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ГЕОЛОГИЯ, ПОИСКИ И РАЗВЕДКА ТВЕРДЫХ ПОЛЕЗНЫХ ИСКОПАЕМЫХ, МИНЕРАГЕНИЯ
ArticleName Интерпретация геолого-геофизических данных для изучения глубинного строения Кабульского массива
DOI 10.17580/gzh.2024.09.11
ArticleAuthor Таловина И. В., Мангал Ф., Смук Г. В., Крикун Н. С.
ArticleAuthorData

Санкт-Петербургский горный университет императрицы Екатерины II, Санкт-Петербург, Россия

Таловина И. В., зав. кафедрой, проф., д-р геол.-минерал. наук
Мангал Ф., аспирант
Смук Г. В., студент, georgii.smuk@gmail.com
Крикун Н. С., ассистент

Abstract

На основании анализа данных потенциальных полей и распределения землетрясений на территории Афганистана, а также изучения плотности и магнитной восприимчивости образцов офиолитов разработана петрофизическая глубинная модель по интерпретационному профилю через Кабульский блок. Выявлены предполагаемые особенности распределения офиолитовых комплексов в пределах региона и уточнены отдельные структуры сети тектонических нарушений. По результатам интерпретации составлена 3D-модель с блоковой зональностью, принятой в соответствии с концепцией тектоники литосферных плит.

keywords Афганистан, Кабульский массив, офиолитовые комплексы, анализ землетрясений, потенциальные поля, петрофизическое моделирование
References

