Features of the deep structure, geotectonic position, and evolutionary history of the Zmeinogorsk-Bystrushinsky trough of Rudny Altai

This article substantiates the deep structure features and the sequence of manifestation of the geodynamic settings of Rudny Altai, which determine the distribution patterns of endogenous pyrite-polymetallic mineralization. To solve the issue at the regional level, a body of geological and geophysical data was interpreted (remote sensing maps, digital models of potential fields, geophysical sections of various types, including seismic data from the WAR geotraverse “Basalt”). When performing detailed paleoreconstructions within the Zmeinogorsk-Bystrushinsky trough, local seismic data were used. The evolutionary development model of the region is presented in the form of a set of paleosections reflecting changes in structural and material parameters at the main stages of the evolutionary development of the region in the geodynamic settings of the active continental margin and the fold-thrust belt of the collision orogen.

1. Atlas «Opornye geologo-geofizicheskie profili Rossii». Glubinnye seysmicheskie razrezy po profilyam GSZ, otrabotannym v period s 1972 po 1995 [Electronic edition Atlas Basic geological and geophysical profiles of Russia”. Deep seismic sections according to the profiles of the GSZ, worked out in the period from 1972 to 1995]. URL: https://vsegei.ru/ru/info/seismic/// (05.05.2023).

2. Balk P. I., Dolgal’ A. S. Additivnye metody resheniya obratnykh zadach gravirazvedki i magnitorazvedki [Additive methods for solving inverse problems gravity and magnetic exploration]. Nauchnyy mir. Moscow, 2020, 456 p.

3. Volkov V. V. Problemy plitnoy tektoniki v regional’noy geologii Altae-Sayanskoy skladchatoy oblasti [Problems of plate tectonics in the regional geology of the Altai-Sayan folded region]. Regional’naya geologiya i metallogeniya, 2013, no. 54, pp. 38–44.

4. Didenko A. N., Mossakovsky A. A., Pechersky D. M., Ruzhentsev S. V., Samygin S. G., Kheraskovat T. N. Geodinamika paleozoyskikh okeanov Tsentral’noy Azii [Geodynamics of the Paleozoic oceans of Central Asia]. Geologiya i geofizika, 1994, vol. 35 (7–8), pp. 59–75.

5. Geologicheskiy otchet o rabotakh po sostavleniyu i podgotovke k izdaniyu komplekta Gosudarstvennoy geologicheskoy karty masshtaba 1 : 200 000 na Zmeinogorskoy ploshchadi, listy M-44-X, M-44-XI (Rossiyskaya chast’) v 1996–2000 [Geological report on the work on the compilation and preparation for publication of a set of the State Geological Map on a scale of 1 : 200 000 on Zmeinogorskaya Square, sheets M-44-X, M-44-XI (Russian part) in 1996-2000]. O. V. Murzin, V. I. Gorshechnikov, V. M. Chekalin et al. AltF FBU «TFGI po SFO», 2001.

6. Egorov A. S., Bol’shakova N. V., Kalinin D. F., Ageev A. S. Glubinnoe stroenie, tektonika i geodinamika Okhotomorskogo regiona i struktur ego skladchatogo obramleniya [Deep structure, tectonics and geodynamics of the Okhotsk Sea region and structures of its folded frame]. Zapiski Gornogo instituta, 2022, vol. 257, pp. 703–719.

7. Gosudarstvennaya geologicheskaya karta Rossiyskoy Federatsii mashtaba 1 : 200 000. Izdanie vtoroe. Seriya Gorno-Altayskaya. List M-44-IV (Rubtsovsk). Ob”yasnitel’naya zapiska [The State geological map of the Russian Federation on a scale of 1 : 200 000. The second edition. Gorno-Altaiskaya series. Sheet M-44-IV (Rubtsovsk). Explanatory note]. Ed. by S. I. Fedak, Yu. A. Turkin, P. F. Selin et al. Moscow, Moskovskiy filial FGBU «VSEGEI», 2019.

8. Gosudarstvennaya geologicheskaya karta Rossiyskoy Federatsii. Mashtab 1 : 1 000 000 (tret’e pokolenie). Seriya Altae-Sayanskaya. List M-44 – Rubtsovsk. Ob”yasnitel’naya zapiska [State Geological Map of the Russian Federation. Scale 1 : 1 000 000 (third generation). Altai-Sayan series. Sheet M-44 – Rubtsovsk. Explanatory note]. Ed. by N. I. Gusev, Yu. E. Vovshin, A. A. Kruglova, M. G. Pushkin et al. St. Petersburg, Kartograficheskaya fabrika VSEGEI, 2015, 415 p.

