Extended search
TECHNOLOGY OF MAPPING OF VOLCANOGENIC-SEDIMENTARY STRATA IN A COMPLEXLY DISLOCATED TERRIGENOUS STRUCTURE ACCORDING TO SEISMIC AND MAGNETIC EXPLORATION DATA (PECHORA SEA)
1 Lomonosov Moscow State University
2 RN-Shelf-Arctic, LLC
3 Russian Science and Research Geological Oil Institute
Journal: Geophysical research
Tome: 24
Number: 1
Year: 2023
Pages: 5-30
UDK: 550.83
DOI: 10.21455/gr2023.1-1
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Lygin
T.B I.V. TECHNOLOGY OF MAPPING OF VOLCANOGENIC-SEDIMENTARY STRATA IN A COMPLEXLY DISLOCATED TERRIGENOUS STRUCTURE ACCORDING TO SEISMIC AND MAGNETIC EXPLORATION DATA (PECHORA SEA)
// . 2023. Т. 24. № 1. С. 5-30. DOI: 10.21455/gr2023.1-1
@article{Lygin
T.BTECHNOLOGY2023,
author = "Lygin
T.B, I. V.",
title = "TECHNOLOGY OF MAPPING OF VOLCANOGENIC-SEDIMENTARY STRATA IN A COMPLEXLY DISLOCATED TERRIGENOUS STRUCTURE ACCORDING TO SEISMIC AND MAGNETIC EXPLORATION DATA (PECHORA SEA)
",
journal = "Geophysical research",
year = 2023,
volume = "24",
number = "1",
pages = "5-30",
doi = "10.21455/gr2023.1-1",
language = "English"
}
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Keywords: potential fields, magnetic exploration, seismic exploration, 3D modeling, seismomagnetic crosssection, Pe-chora Sea, Vashutkina-Talotinskaya fold-thrust zone.
Аnnotation: The geological efficiency of seismic exploration and, as a result, the reliability of structural constructions in areas of intense tectonic dislocations (normal, reverse and thrusts faults) is significantly reduced. At the same time, it is in such areas, that the presence of lithostratigraphic complexes contrasting in density or magnetic properties in the section and the abundance of subvertical boundaries provide prerequisites for the successful use of potential field methods (gravity exploration, magnetic exploration) to verify and supplement the structural interpretation of seismic exploration data. The paper presents the technology of complex interpretation of magnetic and seismic exploration data, tested on one of the objects of the Pechora Sea. In the course of the re-search, the connection of local magnetic anomalies with the seismic structural plan was established, which made it possible to identify and trace a magnetically active complex in the sedimentary strata with parameters typical of volcanogenic sedimentary rocks, weakly contrasting in seismic records. As a result of 3D modeling, the morphology of the roof and the base of the magnetic layer were determined, and the three-dimensional dis-tribution of magnetization was calculated. It is proved that the sources of local magnetic field anomalies, a priori considered as isolated intrusive massifs, are associated with the distribution of magnetization within a single stratified volcanogenic-sedimentary strata. The obtained result was used in the construction of an updated geological and geophysical model. The developed technology is recommended as one of the promising approaches for building seismomagnetic models in similar physical and geological situations.
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Bulychev A.A., Gilod D.A., Krivosheya K.V., Zaitsev A.N., Shreider A.A., Determination of the magnetization of the magnetoactive layer of the ocean, Vestnik Moskovskogo universiteta. Seriya 4: Geologiya (Bulle-tin of Moscow University. Series 4: Geology), 2005, no. 1, pp. 28-31. [In Russian].
Bulychev A.A., Gilod D.A., Kulikov E.Yu., Shreider A.A., Method of determination of magnetization in a layer Vestnik Moskovskogo universiteta. Seriya 4: Geologiya (Bulletin of Moscow University. Series 4: Geol-ogy), 1997, no. 5, pp. 59-67. [In Russian].
Bulychev A.A., Lygin I.V., Melikhov V.R., Chislennye metody resheniya zadach gravi- i magnitorazvedki (konspekt lektsii) (Numerical methods for solving problems of gravity and magnetic exploration (lecture notes)), Moscow, otdel operativnoi pechati Geologicheskogo fakul'teta MGU imeni M.V. Lomonosova, 2010, 164 p. [In Russian].
