美国阿拉巴马州和乔治亚州阿巴拉契亚腹地最南端最年轻的推进器之一的最新古生代Allatoona断层的几何和运动学。

IF 1.9 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
J. Tull, C. Holm-Denoma, Nawwaf A. Almuntshry, Ericka McMahan
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引用次数: 0

摘要

阿巴拉契亚蓝岭-皮埃蒙特大逆冲断层最南端腹地的阿拉图纳逆冲断层是造山带西侧事件运动学序列中的最新结构之一。它是一条异序、克拉通指向的逆冲断层,切割了变质等梯度和早期逆冲,具有≥280km的近似线性轨迹,是造山带的主要逆冲断层之一。在西北部,断层切割宾夕法尼亚纪或更年轻的(?)区域交叉背斜,导致较老的下伏逆冲片发生显著的造山弯曲,年龄可能为二叠纪。然而,在东南方向,断层上盘内的单元保持着几乎恒定的宽度,导致造山带的区域结构发生了重大变化。在断层的中段,它标志着蓝岭地区的西部/东部边界,一个约20公里长的眼睑窗口(Mulberry Rock窗口)由覆盖在绿片岩相Talladega带异地上的三个角闪岩相逆冲片构成,可以三维观察区域逆冲的结构结构、运动学和轨迹。窗口内的两个早期逆冲断层(Mulberry Rock和Burnt Hickory Ridge逆冲断层,组合最小水平净滑动分量为27km)被Allatoona断层切割,该断层是一个约15m宽的高应变带,顶部向西北位移,水平净滑动矢量>17.2km。Allatoona和Mulberry Rock逆冲断层之间的构造分支点表明,Mulberry岩石异地是Allatouna断层下方的一个大型北向马,以Mulberry岩窗口为中心,这可能是大型Mulberry岩片麻岩上斜斜坡逆冲的结果。阿拉图纳断层向东北和西北倾斜切入构造地层图,逐渐深入,局部接近下伏的前陆冲断层,并切割较老的区域结构。在东北部,阿拉图纳断层位于达洛内加金矿带的底部,成为佐治亚州道森维尔的内部东部蓝岭逆冲断层。尽管该序列又延伸了120公里进入北卡罗来纳州,但阿拉图纳断层的延续距离仍存在争议。无论如何,阿拉图纳断层是阿巴拉契亚造山带南部运动上最新、最长的断层之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Geometry and Kinematics of the Latest Paleozoic Allatoona Fault, One of the Youngest Thrusts in the Southernmost Appalachian Hinterland, Alabama and Georgia, U.S.A.
The Allatoona thrust fault in the southernmost hinterland of the Appalachian Blue Ridge-Piedmont megathrust sheet is among the latest structures in the kinematic sequence of events along the west flank of the orogen. It is an out-of-sequence, craton-directed thrust fault that cuts metamorphic isograds and earlier thrusts, and it has a nearly linear trace of ≥280 km, making it one of the major thrust faults in the orogen. On the northwest, the fault cuts Pennsylvanian or younger(?) regional cross antiforms that cause significant orogenic curvature of older underlying thrust sheets and is likely Permian in age. To the southeast, however, units within the fault hanging wall maintain a nearly constant width resulting in a significant change in the regional structural architecture of the orogen. In the central segment of the fault, where it marks the western/eastern Blue Ridge domain boundary, a ~20 km-long eyelid window (Mulberry Rock window) framed by three amphibolite facies thrust sheets overlying the greenschist facies Talladega belt allochthon, allows a 3-D view into the structural architecture, kinematics, and trajectories of the regional thrusts. Two earlier thrusts within the window (Mulberry Rock and Burnt Hickory Ridge thrusts, with a combined minimum horizontal net slip component of 27 km) are cut by the Allatoona fault, which is a ~15 m-wide high strain zone with top-to-the-northwest displacement, and a >17.2 km horizontal net slip vector. Structural branch points between the Allatoona and Mulberry Rock thrusts indicate that the Mulberry Rock allochthon is a large north-trending horse beneath the Allatoona fault, centered on the Mulberry Rock window, which is likely the result of oblique ramp thrusting over the massive Mulberry Rock Gneiss. The Allatoona fault cuts down obliquely into the tectonostratigraphy progressively deeper both to the northeast and northwest, locally approaching underlying foreland thrust sheets, and cutting older regional structures. To the northeast, the Allatoona fault lies at the base of the Dahlonega gold belt, becoming an internal eastern Blue Ridge thrust at Dawsonville, Georgia. Although that sequence extends another 120 km into North Carolina, continuation of the Allatoona fault that additional distance is in debate. Regardless, the Allatoona is one of the kinematically latest and longest faults in the southern Appalachian orogen.
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来源期刊
American Journal of Science
American Journal of Science 地学-地球科学综合
CiteScore
5.80
自引率
3.40%
发文量
17
审稿时长
>12 weeks
期刊介绍: The American Journal of Science (AJS), founded in 1818 by Benjamin Silliman, is the oldest scientific journal in the United States that has been published continuously. The Journal is devoted to geology and related sciences and publishes articles from around the world presenting results of major research from all earth sciences. Readers are primarily earth scientists in academia and government institutions.
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