Paleogeographic reconstruction of regional accretionary complex architecture, Franciscan Complex, northwestern San Francisco Bay Area, California, USA

IF 1.7 3区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Geosphere Pub Date : 2023-04-28 DOI:10.1130/ges02604.1

L. A. Raymond, D. Bero

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引用次数: 0

Abstract

The Franciscan Complex of western California, USA, the archetypal subduction accretionary complex, cannot serve as a model subduction accretionary complex unless its local-to-regional architecture is clearly under- stood. Yet, architectural details are not clearly understood in many regions, including the northwestern San Francisco Bay Area. Here, Cenozoic-age, dextral strike-slip faulting on faults of the San Andreas System fragmented the original architecture, forming crustal blocks and juxtaposing fragments of accretionary rock of different tectonostratigraphy. One little-known Cenozoic-age fault and block boundary, the Tamarancho Shear Zone, separates northeastern crustal blocks that are dominated by Franciscan rocks from southwestern blocks with significantly different Franciscan accretionary tectonostratigraphy. The northeastern blocks have abbreviated accretionary stacks with at least one blueschist-facies accretionary unit, whereas the southwestern blocks lack blueschist-facies accretionary units and have either a westward-and-downward–younging Franciscan tectonostratigra- phy or thrust-sheet stacks composed of partial sequences of ocean-plate stratigraphy rocks. The northwestern San Francisco Bay Area Franciscan Complex is bounded on the southwest by the San Andreas fault (sensu stricto) and on the northeast by the Petaluma Valley–Point Richmond–Silver Creek fault. Using paleogeographic reconstruction, the original Franciscan Complex accretionary architecture of the northwestern San Francisco Bay Area can be partially reconstructed by removing block separations on San Andreas System faults and enhanced by unfolding Cenozoic folds. Accretionary units of the northwestern San Francisco Bay Area Franciscan Complex were originally assembled ~190 km southeast of their present locations, west of the southern Diablo Range. Reconstruction of the accretionary complex in that location and considerations of tectonostratigraphy require that the Novato Block, located northeast of the Tamarancho Shear Zone, and the Mt. Tamalpais Block, to its southwest, be separated along or across strike in the reconstructed accretionary complex. Either dual subduction zone or faulted plate geometries produced the northwestern San Francisco Bay Area segment of the accretionary complex, and each model highlights the possibilities of along- or across-strike variations in the structure and history of the accretionary complex.

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美国加利福尼亚州旧金山湾区西北方济各会建筑群区域增生复合体建筑的古地理重建

美国加州西部的方济各杂岩是典型的俯冲增生杂岩，除非对其局部-区域结构有明确的认识，否则不能作为典型的俯冲增生杂岩。然而，在许多地区，包括旧金山湾区西北部，建筑细节还不清楚。在这里，新生代在圣安德烈亚斯体系断层上的右旋走滑断裂使原有的构造破碎，形成地壳块体，并将不同构造地层的增生岩碎片并置。Tamarancho剪切带是一个鲜为人知的新生代断裂和块体边界，它将以方济会岩石为主的东北地壳块体与具有明显不同方济会增生构造地层的西南地块分开。东北地块具有至少一个蓝片岩相增生单元的简短增生堆，而西南地块缺乏蓝片岩相增生单元，具有西向和下向年轻的方济各构造地层或由洋板地层岩石部分层序组成的逆冲片叠。旧金山湾区西北部的方济各复合体在西南被圣安德烈亚斯断层(严格意义上的)所包围，在东北被佩塔卢马山谷-里士满-银溪断层所包围。利用古地理重建技术，通过消除圣安德烈亚斯系统断层上的块体分离，可以部分重建旧金山湾区西北部原有的方济杂岩增生构造，并通过展开新生代褶皱增强原有的方济杂岩增生构造。旧金山湾区方济会复合体西北部的增生单元最初是在其当前位置东南190公里处，Diablo山脉南部以西聚集的。对该地区增生杂岩的重建和构造地层学的考虑，要求在重建的增生杂岩中，将位于Tamarancho剪切带东北部的Novato地块与位于其西南部的Mt. Tamalpais地块沿走向或跨走向分开。无论是双俯冲带还是断裂板块几何形状都产生了旧金山湾区西北部的增生杂岩段，每种模型都强调了增生杂岩结构和历史上沿或跨走向变化的可能性。

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来源期刊

Geosphere 地学-地球科学综合

CiteScore

4.40

自引率

12.00%

发文量

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.