Chepigo L.S., Lygin I.V., Formal and informal regularization in solving the inverse problem of gravity explo-ration, in Sbornik tezisov dokladov konferentsii “Lomonosovskie chteniya 2021 goda. Sektsiya Geologi-ya. Podsektsiya geofiziki”. Moskva. MGU imeni M.V. Lomonosova, Rossiya, 20–29 aprelya 2021 g. (Col-lection of abstracts of reports “Lomonosov readings 2021. Section Geology. Subsection of geophysics”. Moscow. Lomonosov Moscow State University, Russia, April 20-29, 2021), Moscow, Izdatel'stvo MGTU im. N.E. Baumana, 2021, pp. 6-8. [In Russian].
Chernikov K.S., Gorbachev S.V., Golovanov D.Yu., Kleshchina L.N., Gravimetric and magnetometric data as a source of additional information about the geological structure of the Arctic shelf, in Sbornik tezisov Mezhdunarodnoi geologo-geofizicheskoi konferentsii i vystavki “GeoEvraziya-2019. Sovremennye tekhnologii izucheniya i osvoeniya nedr Evrazii” (Collection of abstracts of the International Geological and Geophysical Conference and Exhibition “GeoEurasia-2019. Modern technologies for the study and development of the bowels of Eurasia”), Tver', OOO “PoliPRESS”, 2019, pp. 86-91. [In Russian].
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Farooqui M.Y., Hou H.J., Li G., Wang Y., Yang F., Yin C., Zhao J., Evaluating Volcanic Reservoirs, Oilfield Review Spring, 2009, vol. 21, no. 1, pp. 36-47.
Filatova N.I., Mesozoic intraplate magmatism of the Arctic region and geodynamic conditions of its manifesta-tion, in Materialy IV Vserossiiskogo simpoziuma po vulkanologii i paleovulkanologii “Vulkanizm i geo-dinamika” (Proceedings of the IV All-Russian Symposium on Volcanology and Paleovolcanology “Vol-canism and Geodynamics”), Petropavlovsk-Kamchatskii, IViS DVO RAN, 2009, vol. 2, pp. 528-530. [In Russian]. http://www.kscnet.ru/ivs/conferences/simposium_4/abstr/abs4-77.pdf
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Gorodnitskiy A.M., Filin A.M., Malyutin Yu.D., Morskaya magnitnaya gradientnaya s"emka (Marine magnetic gradient survey), Moscow, Nauka, 2004, 140 p. [In Russian].
Komarnitsky V.M., Shipilov E.V., New geological data on magmatism of the Barents Sea, Doklady AN SSSR (Doklady Earth Sciences), 1991, vol. 320, no. 5, pp. 1203-1206. [In Russian].
Korago E.A., Evdokimov A.N., Stolbov N.M., Late Mesozoic and Cenozoic basal magmatism of the northwest of the continental margin of Eurasia, Trudy VNIIOkeangeologiya (Proceedings of VNIIOkeangeologiya), 2010, vol. 215, 174 p. [In Russian].
Korago E.A., Stolbov N.M., Magmatism in the Neogean geological history of the waters and coastal regions of the Russian Arctic, in Rossiiskaya Arktika: geologicheskaya istoriya, minerageniya, geoekologiya (The Russian Arctic: geological history, mineralogy, geoecology), St. Petersburg, VNIIOkeangeologiya, 2002, pp. 238-251. [In Russian].
Korago E.A., Timofeeva T.N., Magmatizm Novoi Zemli (v kontekste geologicheskoi istorii Barentsevo-Severokarskogo regiona) (Magmatism of Novaya Zemlya (in the context of the geological history of the Barents-North Caucasus region)), St. Petersburg, VNIIOkeangeologiya, 2005, 225 p. [In Russian].
