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Reflection of the Petrophysical Basement Rocks Models in Geophysical Fields

  • O. M. MuravinaEmail author
  • V. N. Glaznev
  • V. I. Zhavoronkin
  • M. V. Mints
Conference paper
Part of the Springer Proceedings in Earth and Environmental Sciences book series (SPEES)

Abstract

The problems of using petrophysical data for studying deep structure of areas covered by sedimentary rocks are discussed. The correlation analysis of the density and gravity anomalies values revealed a complex character of the reflection of crystalline rocks of different density in anomaly of gravity field.

Keywords

Petrophysics Density of rocks Correlation analysis Gravity field Voronezh crystalline massif 

References

  1. Afanasyev, N. S. (2012). Petrophysics of the Earth’s crust VKM. Lithosphere of the Voronezh crystalline massif by geophysical and petrophysical data. Ed.: N.M. Chernyshov. Voronezh: Scientific Book, pp. 21–88. (in Russian).Google Scholar
  2. Buyanov, A. F., V. N. Glaznev, F. P. Mitrofanov and A. B. Raevsky. (1995). Three-dimensional modelling of the Lapland Granulite Belt and adjacent structures of the Baltic Shield from geophysical data. Geology of the eastern Finnmark – western Kola peninsula region. Geological Survey of Norway, Special Publication. Eds. D. Roberts, N. Nordgulen. V. 7, pp. 167–178.Google Scholar
  3. Galitchanina, L. D., V. N. Glaznev, F. P. Mitrofanov, O. Olesen and H. Henkel (1995) Surface density characteristics of the Baltic Shield and adjacent territories. Norges Geologiske Undersøkelse. Special Publication «Geology of the Eastern Finnmark - Western Kola Peninsula Region» . Proceedings of the 1st. International Barents Symposium «Geology and Minerals in the Barents Region» / Eds. D.Roberts, Ø.Nordgulen. V. 7, pp. 349–354.Google Scholar
  4. Glaznev, V. N, M. V. Mints and O. M. Muravina (2016). Density modeling of the central part of the East European platform. Vestnik KRAUNTS, Series of “Earth Sciences” T. 29, No. 1, pp. 53–63. (in Russian).Google Scholar
  5. Glaznev, V. N., O. M. Muravina, T. A. Voronova and V. M. Choline (2014). Evaluation of the thickness gravy-active layer of the crust of the Voronezh crystalline massif. Bulletin of VSU, Series “Geology”, No. 4, pp. 78–84. (in Russian).Google Scholar
  6. Glaznev, V.N., Mints, M.V., Muravina, O.M., Raevsky, A.B., Osipenko, L.G (2015a). Complex geological–geophysical 3D model of the crust in the southeastern Fennoscandian Shield: Nature of density layering of the crust and crust–mantle boundary. Geodynamics & Tectonophysics. V. 6, № 2, pp. 133–170.CrossRefGoogle Scholar
  7. Glaznev, V. N., O. M. Muravina, T. A. Voronova and E. B. Kislova (2015b). Thickness of the gravy-active layer of the upper crust of the Voronezh crystalline massif from the stochastic analysis of the gravity anomalies. The materials of the 42 session of the international seminar named D. G. Uspensky “The theory and practice of geological interpretation of geophysical fields”. Perm: MI UB RAS, pp. 46–48. (in Russian).Google Scholar
  8. Glaznev, V. N., T. A. Voronova, I. Yu. Antonova and O. M. Muravina (2015c). Methods and results of the 3D density modelling in studding construction of the upper crust of the Voronezh crystalline massif. The materials of the 42 session of the international seminar named D. G. Uspensky “The theory and practice of geological interpretation of geophysical fields”. Perm: MI UB RAS, pp. 49–52. (in Russian).Google Scholar
  9. Glaznev, V. N., V. I. Zhavoronkin, M. V. Mints, O. M. Muravina and N. E. Hovansky (2013) Petrodensity model and the gravitational effect of sedimentary cover of the Voronezh crystalline massif and its borders. The materials of the 40st session of the international seminar named D. G. Uspensky “The theory and practice of geological interpretation of geophysical fields” Moscow: IPE RAS, pp. 107–112. (in Russian).Google Scholar
  10. Glaznev, V. N., V. I. Zhavoronkin and O. M. Muravina (2012) Accounting of the gravitational effect of sedimentary cover of the Voronezh crystalline massif. Materials II school-seminar «Gordinskie chteniy». Moscow: IPE RAS, pp. 45–46. (in Russian).Google Scholar
