COMPARISON OF GRAVIMETRIC AND SEISMOMETRIC MEASUREMENT RESULTS ON THE ICE OF THE SESTRORETSKY SPILL (SAINT PETERSBURG)
1 A.P. Karpinsky Russian Geological Research Institute
2 Empress Catherine II St. Petersburg Mining University
Journal: Geophysical research
Tome: 25
Number: 3
Year: 2024
Pages: 87-104
UDK: 550.8.05
DOI: 10.21455/gr2024.3-6
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Medvedev
N.P N.O. COMPARISON OF GRAVIMETRIC AND SEISMOMETRIC MEASUREMENT RESULTS ON THE ICE OF THE SESTRORETSKY SPILL (SAINT PETERSBURG)
// . 2024. Т. 25. № 3. С. 87-104. DOI: 10.21455/gr2024.3-6
@article{Medvedev
N.PCOMPARISON2024,
author = "Medvedev
N.P, N. O.",
title = "COMPARISON OF GRAVIMETRIC AND SEISMOMETRIC MEASUREMENT RESULTS ON THE ICE OF THE SESTRORETSKY SPILL (SAINT PETERSBURG)
",
journal = "Geophysical research",
year = 2024,
volume = "25",
number = "3",
pages = "87-104",
doi = "10.21455/gr2024.3-6",
language = "English"
}
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Keywords: relative gravimetry, gravimetry on ice, seismometry, ice sheet oscillating
Аnnotation: The article is devoted to solving the problem of reduced accuracy of ice gravimetric measurements compared to ground-based ones. This problem is relevant in northern regions with a large surface area of reservoirs and swamps. The purpose of the work is to improve the quality of ice gravimetric measurements to the quality level of ground-based surveys necessary to solve a wide range of prospecting and exploration tasks. Preliminary results of experimental and methodological studies on the ice of the Sestroretsky Spill are presented. Measurements of the gravitational field and the field of elastic deformations recorded by seismic sensors were tested during these studies. A series of observations were performed to assess the possibility of taking into account interference associated with the peculiarities of ice gravimetric surveys by recording ice surface dis-placement velocities with seismic sensors. The measurements were carried out in windy weather, when interference in icy conditions is especially high. Signals from CG-5 Scintrex Autograv, CG-6 Scintrex Autograv gravimeters and seismic sensors of the TELSS-403 telemetric seismic exploration system were compared. The observations were accompanied by recording the coordinates of the survey points. Additionally, studies were carried out on the shore to enable subsequent geological interpretation of the results and to compare the data obtained on the ice and on the shore in terms of dispersion level. There is a similarity of gravimeter signals and their noticeable difference from the original signals of seismic sensors. The difference is large in the frequency range – the peaks of the amplitude-frequency characteristics of gravimeters correspond to 0.1 and 0.2 Hz, of seismic sensors – to 10 Hz. At mathematical transformations of the seismic signal – filtering – it was possible to obtain a relatively significant correlation of gravimetric and seismometric measurement data, reaching 0.64 in the level of paired linear correlation coefficient. Potentially, in the future this may improve the quality of gravimetric da-ta obtained on ice.
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Golovan A.A., Vyazmin V.S., Methodology for conducting aerial gravimetric surveys and processing primary data from a cardless airborne gravimeter, Giroskopiya i navigatsiya (Gyroscopy and Navigation), 2023, vol. 31, no. 1, pp. 58-75. [In Russian].
Khudzinsky L.L., On efficiency of the different sensors for seismoacustic monitoring and wave polarization analysis, Geofizicheskie issledovanija (Geophysical Research), 2011, vol. 12, no. 2, pp. 48-56. [In Russian].
Kim D., Langley R., Toward the Ultimate RTK: The last challenges in long-range real-time kinematic applica-tions, in Proceedings of the 21st International Technical Meeting of the Satellite Division of the Institute of Navigation, Savannah, GA, Savannah International Convention Center, 2008, pp. 385-396.