Krivosheya K.V., Lygin I.V., Sokolova T.B., Shirokova T.P., Possibilities of modern gravity and magnetic ex-ploration in solving problems of oil and gas geology on the shelf, Delovoi zhurnal “Neftegaz.RU” (Busi-ness magazine “Neftegaz.RU”), 2019, no. 1, pp. 66-72. [In Russian].
Kuznetsov K., Lygin I., Bulychev A., Kiryukhina E., Analysis of opportunities spectral method for processing hydromagnetic survey, Engineering and Mining Geophysics 2021. European Association of Geoscien-tists & Engineers, vol. 2021, pp.1-5. [In Russian]. DOI: 10.3997/2214-4609.202152047.
Leibov M.B., Melikhov V.R., Shamaro A.M., Bulychev A.A., Uglov B.D., Gainanov A.G., Modern methods of improving the accuracy of marine magnetic surveys, in Morskaya geologiya i geofizika (Marine Geology and Geophysics), Moscow, VIEMS, 1988, 48 p. [In Russian].
Lygin I.V., Chepigo L.S., Kuznetsov K.M., Bulychev A.A., Tools for accounting a priori geological and geo-physical information in interactive density modeling, in Voprosy teorii i praktiki geologicheskoi inter-pretatsii geofizicheskikh polei. Materialy 48-i sessii Mezhdunarodnogo nauchnogo seminara im. D.G. Uspenskogo – V.N. Strakhova. Sbornik nauchnykh trudov (Questions of theory and practice of geological interpretation of geophysical fields. Materials of the 48th session of the International Scientific Seminar. D.G. Uspensky – V.N. Strakhov. Collection of scientific papers), St. Petersburg, Izdatel'stvo VSEGEI, 2022, pp. 151-154. [In Russian].
Lygin I.V., Myasoedov N.K., Tverdokhlebov D.N., Increasing the informativeness of geological models with the involvement of gravity and magnetic exploration data, in Trudy Mezhdunarodnoi geologo-geofizicheskoi konferentsii “GeoEvraziya 2018. Sovremennye metody izucheniya i osvoeniya nedr Ev-razii” (Proceedings of the International Geological and Geophysical Conference “GeoEurasia 2018. Modern methods of studying and developing the bowels of Eurasia”), Tver', OOO “PoliPRESS”, 2018, pp. 290-295. [In Russian].
Lygin I.V., Myasoedov N.K., Gorbachev S.V., Radaev I.N., Requirements for gravimetric survey in offshore geological explorations, in Proceedings of the 4th IAG Symposium on Terrestrial Gravimetry: Static and Mobile Measurements (TG-SMM 2016), 2016, pp. 68-70.
Lygin V.A., Differential magnetic survey in the water areas, Cand. Sci. (Eng.) Dissertation, Moscow, Lomono-sov Moscow State University, 1989, 245 p. [In Russian].
Melikhov V.R., Bulychev A.A., Shamaro A.M., A frequency method for solving the problem of separation of stationary and variable components of the geomagnetic field during hydromagnetic gradiometric sur-veys, in Elektromagnitnye issledovaniya (Electromagnetic research), Moscow, IZMIRAN, 1987, pp. 97-109. [In Russian].
Melikhov V.R., Leibov M.B., Uglov B.D., Lygin V.A., Prakticheskie voprosy povysheniya tochnosti morskikh magnitometricheskikh s"emok (Practical issues of improving the accuracy of marine magnetometric sur-veys), Dep. in VINITI, Moscow, VINITI, 1986, 140 p. [In Russian].
Priezzhev I.I., Construction of distributions of physical parameters of the medium according to gravity, magne-tometry and seismic data, Geofizika (Geophysics), 2005, no. 3, pp. 46-51. [In Russian].
Prishchepa O.M., Bogatsky V.I., Makarevich V.N., Chumakova O.V., Nikonov N.I., Kuranov A.V., New ideas about tectonic and oil and gas geological zoning of the Timan-Pechora oil and gas province, Nefte-gazovaya geologiya. Teoriya i praktika (Oil and gas geology. Theory and practice), 2011, vol. 6, no. 4, pp. 1-34. [In Russian]. http://www.ngtp.ru/rub/4/40_2011.pdf
Programmnoe obespechenie dlya interpretatsii dannykh gravirazvedki i magnitorazvedki GravMagInv (Soft-ware for gravity and magnetic interpretation, modeling and inversion GravMagInv), URL: www.gravmaginv.ru. Accessed 25.01.2021.
