EDP Sciences logo
Submit your paper
Search
Menu
Home All issues Volume 196 (2025) BSGF - Earth Sci. Bull., 196 (2025) 3 References
Open Access
Issue
BSGF - Earth Sci. Bull.
Volume 196, 2025
Article Number 3
Number of page(s) 23
DOI https://doi.org/10.1051/bsgf/2024028
Published online 28 March 2025
  • Baluev AS. 2006. Geodynamics of the Riphean stage in the evolution of the northern passive margin of the East European Craton. Geotectonics 40: 183–196. [CrossRef] [Google Scholar]
  • Brown D, Alvarez-Marron J, Perez-Estaun A, Puchkov V, Ayala C. 1999. Basement influence on foreland thrust and fold belt development: an example from the southern Urals. Tectonophysics 308: 459–472. [Google Scholar]
  • Brown D, Herrington R, Alvarez-Marron J. Processes of arc-continent collision in the Uralides. In: Arc-Continent Collision: The Making of an Orogen. Springer Frontiers in Earth Science Series. Berlin Heidelberg: Springer-Verlag, 2011, pp. 311-340. [Google Scholar]
  • Brown D, Juhlin C, Ayala C, Tryggvason A, Bea F, Alvarez-Marron J, Carbonell R, Seward D, Glasmacher U, Puchkov V, Perez-Estaun A. 2008. Mountain building processes during continent-continent collision in the Uralides. Earth-Science Rev 89: 177–195. [Google Scholar]
  • Brown D, Puchkov V, Alvarez-Marron J, Bea F, Perez-Estaun A. Tectonic processes in the Southern and Middle Urals: an overview. In : Geological Society, London, Memoirs, 32, 2006, pp. 407–419. [Google Scholar]
  • Cotton J, Koyi H. 2000. Modeling of thrust fronts above ductile and frictional detachments: application to structures in the Salt Range and Potwar Plateau, Pakistan. GSA Bull 112: 351–363. [CrossRef] [Google Scholar]
  • Davis D.M, Engelder T. 1985. The role of salt in fold-and-thrust belts. Tectonophysics 119: 67–88. [Google Scholar]
  • Farkhutdinov IM, Ismagilov RA, Farkhutdinov AM, Farkhutdinova LM. 2017. Murat Kamaletdinov and the struggle for acceptance of the thrust-nappe theory. Earth Sci History 36: 101–115. [Google Scholar]
  • Farkhutdinov IM, Farkhutdinov AM, Ismagilov RA, Farkhutdinova LM. 2019. The emergence of the mobilist paradigm in soviet geology and M.A. Kamaletdinov’s thrust-nappe theory. Stud History Sci Technol 40: 21–37. (in Russian) [Google Scholar]
  • Farkhutdinov A, Maillot B, Lallemant S. 2025. Sandbox Experiment Videos – Supplementary Data for “Geology and sandbox analogue modelling of the Karatau structural complex (Southern Urals)”. In BSGF - Earth Sciences Bulletin. Zenodo. https://doi.org/10.5281/zenodo.15013163 [Google Scholar]
  • Farzipour-Saein A, Nilfouroushan F, Koyi H. 2013. The effect of basement step/topography on the geometry of the Zagros fold and thrust belt (SW Iran): an analog modeling approach. Int J Earth Sci (Geol Rundsch) 102: 2117–2135. [Google Scholar]
  • Frederiks GN. Questions of tectonics of the Urals. 1927. Geolkom Bull 2: 7–16. (in Russian) [Google Scholar]
  • Giese U, Glasmacher U, Kozlov VI, Matenaar I, Puchkov VN, Stroink L, Bauer W, Ladage S., Walter R. 1999. Structural framework of the Bashkirian anticlinorium, SW Urals. Geologische Rundschau 87: 526–544. [CrossRef] [Google Scholar]
  • Glasmacher U, Wagner G, Puchkov V. 2002. Thermotectonic evolution of the western fold-and-thrust belt, southern Uralides, Russia, as revealed by apatite fission track data. Tectonophysics 354: 25–48. [Google Scholar]
  • Graveleau F, Malavieille J, Dominguez S. 2012. Experimental modelling of orogenic wedges: a review. Tectonophysics 538-540: 1–66. [Google Scholar]
  • Hubbert MK. 1951. Mechanical basis for certain familiar geologic structures. Bull Geolog Soc Am 62: 355–372. [CrossRef] [Google Scholar]
