Caves in slightly karstic rocks of Altai-Sayan Mountain Region: formation mechanism and morphology

In addition to numerous underground cavities associated with the processes of dissolution of carbonate rocks, within the Altai-Sayan mountain region there are a number of caves developed in non-karstic and slightly karstic rocks. Among them, the caves of the conglomerate Narva rock mass of the Badzheiskii massif (Eastern Sayan, Manskii trough) stand out due to their size. The most outstanding caves here are Big Oreshnaya, Dudinskaya and Badzheiskaya, the length is more than 50 km, 35 km and 10 km respectively. The limestones of the middle Altai mountains are often in contact with effusive and intrusive rocks and are altered within the contact zones of metamorphism to dense marbleized rocks, which makes it impossible for karst processes to occur. Nevertheless, in the marbled Lower Cambrian limestones of the Kayanchinskaya suite of the Altai Mountains, large Altaiskaya and Kek-Tash caves with a total length of 4.7 and 3.2 km, respectively, are developed.

Detailed mapping of the caves was carried out, which showed their close spatial connection with the systems of the latest faults. In caves along fault zones, signs of widespread argillization were found (changes in the original substance by hydrothermal processes and its replacement by newly formed clayey minerals). The mechanism we propose for the formation of caves in non-karstic and slightly karstic rocks comes down to the removal by groundwater of a substrate argillized by hydrothermal processes along fault zones without significant participation of dissolution (karst processes). This makes this mechanism some similar to the well-known process of “clay karst” associated with suffusion in clayey rocks. The difference comes down to the development of the forms and processes we studied in argillicized fault zones, and not in clayey strata.

1. Boulytchov A.A. Kektash - the deepest cave of Siberia and Big Oreshnaya - the longest one // Stalactite, Bern, Switzerland. 1999. № 49, 1. P. 47-48.

2. Boulytchov A.A. Seismic-electric effect method on guided and reflected waves // Physics and Chemistry of the Earth. Journal of EGS. Oxford-Amsterdam: Elsevier. 2000. V. 25, № 4. P. 333-336.

3. Bulychov A.A., Sorokina T.V. Multi-faceted training of caver-explorer // Proceedings of the 17th International Congress of Speleology. Sydney, Australia. 2017. V. 1. P. 278-284.

4. Cardarelli E., Cercato M., Cerreto A., et al. Electrical resistivity and seismic refraction tomography to detect buried cavities // Geophysical Prospecting. 2010. V. 58, No. 4. P. 685–695. https://doi.org/10.1111/j.1365-2478.2009.00854.x.

5. Golicz M. Caveink - a set of Inkscape extensions for drawing cave maps // Proceedings of the 17th International Congress of Speleology. Sydney, Australia. 2017. V. 2. P. 111-115.

6. Hellstrom J. Three-dimensional cave mapping using Structure from Motion // Proceedings of the 17th International Congress of Speleology. Sydney, Australia. 2017. V. 2. P. 116.

7. Kempe S., Bauer I. 3-D imaging as a tool to understand speleogenetic processes // Proceedings of the 17th International Congress of Speleology. Sydney, Australia. 2017. V. 2. P. 117-121.

8. Mikhailov O.V., Haartsen M.W., and Toksoz M.N. Electroseismic investigation of the shallow subsurface: field measurements and numerical modeling // Geophysics. 1997. 62, No 1. P. 97-105.

9. Mitchell E.J., Mitchell J.N. Comparison of shallow geophysical cave detection methods to 3D Lidar mapping // Proceedings of the 17th International Congress of Speleology. Sydney, Australia. 2017. V. 2. P. 126-129.

10. Novikov I.S., Dyadkov P.G., Kozlova M.P., et al. Recent tectonics and seismicity of the western Altai–Sayan mountainous region, Junggar basin, and Chinese Tien Shan // Russian Geology and Geophysics. 2014. V. 55. № 12. P. 1441-1451.

11. Novikov I.S., Sokol E.V. Combustion metamorphic events as age markers of orogenic movements in Central Asia // Acta Petrologica Sinica. 2007. V.23. № 7. P. 1561-1572. https://doi.org/10000-0569/2007/023(07)-1561-72

12. Novikov I.S., Zhimulev F.I., Vetrov E.V., et al. Mesozoic and Cenozoic Geologic History and Surface Topography of the Northwestern Altai–Sayan Area // Russian Geology and Geophysics. 2019. V.60. № 7. Р. 781 - 792. DOI: 10.15372/RGG2019054

13. Quinif Y., Verheyden S. Ghost-rock karstification // Proceedings of the 18th International Congress of Speleology. Savoie Mont-Blanc, France. 2022. V. 4. Geomorphology. P. 227-230.

14. Sorokina T.V., Boulytchov A.A. Seismic-electric benchmarking of shallow subsurface horizons and dome cavities. Proceedings of the International Conference of EAGE. Amsterdam, Netherlands. 2001. V. 2. P. 133-136.