Deep Structure of Siletzia in the Puget Lowland: Imaging an Obducted Plateau and Accretionary Thrust Belt With Potential Fields

IF 3.3 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Tectonics Pub Date : 2024-02-06 DOI:10.1029/2022tc007720
M. L. Anderson, R. J. Blakely, R. E. Wells, J. D. Dragovich
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Abstract

Detailed understanding of crustal components and tectonic history of forearcs is important due to their geological complexity and high seismic hazard. The principal component of the Cascadia forearc is Siletzia, a composite basaltic terrane of oceanic origin. Much is known about the lithology and age of the province. However, glacial sediments blanketing the Puget Lowland obscure its lateral extent and internal structure, hindering our ability to fully understand its tectonic history and its influence on modern deformation. In this study, we apply map-view interpretation and two-dimensional modeling of aeromagnetic and gravity data to the magnetically stratified Siletzia terrane revealing its internal structure and characterizing its eastern boundary. These analyses suggest the contact between Siletzia (Crescent Formation) and the Eocene accretionary prism trends northward under Lake Washington. North of Seattle, this boundary dips east where it crosses the Kingston arch, whereas south of Seattle the contact dips west where it crosses the Seattle uplift (SU). This westward dip is opposite the dip of the Eocene subduction interface, implying obduction of Siletzia upper crust at this southern location. Elongate pairs of high and low magnetic anomalies over the SU suggest imbrication of steeply-dipping, deeply rooted slices of Crescent Formation within Siletzia. We hypothesize these features result from duplication of Crescent Formation in an accretionary fold-thrust belt during the Eocene. The active Seattle fault divides this Eocene fold-thrust belt into two zones with different structural trends and opposite frontal ramp dips, suggesting the Seattle fault may have originated as a tear fault during accretion.
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普吉特低地 Siletzia 的深部结构:利用潜在场成像俯冲高原和冲积推力带
前弧地质复杂,地震危险性高,因此详细了解前弧的地壳成分和构造历史非常重要。卡斯卡迪亚前弧的主要组成部分是西莱齐亚(Siletzia),这是一个起源于大洋的复合玄武岩地层。人们对该区的岩性和年龄知之甚少。然而,冰川沉积物覆盖了普吉特低地,掩盖了其横向范围和内部结构,阻碍了我们全面了解其构造历史及其对现代变形的影响。在这项研究中,我们对磁性分层的 Siletzia terrane 应用了地图视图解释和气磁及重力数据的二维建模,揭示了其内部结构,并描述了其东部边界的特征。这些分析表明,锡莱齐亚地层(新月地层)与始新世增生棱岩的接触面在华盛顿湖下呈向北的趋势。在西雅图以北,该边界向东倾斜,穿过金斯敦拱,而在西雅图以南,该接触向西倾斜,穿过西雅图隆起(SU)。这一向西的倾角与始新世俯冲界面的倾角相反,这意味着西莱齐亚上地壳在这一南部位置发生了俯冲。在西莱齐亚隆起带上的成对拉长的高低磁异常表明,在西莱齐亚内部,新月地层的陡峭倾角和根深蒂固的切片相互交错。我们推测,这些地貌是新月地层在始新世时期的增生褶皱推力带中重复形成的。活跃的西雅图断层将这一始新世褶皱-推力带分为两个区域,这两个区域具有不同的构造趋势和相反的正面斜坡倾角,这表明西雅图断层可能起源于增生过程中的撕裂断层。
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来源期刊
Tectonics
Tectonics 地学-地球化学与地球物理
CiteScore
7.70
自引率
9.50%
发文量
151
审稿时长
3 months
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.
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