Cenozoic slip along the southern Sierra Nevada normal fault, California (USA): A long-lived stable western boundary of the Basin and Range

IF 1.7 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geosphere Pub Date : 2023-04-28 DOI:10.1130/ges02574.1
Jeffrey Lee, D. Stockli, A. Blythe
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Abstract

The uplift history of the Sierra Nevada, California, is a topic of long-standing disagreement with much of it centered on the timing and nature of slip along the range-bounding normal fault along the east flank of the southern Sierra Nevada. The history of normal fault slip is important for characterizing the uplift history of the Sierra Nevada, as well as for characterizing the geologic and geodynamic factors that drove, and continue to drive, normal faulting. To address these issues, we completed new structural studies and extensive apatite (U-Th)/He (AHe) thermochronometry on samples collected from three vertical transects in the footwall to the east-dipping southern Sierra Nevada normal fault (SNNF). Our structural studies on bedrock fault planes show that the SNNF is a steeply (~70°) east-dipping normal fault. The new AHe data reveal two elevation-invariant AHe age arrays, indicative of two distinct periods of cooling and exhumation, which we interpret as initiation of normal faulting along the SNNF at ca. 28–27 Ma with a second phase of normal faulting at ca. 17–13 Ma. We argue that beginning in the late Oligocene, the SNNF marked the now long-standing stable western limit, or break-away zone, of the Basin and Range. Slip along SNNF, and the associated unloading of the footwall, likely resulted in two periods of uplift of Sierra Nevada during the late Cenozoic. Trench retreat, driven by westward motion of the North American plate, along the Farallon–North American subduction zone boundary, as well as the gravitationally unstable northern and southern Basin and Range pushing on the cold Sierra Nevada, likely drove the late Oligocene- aged normal slip along the SNNF and the similar-aged but generally local and minor extension within the Basin and Range. We posit that the thick proto–Basin and Range lithosphere was primed for late Oligocene extension by replacement of the steepening Farallon slab with hot and buoyant asthenosphere. While steepening of the Farallon slab had not yet reached the southern Sierra Nevada by late Oligocene time, we speculate that late Oligocene slip along the SNNF reactivated a late Cretaceous dextral shear zone as the Sierra Nevada block was pulled and pushed westward in response to trench retreat and gravitational potential energy. The dominant middle Miocene normal fault-slip history along the SNNF is contemporaneous with high-magnitude slip recorded along range-bounding normal faults across the Basin and Range, including the east-adjacent Inyo and White mountains, indicating that this period of extension was a major regional tectonic event. We infer that a combination of slab-driven trench retreat along the Juan de Fuca–North America subduction zone boundary and clockwise rotation of the southern ancestral Cascade Range superimposed on continental lithosphere pre-conditioned for extension drove this episode of middle Miocene normal slip along the SNNF and extension to the east across the Basin and Range. Transtensional plate motion along the Pacific–North America plate boundary, and likely a growing slab window, continued to drive extension along the SNNF and the western Basin and Range, but not until ca. 11 Ma when the Mendocino triple junction reached the latitude of our northernmost (U-Th)/He transect.
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美国加利福尼亚州南部内华达山脉正断层的新生代滑动:盆地和山脉的一个长期稳定的西部边界
加利福尼亚州内华达山脉的隆起历史是一个长期存在分歧的话题,其中大部分集中在内华达山脉南部东侧正断层边界范围内滑动的时间和性质上。正断层滑动的历史对于表征内华达山脉的隆起历史以及表征驱动并继续驱动正断层的地质和地球动力学因素非常重要。为了解决这些问题,我们完成了新的结构研究和广泛的磷灰石(U-Th)/He(AHe)热测年法,这些样品是从内华达山脉南部正断层(SNNF)向东倾斜的下盘中的三个垂直断面采集的。我们对基岩断层面的结构研究表明,SNNF是一条陡峭(~70°)的东倾正断层。新的AHe数据揭示了两个海拔不变的AHe年龄阵列,表明了两个不同的冷却和剥露期,我们将其解释为在约28-27 Ma沿SNNF开始的正断层,在约17-13 Ma开始的第二阶段正断层。我们认为,从渐新世晚期开始,SNNF标志着现在长期稳定的西部界限或断裂带,盆地和山脉。沿SNNF的滑动,以及下盘的相关卸载,可能导致内华达山脉在新生代晚期出现两个时期的隆起。受北美板块沿法拉隆-北美俯冲带边界向西运动的驱动,以及重力不稳定的北部和南部盆地和山脉对寒冷的内华达山脉的推动,海沟退缩,可能驱动了沿SNNF的渐新世晚期正常滑动,以及盆地和山脉内类似的但通常是局部和较小的延伸。我们推测,通过用热浮力软流圈替换变陡的Farallon板块,厚的原始盆地和山脉岩石圈为渐新世晚期的伸展做好了准备。虽然到渐新世晚期,Farallon板块的变陡尚未到达内华达山脉南部,但我们推测,随着内华达山脉地块因海沟退缩和重力势能而被拉向西部,沿SNNF的渐新世晚期滑动重新激活了白垩纪晚期右旋剪切带。沿SNNF的主要中新世中期正断层滑动历史与沿盆地和山脉(包括东部相邻的Inyo和White山脉)边界正断层记录的高震级滑动是同一时期的,这表明这一伸展时期是一个重大的区域构造事件。我们推断,沿着Juan de Fuca-北美俯冲带边界的板块驱动的海沟后退和叠加在大陆岩石圈上的南部祖先Cascade山脉的顺时针旋转共同驱动了这一中新世中期正滑事件,沿着SNNF向东延伸穿过盆地和山脉。沿着太平洋-北美洲板块边界的跨张性板块运动,很可能是一个不断增长的板块窗口,继续推动沿着SNNF和西部盆地和山脉的延伸,但直到大约11 Ma,当门多西诺三重交汇点到达我们最北(U-Th)/He样带的纬度时。
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来源期刊
Geosphere
Geosphere 地学-地球科学综合
CiteScore
4.40
自引率
12.00%
发文量
71
审稿时长
6-12 weeks
期刊介绍: Geosphere is GSA''s ambitious, online-only publication that addresses the growing need for timely publication of research results, data, software, and educational developments in ways that cannot be addressed by traditional formats. The journal''s rigorously peer-reviewed, high-quality research papers target an international audience in all geoscience fields. Its innovative format encourages extensive use of color, animations, interactivity, and oversize figures (maps, cross sections, etc.), and provides easy access to resources such as GIS databases, data archives, and modeling results. Geosphere''s broad scope and variety of contributions is a refreshing addition to traditional journals.
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