European Academies Science Advisory Council, Policy Report 20, ISBN: 978-3-8047-3180-6: 1-87.

  13. Jarosiński M. 2012. Compressive deformations and stress propagation in intracontinental lithosphere: finite element modeling along the Dinarides-East European Craton profile. Tectonophysics, 526–529: 24–41.

  14. Jarosinski, M., Beekman, F., Matenco L., Cloetingh, S., 2011. Mechanics of basin inversion: finite element modelling of the Pannonian Basin System. Tectonophysics, 502: 121-145.

  15. Jarosiński M., Poprawa P., Ziegler P. 2009. Cenozoic dynamic evolution of the Polish Platform. Geological Quarterly, 53: 3-26.

  16. Reicherter K., Froitzheim, Jarosiński, M., 2008. Alpine tectonics north of the Alps. In: Geology of Central Europe volume 2: Mesozoic and Cenozoic T.McCann (ed.). Geological Society, London, 2008: 1234-1285.

  17. Jarosiński M., Kryński J., Rogowski B., 2007. Study of the relationship between the tectonic stress and the deformation of the lithosphere in the territory of Poland – a new geodynamic research project. Reports on Geodesy, 83 (2): 109-116.

  18. Narkiewicz M., Jarosiński M., Krzywiec P., Waksmundzka M.I., 2007. Regionalne uwaunkowania rozwoju i inwersji basenu lubelskiego w dewonie i karbonie. Biuletyn PIG, 422: 19-34.

  19. Zuchiewicz W., Badura J., Jarosiński M., 2007. Neotectonics of Poland: an overview of active faulting. Studia Quaternaria, 24: 5-20.

  20. Jarosiński M., Dąbrowski M., 2006. Modele reologiczne litosfery w poprzek szwu transeuropejskiego w północnej i zachodniej części Polski. Prace PIG, 188: 143-166.

  21. Mazur S., Jarosiński M., 2006. Budowa geologiczna głębokiego podłoża platformy paleozoicznej południowo-zachodniej Polski w świetle wyników eksperymentu sejsmicznego POLONAISE'97. Prace PIG, 188: 203-222.

  22. Jarosiński M., 2006. Recent tectonic stress field investigations in Poland: a state of the art. Geol. Quarterly, 50: 303-321.

  23. Jarosiński M., 2006. Źródła współczesnych naprężeń tektonicznych w Europie Środkowej w świetle modelowań elementami skończonymi. Prz. Geol., 54: 700-709.

  24. Jarosiński, M., Beekman, F., Bada, G., Cloetingh, S., 2006. Redistribution of recent collision push and ridge push in Central Europe: insights from FEM modelling. Geophys. J. Int., 167: 860-880.

  25. Jarosiński M., 2005. Ongoing tectonic reactivation of the Outer Carpathians and its impact on the foreland: Results of borehole breakout measurements in Poland, Tectonophysics, 410: 189-216

  26. Jarosiński M., 2005. Współczesny reżim tektoniczny w Polsce na podstawie analizy testów szczelinowania hydraulicznego ścian otworów wiertniczych. Prz. Geol., 53: 863-872

  27. Zuchiewicz, W., Tokarski, A. K., Jarosiński, M. & Márton, E., 2002. Late Miocene to recent-day structural development of the Polish segment of the Outer Carpathians. EGU Stephan Mueller Special Publication Series, 3: 185–202

  28. Jarosiński M., 1998. Contemporary stress field distortion in the Polish part of the Western Outer Carpathians and their basement. Tectonophysics, 297: 91-119