Koneshov V.N., Nepoklonov V.B., Drobyshev M.N., Spiridonova E.S., Study of the fractal dimension of time se-ries of gravimetric observations, Geofizicheskie issledovaniya (Geophysical Research), 2020b, vol. 21, no. 2, pp. 5-18. [In Russian]. DOI: 10.21455/gr2020.2-1
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Malovitsky Y.P., Kogan L.I., Mistryukov Yu.M., Morskie geofizicheskie issledovaniya (Marine geophysical re-search), Moscow, Nedra, 1977, 375 p. [In Russian].
Malysheva D.A., Abramov D.V., Drobyshev M.N., Koneshov V.N., Effect of Meteorological Factors on the Lev-el of Microseismic Noise during Long-Term Gravimetric Observations, Seismic Instruments, 2019, vol. 55, pp. 10-16. https://doi.org/10.3103/S0747923919010109
Medvedev N.O., Senchina N.P., Budanov L.M., Trikolidi G.Yu., Justification of the applicability of ice gravime-try for searching for paleovalleys in the eastern part of the Gulf of Finland, in Voprosy teorii i praktiki geologicheskoi interpretatsii gravitatsionnykh, magnitnykh i elektricheskikh polei: Materialy 49-i sessii Mezhdunarodnogo seminara im. D.G. Uspenskogo – V.N. Strakhova, Ekaterinburg, 23–27 yanvarya 2023 goda (Questions of theory and practice of geological interpretation of gravitational, magnetic and electric fields: Proceedings of the 49th session of the D.G. Uspensky – V.N. Strakhov International Semi-nar, Yekaterinburg, January 23-27, 2023), Ekaterinburg, Y.P. Bulashevich Institute of Geophysics Ural Branch of the Russian Academy of Sciences, 2023, pp. 234-236. [In Russian].
Merkulov A.V., Filobokov E.I., Lokhvitskaya A.G., Introduction of gravimetric monitoring to control the devel-opment of gas fields on the shallow shelf of the Arctic seas, in Sbornik materialov 7-i nauchno-prakticheskoi konferentsii “Geobaikal 2022” (Collection of materials of the 7th scientific and practical conference “Geobaikal 2022”), Moscow, EAGE Geomodel LLC, 2023, pp. 85-88. [In Russian].
Mingaleva T., Gorelik G., Egorov A., Gulin V., Correction of depth-velocity models by gravity prospecting for hard-to-reach areas of the shelf zone, Mining Informational and Analytical Bulletin, 2022, no. 10-1, pp. 77-86.
Mogilevsky V.E., Kontarovich O.R., Aerogravimetry – an innovative technology in geophysics, Razvedka i okhrana nedr (Exploration and protection of mineral resources), 2011, no. 7, pp. 7-10. [In Russian].
Oja T., Türk K., Ellmann A., Gruno A., Bloom A., Sulaoja M., Relative gravity surveys on ice-covered water bodies, in Proceedings of the 8th International Conference Environmental Engineering, Vilnius, Lithua-nia, Vilnius Gediminas Technical University, 2011, 8 p. DOI: 10.13140/RG.2.2. 27974.16965
Operation Manual CG-5 Scintrex Autograv System, Toronto, Canada, Scintrex Ltd., 2012, 312 p.
Operation Manual CG-6 Scintrex Autograv System, Toronto, Canada, Scintrex Ltd., 2020, 71 p.
Parshin A.V., Grebenkin N.A., Morozov V.A., Rzhevskaya A.K., Shikalenko F.N., First results of methodological work on the use of unmanned airborne geophysical technologies at the stage of searching for uranium deposits, Razvedka i okhrana nedr (Exploration and protection of mineral resources), 2017, no. 11, pp. 59-64. [In Russian].