  • Hung J-H., Wiltschko DV, Lin H-C., Hickman J-B., Fang P, Bock Y. 1999. Structure and motion of the southwestern Taiwan fold-and-thrust belt. TAO 10: 543–568. [Google Scholar]
  • Kamaletdinov MA. 1965a. On the issue of cover tectonics of the Urals in the light of new data. Geotectonics 1: 106–117 (in Russian). [Google Scholar]
  • Kamaletdinov MA. 1965b. New data on the geological structure of the Southern Urals. Proc USSR Acad Sci 162: 1356–1359 (in Russian). [Google Scholar]
  • Kamaletdinov MA. 2011. Illogical means unscientific. Geology 16: 121–129 (in Russian). [Google Scholar]
  • Kamaletdinov MA. 1974. Covering structures of the Urals. M.: Science 229 p (in Russian). [Google Scholar]
  • Kamaletdinov MA. 2007. Scientists and time. Ufa: Gilem, 2007, 320 p (in Russian). [Google Scholar]
  • Kazancev YuV, Kazanceva TT, Zagrebina AI, Gazizova SA. Structural geology of the north-east of Bashkortostan. Academy of Sciences of the Republic of Bashkortostan, Department of Earth Sciences and Ecology, 1999, 131 p. (in Russian) [Google Scholar]
  • Kissin AYu. 2008. Structural position of the Karatau tectonic block. Lithosphere 4: 35–47 (in Russian). [Google Scholar]
  • Knyazev YuG, Knyazeva OYu, Snachev VI, Zhdanov AV, Karimov TR, Aidarov EM, Masagutov RKh, Arslanova ER. State geological map of the Russian Federation. Scale 1: 1000 000 (third generation). Ural series. Sheet N-40-Ufa. Explanatory letter. SPb.: Cartographic factory VSEGEI, 2013, 512 p. (in Russian) [Google Scholar]
  • Koyi H, Sans M, Teixell A, Cotton J, Zeyen H. 2003. The significance of penetrative strain in the restoration of shortened layers - insights from sand models and the Spanish Pyrenees, in K. R. McClay, ed., Thrust tectonics and hydrocarbon systems: AAPG Memoir 82 pp. 1–16. [Google Scholar]
  • Kuznetsov NB, Natapov LM, Belousova EA, O‘Reilly SY, Griffin WL. 2010. Geochronological, geochemical and isotopic study of detrital zircon suites from late Neoproterozoic clastic strata along the NE margin of the East European Craton: Implications for plate tectonic models. Gondwana Res 17: 583–601. [CrossRef] [Google Scholar]
  • Kuznetsov N, Romanyuk T. 2021. Peri-Gondwanan Blocks in the Structure of the Southern and Southeastern Framing of the East European Platform. Geotectonics 55: 439–472. [CrossRef] [Google Scholar]
  • Lozin EV. 2015. Atlas of oil and gas fields developed by PJSC JSOC Bashneft. Ufa: BashNIPIneft, 270 p. (in Russian) [Google Scholar]
  • Macedo J, Marshak S. 1999. Controls on the geometry of fold-thrust belt salients. Bull Geolog Soc Am 111: 1808–1822. [CrossRef] [Google Scholar]
  • Maillot B, Barnes C, Mengus J-M., Daniel J-M. 2007. Constraints on friction coefficients by an inverse analysis of sand Box thrust dips. J Struct Geol 29: 117–128. [Google Scholar]
  • Masagutov RKh. Lithological-stratigraphic characteristics and paleogeography of the Late Precambrian of the Bashkir Urals. M.: Nedra, 2002, 224 p. (in Russian) [Google Scholar]
  • Maslov A, Gareev E, Podkovyrov V. 2010. Upper Riphean and Vendian sandstones of the Bashkirian anticlinorium. Lithol Mineral Resour 45: 285–301. [Google Scholar]
  • Meyer B, Chulliat A, Saltus R. 2017. Derivation and error analysis of the earth magnetic anomaly grid at 2 arc min resolution version 3 (EMAG2v3). Geochem Geophys Geosyst 18: 4522–4537. [CrossRef] [Google Scholar]