Sakulina T.S., Otchet: Provedenie kompleksnykh geologo-geofizicheskikh issledovanii (seismorazvedochnykh MOV OGT, KMPV GSZ, NSAP, gravimetricheskikh, magnitometricheskikh, gazogeokhimicheskikh) na opornom profile 4-AR (p-ov Taimyr – Zemlya Frantsa-Iosifa) s tsel'yu izucheniya glubinnogo stroeniya i utochneniya perspektiv neftegazonosnosti Barentsevo-Karskoi plity i zon ee sochleneniya s opredelen-nymi tektonicheskimi strukturami (Report: Carrying out complex geological and geophysical studies (seismic surveys of the OGT, KMPV GSZ, NSAP, gravimetric, magnetometric, gas-geochemical) at the reference profile 4-AR (Taimyr Peninsula – Franz Josef Land) in order to study the deep structure and clarify the prospects of oil and gas potential of the Barents-Kara Plate and its junction zones with certain tectonic structures), Moscow, RosGeolFond, 2007. [In Russian].
Shipilov E.V., Tarasov G.A., Regional'naya geologiya neftegazonosnykh osadochnykh basseinov Zapadno-Arkticheskogo shel'fa Rossii (Regional geology of oil and gas bearing sedimentary basins of the Western Arctic shelf of Russia), Apatity, Kol'skii nauchnyi tsentr RAN, 1998, 306 p. [In Russian].
Shipilov E.V., Yunov A.Yu., On the genesis of anticlinal structures of hydrocarbon deposits in the eastern part of the Barents Sea, Doklady Akademii nauk (Doklady Earth Sciences), 1995, vol. 342, no. 1, pp. 87-88. [In Russian].
Sokolova T.B., Lygin I.V., Ablya E.A., Lygin V.A., Detailed gravimetric and magnetometric works for the study of disjunctive tectonics of shelf and transition zones, in Trudy Mezhdunarodnoi geologo-geofizicheskoi konferentsii “GeoEvraziya 2018. Sovremennye metody izucheniya i osvoeniya nedr Ev-razii” (Proceedings of the International Geological and Geophysical Conference “GeoEurasia 2018. Modern methods of studying and developing the bowels of Eurasia”), Tver', OOO “PoliPRESS”, 2018, pp. 738-743. [In Russian].
Strakhov V.N., Metody interpretatsii gravitatsionnykh i magnitnykh anomalii: uchebnoe posobie po spetskursu (Methods for interpreting gravitational and magnetic anomalies: a textbook for a special course), Perm', PGU, 1984, 71 p. [In Russian].
Stupakova A.V., Structure and oil and gas potential of the Barents-Kara shelf and adjacent territories, Geologi-ya nefti i gaza (Geology of Oil and Gas), 2011, no. 6, pp. 99-115. [In Russian].
Stupakova A.V., Timan-Pechora basin. Structure and main stages of development, Georesursy (Georesources), 2017, Special Issue, Part 1, pp. 56-64. [In Russian]. DOI: http://doi.org/10.18599/grs.19.7
Vasilyeva E.A., Novoselov V.K., Geletukha M.I., Zestkova M.M., Podgotovka geologo-geofizicheskikh osnov k podschetu zapasov UV v vostochnoi chasti Pechorskogo morya, otsenke lokalizovannykh resursov i de-tal'nomu geologo-ekonomicheskomu raionirovaniyu Kol'sko-Kaninskoi monoklinali; otsenka perspek-tivnykh i prognoznykh lokalizovannykh resursov UV shel'fov Barentseva i Karskogo morei; podgotovka informatsii k litsenzionnym raundam i sozdanie edinoi bazy po Arkticheskomu shel'fu Rossiiskoi Feder-atsii. Otchet po goskontraktu № VK-02-06/349 ot 14.10.2003 (Preparation of geological and geophysical bases for the calculation of hydrocarbon reserves in the eastern part of the Pechora Sea, assessment of localized resources and detailed geological and economic zoning of the Kola-Kanin monocline; assess-ment of prospective and forecast localized hydrocarbon resources on the shelves of the Barents and Kara seas; preparation of information for licensing rounds and creation of a unified base on the Arctic shelf of the Russian Federation. Report on the state contract No. VK-02-06/349 dated 10/14/2003), Murmansk, FGUP “Sevmorneftegeofizika”, 2003, 509 p. [In Russian].
