Active Shortening Simultaneous to Normal Faulting Based on GNSS, Geophysical, and Geological Data: The Seismogenic Ventas de Zafarraya Fault (Betic Cordillera, Southern Spain)
Asier Madarieta-Txurruka, Lourdes González-Castillo, José A. Peláez, Jesús Galindo-Zaldívar, María J. Borque, María C. Lacy, Antonio M. Ruiz-Armenteros, Jesús Henares, Patricia Ruano, Alberto Sánchez-Alzola, Manuel Avilés, Gracia Rodríguez-Caderot, Francisco José Martínez-Moreno, Víctor Tendero-Salmerón, Raquel Vinardell-Peña, Antonio J. Gil
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Abstract
The central Betic Cordillera, southern Spain, is affected by an uplift related to the NNW–SSE Eurasia-Nubia convergence and shallow ENE–WSW orthogonal extension accommodated by the extensional system of the Granada Basin. The combination of geophysical, geodetic, and geological data reveals that the southwestern boundary of this extensional system is a seismically active compressional front extending from the W to the SW of the Granada Basin. The near-field Global Navigation Satellite System data determine NNE–SSW shortening of up to 2 mm/yr of the compressional front in the Zafarraya Polje. In this setting, the normal Ventas de Zafarraya Fault developed as a result of the bending-moment extension of the Sierra de Alhama antiform and was last reactivated during the 1884 Andalusian earthquake (Mw 6.5). The uplift in the central Betic Cordillera together with the subsidence in the Western Alborán Basin may facilitate a westward to southwestward gravitational collapse through the extensional detachment of the Granada Basin. The heterogeneous crust of the Betic Cordillera would generate the compressional front, which is divided into two sectors: thrusting to the west, and folding associated with buttressing to the south. Our results evidence that basal detachments, linking extensional fault activity with compressional fronts, may determine the activity of local surface structures and the geological hazard in densely populated regions.
基于全球导航卫星系统、地球物理和地质数据的与正断层同时发生的活动性缩短:产生地震的 Ventas de Zafarraya 断层(西班牙南部贝蒂奇科迪勒拉山系)
西班牙南部的贝蒂科迪勒拉山系中部受到与欧亚-努比亚西北-东南辐合有关的隆起以及格拉纳达盆地延伸系统所容纳的东偏东-西偏西正交浅延伸的影响。地球物理、大地测量和地质数据的综合显示,该延伸系统的西南边界是一个地震活跃的压缩前沿,从格拉纳达盆地的西部延伸到西南部。全球导航卫星系统的近场数据确定,Zafarraya Polje 地区的压缩前线向东北-西南方向缩短,缩短幅度高达 2 毫米/年。在这种情况下,正常的 Ventas de Zafarraya 断层因 Sierra de Alhama antiform 的弯曲延伸而形成,最后一次重新激活是在 1884 年安达卢西亚地震(Mw 6.5)期间。贝蒂科迪勒拉山系中部的隆起和西阿尔博兰盆地的下沉可能会通过格拉纳达盆地的延伸剥离,促进向西至西南的重力塌陷。贝蒂科迪勒拉山系的异质地壳会产生压缩锋,压缩锋分为两部分:向西的推力和向南与对接相关的褶皱。我们的研究结果证明,基底剥离将延伸断层活动与压缩锋联系在一起,可能会决定当地地表结构的活动以及人口稠密地区的地质灾害。
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.