Shirokova T.P., Lygin I.V., Tokarev M.Yu., Zolotaya L.A., Sokolova T.B., Kuznetsov K.M., Fadeev A.A., Arutyunyan D.A., Lyubitskaya A.V., Shklyaruk A.D., Integration of ice gravimetric and magnetometric observations and marine seismic exploration in the Kandalaksha Bay of the White Sea, in Trudy IX Mezhdunarodnoi nauchno-prakticheskoi konferentsii “Morskie issledovaniya i obrazovanie (MARESEDU-2020)”. Moskva, 26–30 oktyabrya 2020 goda. T. 3 (Proceedings of the IX International Scientific and Practical Conference “Marine Research and Education (MARESEDU-2020)”. Moscow, Oc-tober 26-30, 2020. vol. 3), Tver, LLC “PoliPRESS”, 2020, pp. 425-428. [In Russian].
Spiridonov E.A., Atmospheric gravimetric effect, Geofizicheskie issledovanija (Geophysical Research), 2019, vol. 20, no. 3, pp. 45-70. [In Russian]. DOI: 10.21455/gr2019.3-4
Talovina I.V., Krikun N.S., Yurchenko Y.Y., Ageev A.S., Remote sensing techniques in the study of structural and geotectonic features of Iturup Island (the Kuril Islands), Journal of Mining Institute, 2022, vol. 254, pp. 158-172. DOI: 10.31897/PMI.2022.45
Ugalde H.A., L'Heureux E., Lachapelle R., Milkereit B., Measuring gravity on ice: An example from Wanapitei Lake, Ontario, Canada, Geophysics, 2006, vol. 71, pp. J23-J29. DOI: 10.1190/1.2189387
Zhuravlev V.A., Chelyshev S.V., Kochetov M.V., Experience of using the CHEKAN gravimeter and prospects for the development of marine gravimetry in JSC MAGE, in Voprosy teorii i praktiki geologicheskoi in-terpretatsii geofizicheskikh polei: Materialy 47-i sessii Mezhdunarodnogo nauchnogo seminara D.G. Uspenskogo – V.N. Strakhova, Voronezh, 27–30 yanvarya 2020 g. (Issues of theory and practice of geo-logical interpretation of geophysical fields: Materials of the 47th session of the International Scientific Seminar D.G. Uspensky – V.N. Strakhov, Voronezh, January 27-30, 2020), Voronezh, Publishing House- printing center “Scientific Book”, 2020, pp. 124-127. [In Russian].
Andreev D., Muhamadiev D., Perspective ways to improve the accuracy of measurements in modern gravity prospection, in 5th International Conference GeoBaikal 2018, Irkutsk, Aug 2018, vol. 2018, Bunnik, Netherlands, European Association of Geoscientists and Engineers, 2018, pp.1-6. DOI: https://doi.org/10.3997/2214-4609.201802064
Andreev D.S., Mikhailov S.A., Chernov M.L., The influence of seismic noise on high-precision gravity measure-ments – an unaccounted for interference or a new source of information?, in Sbornik materialov 7-i nauchno-prakticheskoi konferentsii “Geobaikal 2022” (Collection of materials of the 7th scientific and practical conference “Geobaikal 2022”), Moscow, EAGE Geomodel LLC, 2023, pp.85-88. [In Russian].
Babayants P.S., Brovkin G.I., Kontarovich O.R., Trusov A.A., Modern airborne gravimetry in Russia: status, problems, development prospects, in Voprosy teorii i praktiki geologicheskoi interpretatsii gravi-tatsionnykh, magnitnykh i elektricheskikh polei: Materialy 49-i sessii Mezhdunarodnogo seminara im. D.G. Uspenskogo – V.N. Strakhova, Ekaterinburg, 23–27 yanvarya 2023 goda (Questions of theory and practice of geological interpretation of gravitational, magnetic and electric fields: Proceedings of the 49th session of the D.G. Uspensky – V.N. Strakhov International Seminar, Yekaterinburg, January 23-27, 2023), Ekaterinburg, Y.P. Bulashevich Institute of Geophysics Ural Branch of the Russian Academy of Sciences, 2023, pp. 28-31. [In Russian].