Blokh Yu.I., Interpretatsiya gravitatsionnykh i magnitnykh anomalii (Interpretation of gravitational and mag-netic anomalies), 2009, 232 p. [In Russian]. http://sigma3d.com/index.php/publications/books
Bulychev A.A., Gilod D.A., Krivosheya K.V., Zaitsev A.N., Shreider A.A., Determination of the magnetization of the magnetoactive layer of the ocean, Vestnik Moskovskogo universiteta. Seriya 4: Geologiya (Bulle-tin of Moscow University. Series 4: Geology), 2005, no. 1, pp. 28-31. [In Russian].
Bulychev A.A., Gilod D.A., Kulikov E.Yu., Shreider A.A., Method of determination of magnetization in a layer Vestnik Moskovskogo universiteta. Seriya 4: Geologiya (Bulletin of Moscow University. Series 4: Geol-ogy), 1997, no. 5, pp. 59-67. [In Russian].
Bulychev A.A., Lygin I.V., Melikhov V.R., Chislennye metody resheniya zadach gravi- i magnitorazvedki (konspekt lektsii) (Numerical methods for solving problems of gravity and magnetic exploration (lecture notes)), Moscow, otdel operativnoi pechati Geologicheskogo fakul'teta MGU imeni M.V. Lomonosova, 2010, 164 p. [In Russian].
Chepigo L.S., Lygin I.V., Formal and informal regularization in solving the inverse problem of gravity explo-ration, in Sbornik tezisov dokladov konferentsii “Lomonosovskie chteniya 2021 goda. Sektsiya Geologi-ya. Podsektsiya geofiziki”. Moskva. MGU imeni M.V. Lomonosova, Rossiya, 20–29 aprelya 2021 g. (Col-lection of abstracts of reports “Lomonosov readings 2021. Section Geology. Subsection of geophysics”. Moscow. Lomonosov Moscow State University, Russia, April 20-29, 2021), Moscow, Izdatel'stvo MGTU im. N.E. Baumana, 2021, pp. 6-8. [In Russian].
Chernikov K.S., Gorbachev S.V., Golovanov D.Yu., Kleshchina L.N., Gravimetric and magnetometric data as a source of additional information about the geological structure of the Arctic shelf, in Sbornik tezisov Mezhdunarodnoi geologo-geofizicheskoi konferentsii i vystavki “GeoEvraziya-2019. Sovremennye tekhnologii izucheniya i osvoeniya nedr Evrazii” (Collection of abstracts of the International Geological and Geophysical Conference and Exhibition “GeoEurasia-2019. Modern technologies for the study and development of the bowels of Eurasia”), Tver', OOO “PoliPRESS”, 2019, pp. 86-91. [In Russian].
Drachev S.S., Malyshev N.A., Nikishin A.M., Tectonic history and petroleum geology of the Russian Arctic Shelves, Geological society, London, Petroleum Geology Conference Series, 2011, vol. 7, pp. 591-619.
Farooqui M.Y., Hou H.J., Li G., Wang Y., Yang F., Yin C., Zhao J., Evaluating Volcanic Reservoirs, Oilfield Review Spring, 2009, vol. 21, no. 1, pp. 36-47.