1. Simoniya N. A. (Ed.). Encyclopedia of World’s Countries. Moscow : Ekonomika, 2004. 1319 p.
2. Gulbin Yu. L., Akbarpuran Khaiyati S. A., Sirotkin A. N. Mineral composition and thermobarometry of metamorphic rocks of Western Ny Friesland, Svalbard. Journal of Mining Institute. 2023. Vol. 263. pp. 657–673.
3. Tolstykh N. D., Krivolutskaya N. A., Kanhimbue L. S., Gongalsky B. I., Kuzmin I. A. Mineralogical zoning of the PGE-Cu-Ni orebodies in the central part of Oktyabrsky Deposit, Norilsk District, Russia. Mineralogical Magazine. 2024. DOI: 10.1180/mgm.2024.20
4. Galimov E. M., Kaminsky F. V. Diamond in the oceanic lithosphere. Volcanic diamonds and diamonds in ophiolites. Geochemistry International. 2021. Vol. 59, No. 1. pp. 1–11.
5. Polyanin V. S. Ophiolites of the Ural–Asia mobile belt : Structure, substance and minerageny evolution, models of formation of mineral deposits. Georesursy. 2006. No. 2(19). pp. 31–36.
6. Slavin V. I. Tectonics of Afghanistan. Moscow : Nedra, 1976. 205 p.
7. Gusev I. A. Tectonics of the Kabul Massif, Afghanistan : Thesis of Dissertation of Candidate of Geological and Mineralogical Sciences. Dushanbe, 1984. 19 p.
8. Egorov A. S., Bolshakova N. V., Kalinin D. F., Ageev A. S. Deep structure, tectonics and geodynamics of the Sea of Okhotsk region and structures of its folded frame. Journal of Mining Institute. 2022. Vol. 257. pp. 703–719.
9. Seminskii K. Zh. Hierarchy in the zone-block lithospheric structure of Central and Eastern Asia. Russian Geology and Geophysics. 2008. Vol. 49, No. 10. pp. 771–779.
10. Siehl A. Structural setting and evolution of the Afghan orogenic segment—A review. Geological Evolution of Central Asian Basins and the Western Tien Shan Range : Special Publications. London : Geological Society, 2017. Vol. 427. pp. 57–88.
11. Abdullah Sh., Chmyriov V. M. Geological Map of Afghanistan. Scale 1:500 000. Kabul, 1977.
12. Sirotkin A. N., Evdokimov A. N. Vendian age of igneous rocks of the Chamberlain valley area (Northern part of the Wedel Jarlsberg Land, Svalbard Archipelago). Journal of Mining Institute. 2022. Vol. 255. pp. 419–434.
13. Earthquake Data. U.S. Geological Survey. Available at: https://www.usgs.gov/programs/earthquake-hazards/science/earthquake-data (accessed: 15.07.2024).
14. Senchina N., Grigoriev G., Gulin V. Combining non-seismic and seismic information for geological understanding – a case study. Environmental Risks and Safety in Mechanical Engineering : International Scientific and Practical Conference. 2023. E3S Web of Conferences. 2023. Vol. 376. ID 01067.
15. Saibi H., Azizi M., Mogren S. Structural investigations of Afghanistan deduced from remote sensing and potential field data. Acta Geophysica. 2016. Vol. 64, Iss. 4. pp. 978–1003.
16. Gravity Grids & Models. Bureau Gravimetrique International. Available at: https://bgi.obs-mip.fr/grids-and-models-2/ (accessed: 15.07.2024).
17. Solano-Acosta J. D., Soesoo A., Hints R. New insights of the crustal structure across Estonia using satellite potential fields derived from WGM-2012 gravity data and EMAG2v3 magnetic data. Tectonophysics. 2023. Vol. 846. ID 229656.
18. Kosnyreva M. V., Zolotaya L. A. Interpretation of the potential fields of the area of Ladoga conductivity anomaly. Engineering and Mining Geophysics : Proceedings of the 14th Conference and Exhibition. Almaty, 2018. DOI: 10.3997/2214-4609.201800579
19. Azizi M., Saibi H. Integrating gravity data with remotely sensed data for structural investigation of the Aynak–Logar Valley, Eastern Afghanistan, and the surrounding area. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 2015. Vol. 8, No. 2. pp. 816–824.
20. Bonvalot S., Balmino G., Briais A., Kuhn M., Peyrefitte A. et al. World Gravity Map: Carte Gravimetrique Monocale. Scale 1:50 000 000. Paris : BGI-CGMW-CNES-IRD, 2012.
21. Gorodnitskiy A. M. (Ed.). Nature of Magnetic Anomalies and Structure of the Oceanic Crust. Moscow : Izdatelstvo VNIRO, 1996. 283 p.
22. Aleksandrova T. N., Chanturiya A. V., Kuznetsov V. V. Mineralogical and technological features and patterns of selective disintegration of ferruginous quartzites of the Mikhailovskoye deposit. Journal of Mining Institute. 2022. Vol. 256. pp. 517–526.
23. World Magnetic Model. National Centers for Environmental Information. Available at: https://www.ncei.noaa.gov/products/world-magnetic-model (accessed: 15.07.2024).
24. Ravat D. Reduction to Pole. Encyclopedia of Geomagnetism and Paleomagnetism. Encyclopedia of Earth Sciences Series. Dordrecht : Springer, 2007. pp. 856–858.
25. Movchan I. B., Shaygallyamova Z. I., Yakovleva A. A. Identification of structural control factors of primary gold ore occurrences by method of unmanned aeromagnetic survey by the example of the Neryungrisky district of Yakutia. Journal of Mining Institute. 2022. Vol. 254. pp. 217–233.
26. Senchina N. P. Euler deconvolution in the interpretation of the data of potential fields of the Kazan–Kazhimsky aulacogen. Mezhdunarodnyi nauchno-issledovatelskiy zhurnal. 2021. Vol. 11-2(113). pp. 7–13.
27. Blokh Yu. I. Interpretation of Gravitational and Magnetic Anomalies : Tutorial. Moscow, 2009. 232 p.
28. Filatov V. V., Ivanchenko V. S., Glukhikh I. I. Petrophysics. Petromagnetism in Mining Geophysics. Yekaterinburg : Izdatelstvo UGGU, 2011. 414 p.
29. Ivanchenko V. S., Bazhenova E. A., Popov M. P., Peleshko O. P. The study of magnetic susceptibility of rocks and izumrudnyj sludio in the Mariinsky emerald–beryllium deposit (Middle Urals). Uralskiy geofizicheskiy vestnik. 2018. No. 3(33). pp. 24–29.
30. Gaweish W. R., Marzouk H. H., Petrov A. V., Maraev I. A. Magnetic data interpretation to determine the depth of basement rocks and structural elements of Mandisha village, El-Bahariya oasis, Western desert, Egypt. Izvestiya Uralskogo gosudarstvennogo gornogo universiteta. 2019. No. 2(54). pp. 7–19.
31. Filippovich A. V. Physical and geological modeling of the Bodrak suite structures with regard to paleomagnetic data : Thesis of Dissertation of Candidate of Geological and Mineralogical Sciences. Moscow, 2022. 25 p.

32. Wheeler R. L., Bufe C. G., Johnson M. L., Dart R. L. Seismotectonic Map of Afghanistan, with Annotated Bibliography : Open-File Report 2005–1264. Reston : U.S. Geological Survey, 2005. 34 p.
33. Kalinin D. F., Egorov А. S., Bolshakova N. V. Oil and gas potential of the West Kamchatka coast and its relation to the structural and tectonic structure of the Sea of Okhotsk region based on geophysical data. Vestnik KRAUNTs. Nauki o Zemle. 2022. No. 1(53). pp. 59–75.
34. Glazunov V. V., Ageev A. S., Gorelik G. D., Sarapulkina T. V. Results of comprehensive geophysical studies on the search for crypts on the territory of suburban necropolis of Tauric Chersonese in the Karantinnaya Balka. Journal of Mining Institute. 2021. Vol. 247. pp. 12–19.
35. Nedosekova I. L. Carbonatite complexes of the South Urals: Geochemical features, ore mineralization, and geodynamic settings. Journal of Mining Institute. 2022. Vol. 255. pp. 349–368.
36. Sadykova Z. I., Movchan I. B., Yakovleva A. A., Goglev D. A. Technology for integrated geological and geophysical interpretation of data obtained using UAVS on the example of a site in the Murmansk region. Geology and Minerals of the West Ural : Collected Papers. Perm, 2023. No. 6(43). pp. 161–169.

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