Besedina A.N., Kabychenko N.V., Pavlov D.V., Volosov S.G., Instrumental Methods for Extending the Amplitude-Frequency Responses of a Geophone, Seismic Instruments, 2020, vol. 56, pp. 121-133. https://doi.org/10.3103/S0747923920020048
Brovkin G.I., Kontarovich O.R., Golovan A.A., Vyazmin V.S., Results of the first airborne gravimetric survey in Russia with a strapdown gravimeter, in Trudy IV Mezhdunarodnoi geologo-geofizicheskoi konferentsii i vystavki “GeoEvraziya-2021. Geologorazvedka v sovremennykh realiyakh”. Moskva, 2–4 marta 2021 goda. T. 2 (Proceedings of the IV International Geological and Geophysical Conference and Exhibition “GeoEurasia-2021. Geological exploration in modern realities”. Moscow, March 2-4, 2021, vol. 2), Tver, LLC “PoliPRESS”, 2021, pp. 107-111. [In Russian].
Budanov L.M., Sergeev A.Yu., Ryabchuk D.V., Zhamoida V.A., Khorikov V.I., Geoecological zoning of the bot-tom of the eastern part of the Gulf of Finland, Regional'naya geologiya i metallogeniya (Regional Geol-ogy and Metallogeny), 2019, no. 79, pp. 23-34. [In Russian].
Budanov L.M., Glazunov V.V., Sergeev A.Y., Kropachev Y.P., Mapping of buried valleys within the waters of the lake Sestroretsky spill according to complex geophysical studies, in 13th Conference and Exhibition Engineering Geophysics 2017, Kislovodsk, Apr 2017. V. 2017, Bunnik, Netherlands, European Associa-tion of Geoscientists and Engineers, 2017, pp. 1-8. DOI: 10.3997/2214-4609.201700398
Cummings D.I., Russell H.A.J., Sharpe D.R., Buried-valley aquifers in the Canadian Prairies: geology, hydroge-ology, and origin, Canadian Journal of Earth Sciences, 2012, vol. 49, pp. 987-1004. https://doi.org/10.1139/e2012-041
Dashko R.E., Karpova Y.A., Problems of engineering geology of Primorskiy district of Saint Petersburg associat-ed with the prospects of its underground space development, Journal of Mining Institute, 2013, vol. 206, pp. 16-21.
Dergach P.A., Yushin V.I., About the “extraordinary” capabilities of electrodynamic seismic receivers, Seismich-eskie pribory (Seismic Instruments), 2016, vol. 52, no. 4, pp. 33-42. [In Russian]. DOI: 10.21455/si2016.4-3
Drobyshev M.N., Koneshov V.N., Abramov D.V., Malysheva D.A., Improving the accuracy of gravimetric ob-servations using seismic information, Geofizicheskie issledovanija (Geophysical Research), 2021, vol. 22, no. 3, pp. 26-34. [In Russian].
Glazunov V.V., Bukatov A.A., Vakhoneev V.V., Panchenko V.V., The application of innovative geophysical technologies for the creation of geographic information systems for underwater archaeological sites, in Lecture Notes in Networks and Systems, Cham, Switzerland, Springer Nature, 2023, pp. 237-248.
Golovan A.A., Vyazmin V.S., Methodology for conducting aerial gravimetric surveys and processing primary data from a cardless airborne gravimeter, Giroskopiya i navigatsiya (Gyroscopy and Navigation), 2023, vol. 31, no. 1, pp. 58-75. [In Russian].
Khudzinsky L.L., On efficiency of the different sensors for seismoacustic monitoring and wave polarization analysis, Geofizicheskie issledovanija (Geophysical Research), 2011, vol. 12, no. 2, pp. 48-56. [In Russian].