Filatova N.I., Mesozoic intraplate magmatism of the Arctic region and geodynamic conditions of its manifesta-tion, in Materialy IV Vserossiiskogo simpoziuma po vulkanologii i paleovulkanologii “Vulkanizm i geo-dinamika” (Proceedings of the IV All-Russian Symposium on Volcanology and Paleovolcanology “Vol-canism and Geodynamics”), Petropavlovsk-Kamchatskii, IViS DVO RAN, 2009, vol. 2, pp. 528-530. [In Russian]. http://www.kscnet.ru/ivs/conferences/simposium_4/abstr/abs4-77.pdf
Gordin V.M., Rose E.N., Uglov B.D., Morskaya magnitometriya (Marine magnetometry), Moscow, Nedra, 1986, 232 p. [In Russian].
Gorodnitskiy A.M., Filin A.M., Malyutin Yu.D., Morskaya magnitnaya gradientnaya s"emka (Marine magnetic gradient survey), Moscow, Nauka, 2004, 140 p. [In Russian].
Komarnitsky V.M., Shipilov E.V., New geological data on magmatism of the Barents Sea, Doklady AN SSSR (Doklady Earth Sciences), 1991, vol. 320, no. 5, pp. 1203-1206. [In Russian].
Korago E.A., Evdokimov A.N., Stolbov N.M., Late Mesozoic and Cenozoic basal magmatism of the northwest of the continental margin of Eurasia, Trudy VNIIOkeangeologiya (Proceedings of VNIIOkeangeologiya), 2010, vol. 215, 174 p. [In Russian].
Korago E.A., Stolbov N.M., Magmatism in the Neogean geological history of the waters and coastal regions of the Russian Arctic, in Rossiiskaya Arktika: geologicheskaya istoriya, minerageniya, geoekologiya (The Russian Arctic: geological history, mineralogy, geoecology), St. Petersburg, VNIIOkeangeologiya, 2002, pp. 238-251. [In Russian].
Korago E.A., Timofeeva T.N., Magmatizm Novoi Zemli (v kontekste geologicheskoi istorii Barentsevo-Severokarskogo regiona) (Magmatism of Novaya Zemlya (in the context of the geological history of the Barents-North Caucasus region)), St. Petersburg, VNIIOkeangeologiya, 2005, 225 p. [In Russian].
Krivosheya K.V., Lygin I.V., Sokolova T.B., Shirokova T.P., Possibilities of modern gravity and magnetic ex-ploration in solving problems of oil and gas geology on the shelf, Delovoi zhurnal “Neftegaz.RU” (Busi-ness magazine “Neftegaz.RU”), 2019, no. 1, pp. 66-72. [In Russian].
Kuznetsov K., Lygin I., Bulychev A., Kiryukhina E., Analysis of opportunities spectral method for processing hydromagnetic survey, Engineering and Mining Geophysics 2021. European Association of Geoscien-tists & Engineers, vol. 2021, pp.1-5. [In Russian]. DOI: 10.3997/2214-4609.202152047.
Leibov M.B., Melikhov V.R., Shamaro A.M., Bulychev A.A., Uglov B.D., Gainanov A.G., Modern methods of improving the accuracy of marine magnetic surveys, in Morskaya geologiya i geofizika (Marine Geology and Geophysics), Moscow, VIEMS, 1988, 48 p. [In Russian].
Lygin I.V., Chepigo L.S., Kuznetsov K.M., Bulychev A.A., Tools for accounting a priori geological and geo-physical information in interactive density modeling, in Voprosy teorii i praktiki geologicheskoi inter-pretatsii geofizicheskikh polei. Materialy 48-i sessii Mezhdunarodnogo nauchnogo seminara im. D.G. Uspenskogo – V.N. Strakhova. Sbornik nauchnykh trudov (Questions of theory and practice of geological interpretation of geophysical fields. Materials of the 48th session of the International Scientific Seminar. D.G. Uspensky – V.N. Strakhov. Collection of scientific papers), St. Petersburg, Izdatel'stvo VSEGEI, 2022, pp. 151-154. [In Russian].
Lygin I.V., Myasoedov N.K., Tverdokhlebov D.N., Increasing the informativeness of geological models with the involvement of gravity and magnetic exploration data, in Trudy Mezhdunarodnoi geologo-geofizicheskoi konferentsii “GeoEvraziya 2018. Sovremennye metody izucheniya i osvoeniya nedr Ev-razii” (Proceedings of the International Geological and Geophysical Conference “GeoEurasia 2018. Modern methods of studying and developing the bowels of Eurasia”), Tver', OOO “PoliPRESS”, 2018, pp. 290-295. [In Russian].
