Research subject. The Zhamanshin structure is located in the northern Aral Sea region and represents the outcrops of pre-Mesozoic rocks among Paleogene deposits. This structure has been known in the literature as a young meteorite crater for more than half a century. Aim. To consider all available geological and geophysical information on the structure and material composition of rocks and explain the development features of the Zhamanshin structure in relation to its position within the Late Paleozoic suture-collision zone of the Eastern-Uralian fold system. Materials and methods. The materials of geological surveys of various scales, as well as the interpretation of geophysical data, satellite images, data on the material composition of rock samples and paleotectonic reconstructions were analysed. In addition, the published literature on the meteorite origin of the Zhamanshin structure was analysed. Results. The main structural features of the Zhamanshin structure are rather associated with the accretion-subduction processes in the Paleozoic and strike-slip movements, especially active in the Pliocene, than with an impact event. The young age of glasses (from 10 thousand to 50 Ma) remains unproven due to unreliable methods used. The composition of the glasses allows them to be attributed to Paleozoic volcanic rocks, while some samples of slags and glasses may be of technogenic origin. Conclusions. Almost all arguments in favour of the meteorite origin of the Zhamanshin structure are questioned. A more realistic conclusion is that it has formed by deep tectonic and geological processes. The Zhamanshin structure is a dissected rounded upland with a ring of Paleozoic rocks along the edges and a hollow in the middle, which is associated with an eroded Carboniferous caldera. After the collision in the middle of the Carboniferous, the entire Northern Aral Sea remained an area of denudation until the beginning of the Cretaceous. After that, terrigenous lacustrine-alluvial strata up to 300 m thick had accumulated. During the Paleogene and Miocene, this upland with the remnants located along a circular rampart tens of meters high was covered by marine and continental sediments. In the Pliocene, the area was subjected to active strikeslip movements with the formation of the Tasaran mega-anticline with the Zhamanshin, North-Zhamanshin and Tasaran uplifts. The Irgiz-Tobolsk shear-thrust had limited and uplifted the western flank of the Zhamanshin structure, while feathering faults resulted in the formation and subsidence of a rounded depression around the Paleozoic caldera in the centre of Zhamanshin.
ОСОБЕННОСТИ СТРОЕНИЯ ПАЛЕОЗОЙСКИХ ОТЛОЖЕНИЙ ТУРГАЙСКО-СЫРДАРЬИНСКОГО И УСТЮРТСКОГО РЕГИОНОВ (В СВЯЗИ С ПЕРСПЕКТИВАМИ НЕФТЕГАЗОНОСНОСТИ ГЛУБОКИХ ГОРИЗОНТОВ ОСАДОЧНОГО ЧЕХЛА
Analysis of available published geological-geophysical data by the new seismic data CDP and drilling allowed making a conclusion that there are two groups spatially separated salt dome structures within the Chu-Sarysu basin. Age of rocks in the cores of the Permian salt structures in the north-west and the Devonian in the southeast, and not only the Devonian as previously thought. The shear-thrust movements are the decisive role in the development history of the Permian salt domes in northwestern Chu-Sarysu basin.
The data on the known and assumed subsalt oil and gas prospective structures (traps) of the Pre-Caspian depression are analyzed taking into account the new investigations.Among the major traps are dominated by carbonate (buildups) and terrigenous (fan deep sea deposits) types.A new type of erosion-lithological traps formed during sea level falls was revealed.Large undiscovered traps are located mainly at depths of 6-8 km.The present forecasted resources of hydrocarbons are significantly higher than have been explored ones.