Kim D., Langley R., Toward the Ultimate RTK: The last challenges in long-range real-time kinematic applica-tions, in Proceedings of the 21st International Technical Meeting of the Satellite Division of the Institute of Navigation, Savannah, GA, Savannah International Convention Center, 2008, pp. 385-396.
Koneshov V.N., Nepoklonov V.B., Drobyshev M.N., Spiridonova E.S., Study of the fractal dimension of time se-ries of gravimetric observations, Geofizicheskie issledovaniya (Geophysical Research), 2020b, vol. 21, no. 2, pp. 5-18. [In Russian]. DOI: 10.21455/gr2020.2-1
Koneshov V.N., Zheleznyak L.K., Mikhailov P.S., Pogorelov V.V., Solovyov V.N., Afanasyeva L.V., Develop-ment of technologies for marine gravimetric research in the Arctic, in Trudy IX Mezhdunarodnoi nauch-no-prakticheskoi konferentsii “Morskie issledovaniya i obrazovanie (MARESEDU-2020)”. Moskva, 26–30 oktyabrya 2020 goda. T. 3 (Proceedings of the IX International Scientific and Practical Conference “Marine Research and Education (MARESEDU-2020)”. Moscow, October 26-30, 2020. vol. 3), Tver, LLC “PoliPRESS”, 2020a, pp. 518-521. [In Russian].
Lygin I.V., Sokolova T.B., Kuznetsov K.M., Application of potential geophysical methods in engineering geolog-ical surveys in water areas, in Trudy IV Mezhdunarodnoi geologo-geofizicheskoi konferentsii i vystavki “GeoEvraziya-2021. Geologorazvedka v sovremennykh realiyakh”. Moskva, 2–4 marta 2021 goda. T. 2 (Proceedings of the IV International Geological and Geophysical Conference and Exhibition “GeoEura-sia-2021. Geological exploration in modern realities”. Moscow, March 2-4, 2021, vol. 2), Tver, LLC “Poli-PRESS”, 2021, pp. 183-186. [In Russian].
Malovitsky Y.P., Kogan L.I., Mistryukov Yu.M., Morskie geofizicheskie issledovaniya (Marine geophysical re-search), Moscow, Nedra, 1977, 375 p. [In Russian].
Malysheva D.A., Abramov D.V., Drobyshev M.N., Koneshov V.N., Effect of Meteorological Factors on the Lev-el of Microseismic Noise during Long-Term Gravimetric Observations, Seismic Instruments, 2019, vol. 55, pp. 10-16. https://doi.org/10.3103/S0747923919010109
Medvedev N.O., Senchina N.P., Budanov L.M., Trikolidi G.Yu., Justification of the applicability of ice gravime-try for searching for paleovalleys in the eastern part of the Gulf of Finland, in Voprosy teorii i praktiki geologicheskoi interpretatsii gravitatsionnykh, magnitnykh i elektricheskikh polei: Materialy 49-i sessii Mezhdunarodnogo seminara im. D.G. Uspenskogo – V.N. Strakhova, Ekaterinburg, 23–27 yanvarya 2023 goda (Questions of theory and practice of geological interpretation of gravitational, magnetic and electric fields: Proceedings of the 49th session of the D.G. Uspensky – V.N. Strakhov International Semi-nar, Yekaterinburg, January 23-27, 2023), Ekaterinburg, Y.P. Bulashevich Institute of Geophysics Ural Branch of the Russian Academy of Sciences, 2023, pp. 234-236. [In Russian].
Merkulov A.V., Filobokov E.I., Lokhvitskaya A.G., Introduction of gravimetric monitoring to control the devel-opment of gas fields on the shallow shelf of the Arctic seas, in Sbornik materialov 7-i nauchno-prakticheskoi konferentsii “Geobaikal 2022” (Collection of materials of the 7th scientific and practical conference “Geobaikal 2022”), Moscow, EAGE Geomodel LLC, 2023, pp. 85-88. [In Russian].