Lygin I.V., Myasoedov N.K., Gorbachev S.V., Radaev I.N., Requirements for gravimetric survey in offshore geological explorations, in Proceedings of the 4th IAG Symposium on Terrestrial Gravimetry: Static and Mobile Measurements (TG-SMM 2016), 2016, pp. 68-70.
Lygin V.A., Differential magnetic survey in the water areas, Cand. Sci. (Eng.) Dissertation, Moscow, Lomono-sov Moscow State University, 1989, 245 p. [In Russian].
Melikhov V.R., Bulychev A.A., Shamaro A.M., A frequency method for solving the problem of separation of stationary and variable components of the geomagnetic field during hydromagnetic gradiometric sur-veys, in Elektromagnitnye issledovaniya (Electromagnetic research), Moscow, IZMIRAN, 1987, pp. 97-109. [In Russian].
Melikhov V.R., Leibov M.B., Uglov B.D., Lygin V.A., Prakticheskie voprosy povysheniya tochnosti morskikh magnitometricheskikh s"emok (Practical issues of improving the accuracy of marine magnetometric sur-veys), Dep. in VINITI, Moscow, VINITI, 1986, 140 p. [In Russian].
Priezzhev I.I., Construction of distributions of physical parameters of the medium according to gravity, magne-tometry and seismic data, Geofizika (Geophysics), 2005, no. 3, pp. 46-51. [In Russian].
Prishchepa O.M., Bogatsky V.I., Makarevich V.N., Chumakova O.V., Nikonov N.I., Kuranov A.V., New ideas about tectonic and oil and gas geological zoning of the Timan-Pechora oil and gas province, Nefte-gazovaya geologiya. Teoriya i praktika (Oil and gas geology. Theory and practice), 2011, vol. 6, no. 4, pp. 1-34. [In Russian]. http://www.ngtp.ru/rub/4/40_2011.pdf
Programmnoe obespechenie dlya interpretatsii dannykh gravirazvedki i magnitorazvedki GravMagInv (Soft-ware for gravity and magnetic interpretation, modeling and inversion GravMagInv), URL: www.gravmaginv.ru. Accessed 25.01.2021.
Sakulina T.S., Otchet: Provedenie kompleksnykh geologo-geofizicheskikh issledovanii (seismorazvedochnykh MOV OGT, KMPV GSZ, NSAP, gravimetricheskikh, magnitometricheskikh, gazogeokhimicheskikh) na opornom profile 4-AR (p-ov Taimyr – Zemlya Frantsa-Iosifa) s tsel'yu izucheniya glubinnogo stroeniya i utochneniya perspektiv neftegazonosnosti Barentsevo-Karskoi plity i zon ee sochleneniya s opredelen-nymi tektonicheskimi strukturami (Report: Carrying out complex geological and geophysical studies (seismic surveys of the OGT, KMPV GSZ, NSAP, gravimetric, magnetometric, gas-geochemical) at the reference profile 4-AR (Taimyr Peninsula – Franz Josef Land) in order to study the deep structure and clarify the prospects of oil and gas potential of the Barents-Kara Plate and its junction zones with certain tectonic structures), Moscow, RosGeolFond, 2007. [In Russian].
Shipilov E.V., Tarasov G.A., Regional'naya geologiya neftegazonosnykh osadochnykh basseinov Zapadno-Arkticheskogo shel'fa Rossii (Regional geology of oil and gas bearing sedimentary basins of the Western Arctic shelf of Russia), Apatity, Kol'skii nauchnyi tsentr RAN, 1998, 306 p. [In Russian].
Shipilov E.V., Yunov A.Yu., On the genesis of anticlinal structures of hydrocarbon deposits in the eastern part of the Barents Sea, Doklady Akademii nauk (Doklady Earth Sciences), 1995, vol. 342, no. 1, pp. 87-88. [In Russian].
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