Modeling along-axis variations in fault architecture in the Main Ethiopian Rift: Implications for Nubia-Somalia kinematics

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• 作者：Asfaw Erbello^a ; Giacomo Corti^b ; ^{giacomo.corti@igg.cnr.it} ; Andrea Agostini^b ; Federico Sani^c ; Tesfaye Kidane^d ; Antonella Buccianti^c
• 关键词：Analogue modeling ; Main Ethiopian Rift ; Rift architecture ; Plate kinematics ; Nubia-Somalia motion
• 刊名：Journal of Geodynamics
• 出版年：2016
• 出版时间：December 2016
• 年：2016
• 卷：102
• 期：Complete
• 页码：24-38
• 全文大小：6669 K
• 卷排序：102

文摘

In this contribution, analogue modeling is used to provide new insights into the Nubia-Somalia kinematics responsible for development and evolution of the Main Ethiopian Rift (MER), at the northern termination of the East African Rift system. In particular, we performed new crustal-scale, brittle models to analyze the along-strike variations in fault architecture in the MER and their relations with the rift trend, plate motion and the resulting Miocene-recent kinematics of rifting. The models reproduced the overall geometry of the ∼600 km-long MER with its along-strike variation in orientation to test different hypothesis proposed to explain rift evolution. Analysis of model results in terms of statistics of fault length and orientation, as well as deformation architecture, and its comparison with the MER suggest that models of two-phase rifting (with a first phase of NW-SE extension followed by E-W rifting) or constant NW-SE extension, as well as models of constant ENE-WSW rifting are not able to reproduce the fault architecture observed in nature. Model results suggest instead that the rift has likely developed under a constant, post-11 Ma extension oriented roughly ESE-WNW (N97.5°E), consistent with recent plate kinematics models.