Mingaleva T., Gorelik G., Egorov A., Gulin V., Correction of depth-velocity models by gravity prospecting for hard-to-reach areas of the shelf zone, Mining Informational and Analytical Bulletin, 2022, no. 10-1, pp. 77-86.
Mogilevsky V.E., Kontarovich O.R., Aerogravimetry – an innovative technology in geophysics, Razvedka i okhrana nedr (Exploration and protection of mineral resources), 2011, no. 7, pp. 7-10. [In Russian].
Oja T., Türk K., Ellmann A., Gruno A., Bloom A., Sulaoja M., Relative gravity surveys on ice-covered water bodies, in Proceedings of the 8th International Conference Environmental Engineering, Vilnius, Lithua-nia, Vilnius Gediminas Technical University, 2011, 8 p. DOI: 10.13140/RG.2.2. 27974.16965
Operation Manual CG-5 Scintrex Autograv System, Toronto, Canada, Scintrex Ltd., 2012, 312 p.
Operation Manual CG-6 Scintrex Autograv System, Toronto, Canada, Scintrex Ltd., 2020, 71 p.
Parshin A.V., Grebenkin N.A., Morozov V.A., Rzhevskaya A.K., Shikalenko F.N., First results of methodological work on the use of unmanned airborne geophysical technologies at the stage of searching for uranium deposits, Razvedka i okhrana nedr (Exploration and protection of mineral resources), 2017, no. 11, pp. 59-64. [In Russian].
Shirokova T.P., Lygin I.V., Tokarev M.Yu., Zolotaya L.A., Sokolova T.B., Kuznetsov K.M., Fadeev A.A., Arutyunyan D.A., Lyubitskaya A.V., Shklyaruk A.D., Integration of ice gravimetric and magnetometric observations and marine seismic exploration in the Kandalaksha Bay of the White Sea, in Trudy IX Mezhdunarodnoi nauchno-prakticheskoi konferentsii “Morskie issledovaniya i obrazovanie (MARESEDU-2020)”. Moskva, 26–30 oktyabrya 2020 goda. T. 3 (Proceedings of the IX International Scientific and Practical Conference “Marine Research and Education (MARESEDU-2020)”. Moscow, Oc-tober 26-30, 2020. vol. 3), Tver, LLC “PoliPRESS”, 2020, pp. 425-428. [In Russian].
Spiridonov E.A., Atmospheric gravimetric effect, Geofizicheskie issledovanija (Geophysical Research), 2019, vol. 20, no. 3, pp. 45-70. [In Russian]. DOI: 10.21455/gr2019.3-4
Talovina I.V., Krikun N.S., Yurchenko Y.Y., Ageev A.S., Remote sensing techniques in the study of structural and geotectonic features of Iturup Island (the Kuril Islands), Journal of Mining Institute, 2022, vol. 254, pp. 158-172. DOI: 10.31897/PMI.2022.45
Ugalde H.A., L'Heureux E., Lachapelle R., Milkereit B., Measuring gravity on ice: An example from Wanapitei Lake, Ontario, Canada, Geophysics, 2006, vol. 71, pp. J23-J29. DOI: 10.1190/1.2189387
Zhuravlev V.A., Chelyshev S.V., Kochetov M.V., Experience of using the CHEKAN gravimeter and prospects for the development of marine gravimetry in JSC MAGE, in Voprosy teorii i praktiki geologicheskoi in-terpretatsii geofizicheskikh polei: Materialy 47-i sessii Mezhdunarodnogo nauchnogo seminara D.G. Uspenskogo – V.N. Strakhova, Voronezh, 27–30 yanvarya 2020 g. (Issues of theory and practice of geo-logical interpretation of geophysical fields: Materials of the 47th session of the International Scientific Seminar D.G. Uspensky – V.N. Strakhov, Voronezh, January 27-30, 2020), Voronezh, Publishing House- printing center “Scientific Book”, 2020, pp. 124-127. [In Russian].