9. Gusev A. I. Petrologiya plagiogranitoidov vydrikhinskogo kompleksa Salaira [Petrology of plagiogranitoids of the Vydrykhinsky Salair complex]. Uspekhi sovremennogo estestvoznaniya, 2014, no. 2, pp. 65–70.

10. Danil’ev S. M., Danil’eva N. A., Bol’shakova N. V. Obsledovanie uplotnennykh otvalov vskryshnykh porod Kirovsokgo rudnika metodami inzhenernoy geofiziki [Inspection of compacted overburden dumps of the Kirovsky mine by methods of engineering geophysics]. Materialy 17-y nauchnoy prakticheskoy konferentsii i vystavki. Moscow, 2021, pp. 86.

11. Dukhanin A. S., Alekseev S. G., Senchina N. P. Struktura struynykh oreolov rasseyaniya glubokozalegayushchikh mestorozhdeniy Rudnogo Altaya [Structure of jet scattering halos of deep-lying deposits of the Ore Altai]. Regional’naya geologiya i metallogeniya, 2019, no. 80, pp. 75–94.

12. Egorov A. S. Osobennosti glubinnogo stroeniya i veshchestvennogo sostava geostruktur zemnoy kory kontinental’noy chasti territorii Rossii [Features of the deep structure and material composition of the geostructures of the Earth’s crust of the continental part of the territory of Russia]. Zapiski Gornogo instituta, 2015, vol. 216, pp. 13–30.

13. Egorov A. S., Movchan I. B. Kompleksirovanie geofizicheskikh metodov: uchebnoe posobie [Integration of geophysical methods: textbook]. St. Petersburg, Sankt-Peterburgskiy gornyy un-t, 2018, 116 p.

14. D’yachkov B. A., Mizernaya M. A., Pyatkova A. P. et al. K probleme formirovaniya kolchedanno-polimetallicheskikh mestorozhdeniy Rudnogo Altaya [On the problem of formation of pyrite-polymetallic deposits of the Ore Altai]. Otechestvennaya geologiya, 2021, no. 5, pp. 3–16.

15. Kashin S. V., Molchanov A. V., Shatov V. V. Gidrotermal’no-metasomaticheskie formatsii regional’nogo rasprostraneniya i ikh ispol’zovanie dlya prognozirovaniya skrytogo kolchedanno-polimetallicheskogo orudneniya (na primere Zmeinogorskogo rudnogo rayona, Rudnyy Altay) [Hydrothermal-metasomatic formations of regional distribution and their use for predicting hidden pyrite-polymetallic mineralization (on the example of the Zmeinogorsky ore district, Rudny Altai)]. Regional’naya geologiya i metallogeniya, 2013, no. 56, pp. 65–77.

16. Kisin A. Yu. Obshchekorovaya skladchatost’ i goroobrazovanie [Scientific notes of the Kazan University]. Uchenye zapiski Kazanskogo universiteta. Seriya Estestvennye nauki, 2009, vol. 151, iss. 3, pp. 216–228.

17. Legenda Altayskoy serii listov Gosudarstvennoy geologicheskoy karty Rossiyskoy Federatsii masshtaba 1 : 200 000. Izd. 2-e. Ob”yasnitel’naya zapiska [Legend of the Altai series of sheets of the State Geological Map of the Russian Federation scale 1 : 200 000. Ed. 2nd Explanatory note]. Ed. by S. P. Shokal’skiy. FGU AltTFGI, 1999.

18. Gusev N. I., Gusev A. I., Shokalsky S. P., Kashin S. V., Larionov A. N., Tolmacheva E.V. Mezozoyskaya tektonotermal’naya aktivizatsiya i epitermal’noe zolotoe orudenenie v Severo-Vostochnom Gornom Altae [Mesozoic tectonothermal activation and epithermal gold mineralization in the Northeastern Altai Mountains]. Regional’naya geologiya i metallogeniya, 2014, no. 57, pp. 49–61.

19. Kuibida M. L., Kruk N. N., Shokalsky S. P., Gusev N. I., Murzin O. V. Nadsubduktsionnye plagiogranity Rudnogo Altaya: vozrast i osobennosti sostava [Suprasubduction plagiogranites of the Ore Altai: age and composition features]. Dokl. RAN, 2015, vol. 464, no. 3, pp. 1–6.

