J. I. Soto, M. D. Tranos, Z. Bega, T. P. Dooley, P. Hernández, M. R. Hudec, P. A. Konstantopoulos, E. Lula, K. Nikolaou, R. Pérez, J. P. Pita, J. A. Titos, C. Tzimeas, A. Herra Sánchez de Movellán
{"title":"爱奥尼亚区(希腊和阿尔巴尼亚)盐构造过程的对比风格:整合地表地质、地下数据和实验模型","authors":"J. I. Soto, M. D. Tranos, Z. Bega, T. P. Dooley, P. Hernández, M. R. Hudec, P. A. Konstantopoulos, E. Lula, K. Nikolaou, R. Pérez, J. P. Pita, J. A. Titos, C. Tzimeas, A. Herra Sánchez de Movellán","doi":"10.1029/2023tc008104","DOIUrl":null,"url":null,"abstract":"The Ionian Zone (IZ) is one of the key elements of the fold and thrust belt (FTB) of the Albanian and Hellenides orogen and contains large outcrops of Triassic evaporites. The IZ consists of various thrust sheets with a general westward vergence, stacking over the Apulian and Pre-Apulian zones, and repeating a thick carbonate sequence of Upper Triassic to Eocene age. Thrusting becomes younger toward the west with a piggyback sequence, starting during the latest Oligocene Epoch in the Internal Ionian and ending in the Pliocene in the External Ionian. 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引用次数: 0
摘要
爱奥尼亚区(IZ)是阿尔巴尼亚和希腊造山带褶皱和推力带(FTB)的关键要素之一,包含大量三叠纪蒸发岩露头。IZ由各种推力片组成,总体向西褶皱,叠加在阿普利亚带和前阿普利亚带之上,重复着上三叠世至始新世时代的厚碳酸盐序列。向西的推移变得更年轻,有一个捎带序列,从内部爱奥尼亚岛的最晚渐新世开始,到外部爱奥尼亚岛的上新世结束。我们利用实地观测和钻孔数据,并通过全面解释最近获得的二维地震数据集,对阿尔巴尼亚南部和希腊西北部的内伊奥尼亚区进行了研究。我们的目标是确定与主要三叠纪露头相关的接触点的几何形状和性质,揭示前盐二叠纪,并评估它们在阿尔卑斯山收缩过程中的作用。盐结构包括平缓的盐枕、孤立的盐塞和斜坡、推力焊缝和盐壁。结合这些观测结果和实验建模结果,我们展示了这些结构是如何控制阿尔卑斯山推力的几何形状和运动学特征或近期走向滑动断层的位置和运动学特征的。我们还发现了盐矿小盆地,证明盐的流动性对爱奥尼亚盆地中生代沉积作用的影响。利用盐构造学原理评估 IZ FTB 的构造样式和演变,也为解释该地区的地下结构和演变开辟了新的方向。
Contrasting Styles of Salt-Tectonic Processes in the Ionian Zone (Greece and Albania): Integrating Surface Geology, Subsurface Data, and Experimental Models
The Ionian Zone (IZ) is one of the key elements of the fold and thrust belt (FTB) of the Albanian and Hellenides orogen and contains large outcrops of Triassic evaporites. The IZ consists of various thrust sheets with a general westward vergence, stacking over the Apulian and Pre-Apulian zones, and repeating a thick carbonate sequence of Upper Triassic to Eocene age. Thrusting becomes younger toward the west with a piggyback sequence, starting during the latest Oligocene Epoch in the Internal Ionian and ending in the Pliocene in the External Ionian. We have studied the IZ in southern Albania and northwestern Greece using field observations and borehole data and by fully interpreting a recently acquired 2D seismic data set. Our objectives are to establish the geometry and nature of the contacts associated with the major Triassic outcrops, to unravel precursor salt diapirs, and to assess their role during the Alpine contraction. Salt structures include gentle salt pillows, isolated salt plugs and diapirs, thrust welds, and salt walls. Combining these observations with experimental modeling results, we show how these structures control the geometry and kinematics of the Alpine thrusts or the location and kinematics of recent strike-slip faults. Salt minibasins have also been identified, demonstrating salt mobility conditioned Mesozoic sedimentation in the Ionian Basin. The use of salt-tectonics principles to evaluate the structural style and evolution of the IZ FTB also opens new directions for interpreting the subsurface structure and evolution of the region.
期刊介绍:
Tectonics (TECT) presents original scientific contributions that describe and explain the evolution, structure, and deformation of Earth¹s lithosphere. Contributions are welcome from any relevant area of research, including field, laboratory, petrological, geochemical, geochronological, geophysical, remote-sensing, and modeling studies. Multidisciplinary studies are particularly encouraged. Tectonics welcomes studies across the range of geologic time.