  • Moseychuk VM, Tevelev AV, Popov SS. Geological structure and minerals of the territory of sheet N-40-XI (Bakal). Report on the object: “Geological survey and geological additional study on a scale of 1:200,000 of the territory of sheet N-40-XI (Bakal), preparation for publication of the geological map of the sheet”. Chelyabinsk, 2017. (in Russian, unpublished) [Google Scholar]
  • Pease V. 2021. Eastern Europe: The Timanian and Urailian Orogens. Encyclopedia of Geology (Second Edition). Academic Press 302–310. [Google Scholar]
  • Peive AV, Ivanov SN, Porfilaev AS, Necheukhin VM. Tectonics of Urals. Explanatory Note to the Tectonic Map of the Urals at a Scale of 1:1000000. Nauka, Moscow, 1977, 124 p. (in Russian) [Google Scholar]
  • Perez-Estaun A, Alvarez-Marron J, Brown D, Puchkov V, Gorozhanina Y, Baryshev V. 1997. Along-strike structural variations in the foreland thrust and fold belt of the southern Urals. Tectonophysics 276: 265–280. [Google Scholar]
  • Petrov OV, Pospelov II, Kheraskova TN, Tomurtogoo O, Bingwei C, Liudong R. Tectonic Domains of Central Asia. In : Tectonics of Asia (Northern, Central and Eastern Asia). Springer, 2021, pp. 113-212. [Google Scholar]
  • Philippe Y. 1995. Rampes latérales et zones de transfert dans les chaînes plissées: géométrie, conditions de formation et pièges structuraux associés. Université de Savoie tel-00755680. [Google Scholar]
  • Pieri M, Groppi G. 1981. Subsurface geological structure of the Po Plain, Italy. Progetto finalizzato Geodinamica − Sottoprogetto 5 − Modello strutturale (Publ. 414). Roma: CNR. [Google Scholar]
  • Puchkov V. 2013. Structural stages and evolution of the Urals. Mineral Petrol 107: 3–37. [Google Scholar]
  • Puchkov VN, Krasnobaev AA, Kozlov VI, Matukov DI, Nekhorosheva AG, Lepekhina EN, Sergeev SA. 2007. Preliminary data on the age boundaries of the Neo- and Mesoproterozoic of the Southern Urals in the light of new U-Pb dating. Geological collection IG UC RAS 6:3. (in Russian) [Google Scholar]
  • Puzhakov BA, Shokh VD, Schulkina NE. Report on the results of work on the object “Performance of geological survey work within sheet N-40-X (Asha area)”. Аs part of the object of the FSBI “VSEGEI” “Conducting in 2017–2019 regional geological surveys at a scale of 1: 200 000 for a group of sheets within the Ural and Volga Federal Districts” (Rosgeolfond; TFGI Chelyab. region), 2019. (in Russian, unpublished). [Google Scholar]
  • Shakurov RK, Reshetneva VI, Svetlakova AN. Features of the structure of the Ural Karatau. In : Formation of the Earth’s crust of the Urals, 1988, pp. 91–96. (in Russian) [Google Scholar]
  • Shatskiy NS. Essays on the tectonics of the Volga-Ural oil-bearing region and the adjacent part of the western slope of the Southern Urals. Bulletin of Moscow Society of Naturalists, 1945, 129 p. (in Russian) [Google Scholar]
  • Sinitsyn II, Sinitsyna ZA. State geological map of the USSR. M.: 1:200 000. Sheet: N-40-X. M.: Gosgeoltekhizdat, 1956. (in Russian) [Google Scholar]
  • Tetyaev MM. Geotectonics of the USSR. M.-L.: SUSTP, 1938, 298 p. (in Russian) [Google Scholar]
  • Tevelev AlV, Prudnikov IA, Tevelev AV, Hotylev AO, Volodina EA. 2018. A kinematic model of the formation of the sim trough of the Uralian Foredeep. Moscow Univ Geol Bull 73: 238–246. [Google Scholar]
  • Tevelev Al, Tevelev, A, Khotylev A, Prudnikov I, Kosheleva I, Volodina E, Moseichuk V. 2019. Tectonic Setting in the Area of the September 2018 Katav-Ivanovsk Earthquakes (Southern Urals). Moscow University Geology Bulletin 74: 252–257. [Google Scholar]
  • Thielicke W, Sonntag R. 2021. Particle Image Velocimetry for MATLAB: Accuracy and enhanced algorithms in PIVlab. J Open Res Softw 9: 12. [CrossRef] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.