利用铀-铅碳酸盐测年来确定英格兰西南部布里斯托尔海峡盆地的延伸和断层再活化时间

Joe Connolly, Mark Anderson, Catherine M. Mottram, Gregory D Price, Randall Parrish, David J. Sanderson
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摘要

布里斯托尔海峡盆地是中生代大陆裂谷盆地。该盆地是近海储层的重要模拟对象。以前曾利用与邻近沉积盆地的相对横切关系和相关性来确定盆地的开发时间。现场 U-Pb 碳酸盐地质年代学首次被用来确定萨默塞特郡东泉托克斯海德和基尔夫地区正断层、推断断层和走向滑动断层岩芯中方解石淤积层的发育时间。 约 150-120 Ma 的 N-S 向延伸形成了正断层。其后约 50-20 Ma 的 N-S 向缩短由 (i) 相互交叉的走向滑动断层 (ii) 轻微的 E-W 向冲击断层和 (ii) 原已存在的正断层重新激活所容纳。在整个新生代收缩过程中,σ 2 和 σ 3 的大小保持相似,并周期性地翻转成垂直状态,这很可能是受当地应力排列和流体压力变化的控制。 反转的时间与主要的比利牛斯造山运动和后来的阿尔卑斯造山运动以及大西洋中部裂谷的开启同时发生。布里斯托尔海峡盆地早期的反转可能是由远场比利牛斯变形所驱动的,而后期的收缩则是由阿尔卑斯力量所造成的。大西洋中部裂谷的海脊推动加剧了盆地的重新激活。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using U-Pb carbonate dating to constrain the timing of extension and fault reactivation within the Bristol Channel Basin, SW England
The Bristol Channel Basin is a Mesozoic continental rift basin. The basin is an important analogue for offshore reservoirs. Relative cross-cutting relationships and correlation with adjacent sedimentary basins have previously been used to constrain the timing of basin development. In-situ U-Pb carbonate geochronology has been used to date calcite slickenfibre development in the cores of normal, thrust and strike-slip faults in the East Quantoxhead and Kilve region of Somerset for the first time. Protracted N-S extension from c a. 150–120 Ma formed normal faults. Subsequent N-S shortening from ca. 50–20 Ma was accommodated by (i) mutually cross-cutting strike-slip faults (ii) minor E-W-striking thrust faults and (ii) the reactivation of pre-existing normal faults. Throughout Cenozoic contraction, σ 2 and σ 3 remained similar in magnitude and periodically flipped to become vertical, this was likely controlled by local stress permutations and changes in fluid pressure. The timing of inversion is contemporaneous with dominant Pyrenean and later Alpine orogenic events, as well as the opening of the Mid Atlantic Rift. Early inversion of the Bristol Channel Basin was likely driven by far-field Pyrenean deformation, with later contraction caused by Alpine forces. Ridge push from the Mid Atlantic Rift exacerbated the reactivation of the basin.
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