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Geoecological aspects of correlation of ring structures, regional anomalies of geophysical fields and mineral deposits

Earth Sciences and Natural Sciences , UDC: 504.4, 911.9, 528.88, 551.248 DOI: 10.25688/2076-9091.2022.45.1.3

Authors

  • Kharitonov Andrey Leonidovich Candidate of Physical and Mathematical Sciences

Annotation

The relevance of the research topic is due to the need for geoecological assessment of zones of ring morphological structures on the territory of the Eastern European Platform to identify natural and man-made risks in the development and operation of oil and gas and coal deposits. The use of remote aerospace methods (magnetic, gravitational, geothermal) in geoecological mapping of ring morphological structures significantly increases the informativeness and efficiency of predictive prospecting research, as well as increases the level of environmental safety in the development of deposits of combustible minerals.
Tags:
data decryption of satellite images , geoecological aspects of studying the features of the placement and exploration of deposits of combustible minerals , ring morphological structures

How to link insert

Kharitonov, A. L. (2022). Geoecological aspects of correlation of ring structures, regional anomalies of geophysical fields and mineral deposits Bulletin of the Moscow City Pedagogical University. Series "Pedagogy and Psychology", 2022, №1 (45), 27. https://doi.org/10.25688/2076-9091.2022.45.1.3
References
1. 1. Bryukhanov V. N., Glukhovsky N. Z., Stavtsev A. L. Ring structures of the Earth // Nature. 1977. № 10. S. 54–65. URL: http://neotec.ginras.ru/comrus/_bryuhanov-v-n-i-dr-1977-kolcevye-struktury-zemli.pdf
2. 2. Valyaev B. M. Unconventional resources and hydrocarbon accumulations: nature and specifics of oil and gas accumulation processes // Earth degassing: geotectonics, geodynamics, geofluids; oil and gas; hydrocarbons (Materials of the All-Russian Conference with international participation dedicated to the 100th anniversary of the birth of academician P. N. Kropotkin) / edited by A. N. Dmitrievsky, B. M. Valyaev. M.: GEOS, 2010. S. 85–90. URL: https://www.elibrary.ru/item.asp?id=22854256
3. 3. Kolosova L. N. Map of minerals of Russia. M.: GUGK, 1982. 1 л. URL: https://znanija.com/task/12309182
4. 4. Introduction to tectonic cartography / Yu. A. Kosygin, V. A. Kulyndyshev. M.: Nedra, 1981. 271 p. Table. Bibliography: Р. 261–269. URL: https://bgpu.ru/irbis/cgi-bin/irbis64r_14/cgiirbis_64.exe?LNG=&Z21ID=&I21DBN=BOOK&P21DBN=BOOK&S21S TN=1&S21REF=5&S21FMT=fullwebr&C21COM=S&S21CNR=20&S21P01=0&S21P0 2=1&S21P03=A=&S21STR=Kosygin,%20Yury%20Aleksandrovich
5. 5. Kudryavtsev N. A. On quantitative ratios between hydrocarbons of sedimentary rocks and oil // Geology of oil and gas. 1963a. № 9. S. 104–125. URL: http://www.geolib. ru/OilGasGeo/1963/09/Stat/stat09.html; http://www.geolib.ru/OilGasGeo/1963/09/Stat/stat09.html
6. 6. Lugovskaya A. M. Monitoring of the natural environment by the method of indications of common pine in the conditions of technogenesis of the Russian Plain: Dissertation for the degree of Doctor of Geographical Sciences. Voronezh, 2004. 400 p.
7. 7. Rotanova N. M., Kharitonov A. L., Frunze A. Kh. Anomalous magnetic fields from measurements on the SNAMR satellite for the territory of the Kursk magnetic anomaly // Geomagnetism and aeronomy. 2005. T. 45. № 5. S. 712–719. URL: https://www.elibrary.ru/item.asp?id=9218125
8. 8. Smirnov Y. B. Map of the heat flow of the territory of the USSR and neighboring territories. Scale 1: 10 000 000. M.: GUGK, 1980. 4 л. URL: https://e-catalog.nlb.by/Record/BY-NLB-rr44648670000/Details
9. 9. Soloviev V. V. (ed.) Map of morphostructures of the central type of territory of the USSR: [Maps]: Scale 1 : 10 000 000. M.: Aerogeology, 1981. 44 с. URL: https://search.rsl.ru/ru/record/01009408800
10. 10. Sokolov B. A., Piip V. P., Efimova E. A. Structure of the foundation of the central part of the East European Seismic Data Platform // Reports of the Russian Academy of Sciences. 1994. T. 336. № 1. S. 93–98. URL: https://kpfu.ru/staff_files/F_1211465147/Lekciya_5_GIS_geofizicheskie_issledovaniya_skvazhin.pdf
11. 11. Timurziev A. I. The myth of the “energy hunger” from Hubbert and the way to reproduce the resource base of Russia on the basis of the implementation of the Deep Oil project // Drilling and oil. 2019. № 1. S. 12–20. URL: https://www.elibrary.ru/item.asp?id=37088023
12. 12. Lantern G. A., Kharitonov A. L., Kharitonova G. P. Using space-time magnetometry methods for the analysis of the magnetic field measured on the SNAMR satellite // Bulletin of the Kamchatka regional organization Educational and Scientific Center. Series: Earth Sciences. 2007. № 10. S. 49–53. URL: https://www.elibrary.ru/item.asp?id=9899722
13. 13. Kharitonov A. L., Kharitonova G. P., Truong Quang Hao. Comparison of satellite geomagnetic data with terrestrial measurement of radon concentration to detect earthquake precursors (using the example of the California seismic region) // Bulletin of the Kamchatka regional organization Educational and Scientific Center. Series: Earth Sciences. 2009. № 13. S. 170–177. URL: https://www.elibrary.ru/item.asp?id=12794858
14. 14. Gravity anomaly map of Asia. Scale 1:9000000 // Published by the Aeronautical Chart and Information Center. US Air Force. 1971. 4 p. URL: https://catalogue.nla.gov.au/Record/2189306
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