  11. Kozlov, N. E., N. O. Sorokhtin, V. N. Glaznev, N. E. Kozlova, A. A. Ivanov, N. M. Kudryashov, E. V. Martynov, V. A. Tyuremnov, A. V. Matyushkin and L. G. Osipenko (2006). Geology of Archaean of the Baltic Shield. Saint-Petersburg, Nauka, 329 p. (in Russian).Google Scholar
  12. Muravina, O. M. (2016). Density model of the earth crust of the Voronezh crystalline massif. Bulletin of VSU, Series Geology, No. 1, pp. 108–114. (in Russian).Google Scholar
  13. Muravina, O. M. and V. N. Glaznev (2013) Some of the results of the statistical analysis of Petrophysical parameters of the sedimentary cover rocks of the Voronezh anticline. Materials 14-th International Conference «Physical-chemical and Petrophysical studies in Earth Sciences». Moscow: IPE RAS, pp. 190–193. (in Russian).Google Scholar
  14. Muravina, O. M. and V. N. Glaznev (2014). Structural-parametric models of Petrophysical parameters of sedimentary cover of the Voronezh anticline. News of the SB RANS. V. 44, No 1, pp. 81–87. (in Russian).Google Scholar
  15. Muravina, O. M. and V. N. Glaznev (2015) Methodology for integrated models of the lithosphere platform areas in conditions of incomplete information. Materials III school-seminar «Gordinskie chteniy». Moscow: IPE RAS, pp. 22–26. (in Russian).Google Scholar
  16. Muravina, O. M., V. N. Glaznev and V. I. Zhavoronkin (2013). Petrophysical characteristics of sedimentary cover of Voronezh anticlines. Bulletin of VSU, Series Geology, No. 1, pp. 189–196. (in Russian).Google Scholar
  17. Muravina, O. M. and V. I. Zhavoronkin (2015). Statistical analysis of the digital petrodensity map of the basement rocks for Voronezh crystalline massif. Bulletin of VSU, Series Geology, No. 2, pp. 94–99. (in Russian).Google Scholar
  18. Muravina, O. M., V. I. Zhavoronkin and V. N. Glaznev (2014a). The petrodensity model of the crystalline basement of the Voronezh crystalline massif. The materials of the 41st session of the international seminar named D. G. Uspensky “The theory and practice of geological interpretation of geophysical fields.” Yekaterinburg: IGF UB RAS, pp. 171–174. (in Russian).Google Scholar
  19. Muravina, O. M, V. I. Zhavoronkin and V. N Glaznev (2014b). Spatial analysis of the density distribution of Precambrian formations of the Voronezh crystalline massif. Collection of materials of the XV International Conference “Physical-Chemical and Petrophysical Studies in Earth Sciences”. Moscow, p. 171–173. (in Russian).Google Scholar
  20. Muravina, O. M, V. I. Zhavoronkin and V. N Glaznev (2015). Correlation analysis of the digital base map of the isodense of the Voronezh crystalline massif and the gravity field. The materials of the XV International Conference “Physical-Chemical and Petrophysical Studies in Earth Sciences”. Moscow, pp. 201–203. (in Russian).Google Scholar
  21. Muravina, O. M., V. I. Zhavoronkin and V. N. Glaznev (2016). The Petrodensity Map of the Voronezh crystalline massif. The materials of the 43-th session of the international seminar named D. G. Uspensky “The theory and practice of geological interpretation of geophysical fields”. Moscow: IFE RAS, pp. 133–136. (in Russian).Google Scholar
  22. Voronova, T. A. and V. N. Glaznev (2014). Three-dimensional density model of the granite massive from Hoper Megablock (Voronezh crystalline massif). The materials of the 41st session of the international seminar named D. G. Uspensky “The theory and practice of geological interpretation of geophysical fields”. Yekaterinburg: IGF UB RAS, pp. 82–84. (in Russian).Google Scholar
  23. Voronova, T. A. and O. M. Muravina (2014). Detailed density modelling of the upper crust for the Voronezh crystalline massif. Bulletin of VSU, Series “Geology”, No. 2, pp. 150–154. (in Russian).Google Scholar
  24. Voronova, T. A. and O. M. Muravina (2017). Optimization solving the inverse problem of gravimetry in the construction of detailed density model. The materials of the 44th session of the international seminar named D. G. Uspensky “The theory and practice of geological interpretation of geophysical fields”. Moscow: IPE RAS, pp. 114–116. (in Russian).Google Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  • O. M. Muravina
    • 1
    Email author
  • V. N. Glaznev
    • 1
  • V. I. Zhavoronkin
    • 1
  • M. V. Mints
    • 2
  1. 1.Voronezh State UniversityVoronezhRussia
  2. 2.Geological Institute of the RASMoscowRussia

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