20. Gusev G. S., Mezhelovsky N. V., Morozov A. F., Kilipko V. A., Sirotkina O .N. Ob’-Zaysanskaya, Altae-Sayanskaya i Vostochnosayano-Eniseyskaya pokrovno-skladchatye oblasti: osnovnye osobennosti tektonicheskogo razvitiya [Ob-Zaisan, Altai-Sayan and East China-Yenisei cover-folded regions: main features of tectonic development]. Regional’naya geologiya i metallogeniya, 2017, no. 72, pp. 26–41.

21. Alekseev S. G., Kozlov S. A., Shtokalenko M. B., Smirnov V. E. Osobennosti 2D- I 3D-interpretatsii anomaliy potentsial’nykh poley [Features of 2D and 3D interpretation of anomalies of potential fields]. Zapiski Gornogo instituta, 2011, vol. 194, pp. 128–131.

22. Petrov D. A. Osobennosti struktury rud Rubtsovskogo kolchedanno-polimetallicheskogo mestorozhdeniya (Rudnyy Altay) [Features of the ore structure of the Rubtsovsky pyrite-polymetallic deposit (Rudny Altai)]. Zapiski Gornogo instituta, 2006, vol. 167 (2), pp. 40–42.

23. Kalinin D. F., Egorov A. S., Bol’shakova N. V. Potentsial’naya neftegazonosnost’ Zapadno-Kamchatskogo poberezh’ya i ee svyaz’ so strukturno-tektonicheskim stroeniem Okhotomorskogo regiona po geofizicheskim dannym [Potential oil and gas potential of the West Kamchatka coast and its connection with the structural and tectonic structure of the Okhotsk Sea region according to geophysical data]. Vestnik Kamchatskoy regional’noy organizatsii. Uchebno-nauchnyy tsentr. Seriya: Nauki o Zemle, 2022, no. 1 (53), pp. 59–75.

24. Sekerina D. D., Dergileva E. A., Egorov A. S. Zakonomernosti lokalizatsii struktur kaledonskogo i gertsinskogo orogeneza Rudnogo Altaya [Patterns of localization of the structures of the Caledonian and Hercynian orogeny of the Ore Altai]. Regional’naya geologiya i metallogeniya, 2023, no. 93, pp. 52–62.

25. Senchina N. P. Dekonvlyutsiya Eylera v interpretatsii dannykh potentsial’nykh poley Kazansko-Kazhimskogo avlakogena [. Euler deconvlusion in the interpretation of data from potential fields of the Kazan-Kazhim avlakogen]. Mezhdunarodnyy nauchno-issledovatel’skiy zhurnal, 2021, no. 11 (113), pp. 7–13.

26. Seravina T. V., Kuznetsova S. V., Filatova L. K. Osobennosti veshchestvennogo sostava vmeshchayushchikh porod i rud Lazurskogo rudnogo polya (Zmeinogorskiy rudnyy rayon, Rudnoaltayskaya mineragenicheskaya zona) [Features of the material composition of the host rocks and ores of the Lazursky ore field (Zmeinogorsky ore district, Rudnoaltay mineragenic zone)]. Otechestvennaya geologiya, 2021, no. 3–4, pp. 36–47.

27. Turkin Yu. A., Novoselov K. L. Petrologo-geokhimicheskie osobennosti devonskikh granitoidov severo-zapadnoy chasti Rudnogo Altaya [Petrological and geochemical features of Devonian granitoids of the northwestern part of the Rudny Altai]. Izvestiya Tomskogo politekhnicheskogo universiteta. Inzhiniring georesursov, 2012, vol. 321, no. 1, pp. 5–15.

28. Khromykh S. V. Bazitovyy i sopryazhennyy granitoidnyy magmatizm kak otrazhenie stadiy razvitiya Altayskoy akkretsionno-kollizionnoy sistemy (vostochnyy Kazakhstan) [Basitic and conjugate granitoid magmatism as a reflection of the stages of development of the Altai accretion-collision system (East Kazakhstan)]. Geologiya i geofizika, 2022, vol. 63, no. 3, pp. 330–355.

29. Alekseev V. I. Deep structure and geodynamic conditions of granitoid magmatism in the East of Russia. Journal of the Mining Institute, 2020, vol. 243, pp. 259–265. DOI: 10.31897/PMI.2020.3.259

30. Movchan I., Yakovleva A., Movchan A. and Shaigallyamova Z. Early assessment of seismic hazard in the conditions of contact of the Voronezh massif with the Moscow Depression. Minute. Miner. Depot, 2021, no. 15, pp. 62–70. DOI: 10.33271/mining15.03.062