STRUCTURE AND EVOLUTION OF THE TEREK-CASPIAN FOLD-AND-THRUST BELT: NEW INSIGHTS FROM REGIONAL SEISMIC DATA

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Konstantin Sobornov
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引用次数: 5

Abstract

The Terek-Caspian fold-and-thrust belt along the northern flank of the Greater Caucasus Mountain Range together with the adjacent foreland basin is one of the oldest oil-producing regions in Russia. Despite the long history of exploration, recently acquired seismic data has provided new insights about the structural architecture and evolution of this area. Its structural development during the Neogene was constrained by a syn-extensional tectonic fabric inherited from Jurassic rifting and extension of the Great Caucasus Basin. The structural framework of this basin controlled the distribution of syn-extensional deposits, and the Cenozoic reactivation of lateral ramps resulted in along-strike variations in structural style. Thus western, central and SE segments of the Terek-Caspian foldbelt are recognised and are referred to here as the Terek-Sunzha fold zone, the Dagestan Promontory, and the Maritime Zone in southern Dagestan.

Three principal episodes of Cenozoic compression in the Terek-Caspian fold-and-thrust belt took place. The first episode in the Oligocene resulted in the inversion of pre-existing normal faults with the coeval development of a foreland basin to the north of the thrust belt. The dominance of sediments of northerly provenance in the foreland basin suggests there was only moderate uplift of the Greater Caucasus at this time. However, significant uplift of the orogenic belt took place during later phases of Sarmatian (Late Miocene) and Akchagylian (Late Pliocene) compression. Erosion of the uplifting Greater Caucasus gave rise to the development of large-scale, northerly prograding clinoforms which are clearly observed on seismic profiles in the foreland basin. Shortening was largely accommodated by wedge-shaped thrusting facilitated by the presence of mechanically weak stratigraphic units.

Structural development of the Terek-Sunzha fold zone in the west of the Terek-Caspian fold-and-thrust belt was largely controlled by a Tithonian salt layer which provided an efficient basal detachment surface and which also supplied material to squeezed diapirs in front of the belt. To the east, the plan-view shape and internal architecture of the Dagestan Promontory were influenced by the areal extent of the Lower-Middle Jurassic depocentre of the palaeo-Volga delta which is up to 10 km thick. In the Maritime Zone, the style of shortening was mostly controlled by the presence of a pre-existing structural high composed of folded Palaeozoic-Triassic strata in front of the fold-thrust belt.

特雷克-里海褶皱冲断带的构造与演化:来自区域地震资料的新认识
沿大高加索山脉北侧的捷列克-里海褶皱冲断带及其邻近的前陆盆地是俄罗斯最古老的产油区之一。尽管勘探历史悠久,但最近获得的地震数据为该地区的构造结构和演化提供了新的见解。新近纪的构造发育受侏罗纪裂陷和大高加索盆地伸展的同张构造的制约。该盆地的构造格架控制了同张性矿床的分布,新生代侧向斜坡的活化导致构造样式沿走向变化。因此,特列克-里海褶皱带的西部、中部和东南部被认为是特列克-孙扎褶皱带、达吉斯坦海岬和达吉斯坦南部的海区。特列克-里海褶皱冲断带发生了三次主要的新生代挤压期。渐新世的第一次活动导致原有正断层的反转,逆冲带北部同期发育前陆盆地。前陆盆地以北部物源沉积物为主,说明此时大高加索地区只有适度的隆升。而造山带的隆升主要发生在晚中新世萨尔马提亚和晚上新世阿卡格里亚挤压期的后期。隆起的大高加索地区的侵蚀作用使前陆盆地的地震剖面上清晰地观察到大规模的、向北推进的斜地形的发育。缩短在很大程度上是由机械弱地层单元的存在所促进的楔形逆冲作用所调节的。特列克-里海褶皱冲断带西侧特列克-孙扎褶皱带的构造发育在很大程度上受铁统期盐层控制,盐层提供了一个有效的基底滑脱面,也为特列克-里海褶皱冲断带前挤压底辟提供了物质。达吉斯坦海岬的平面形状和内部结构受古伏尔加三角洲下-中侏罗统沉积中心面积的影响,其厚度可达10 km。在海相带,缩短样式主要受褶皱冲断带前古生代—三叠纪褶皱地层组成的构造高地控制。
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来源期刊
Journal of Petroleum Geology
Journal of Petroleum Geology 地学-地球科学综合
CiteScore
3.40
自引率
11.10%
发文量
22
审稿时长
6 months
期刊介绍: Journal of Petroleum Geology is a quarterly journal devoted to the geology of oil and natural gas. Editorial preference is given to original papers on oilfield regions of the world outside North America and on topics of general application in petroleum exploration and development operations, including geochemical and geophysical studies, basin modelling and reservoir evaluation.
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