美国犹他州中部上锡达山地层的构造沉积史

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-01 DOI:10.1111/sed.13211
Ryan T. Tucker, M. Ryan King, Michael T. Mohr, Ray K. Renaut, James L. Crowley, Jack W. Fekete, Peter J. Makovicky, Lindsay E. Zanno
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引用次数: 0

摘要

目前对西内陆阿尔卑斯-公元前沉积记录的研究发现,在北美持续演化过程中存在多种复杂的构造沉积过程-反应系统。其中一个重要的沉积演替,即锡达山地层上部(Short Canyon 成员和 Mussentuchit 成员),历来与各种区域性和大陆性重大构造事件有关,包括塞维尔褶皱和推覆变形。然而,由于缺乏高精度的年龄约束,Short Canyon 成员与活跃的塞维尔构造运动之间的联系一直不明确。为了确定时间背景,本研究将从Short Canyon岩层中提取的锆石碎片的最大沉积年龄与修正的贝叶斯年龄地层模型(自上而下)的最大沉积年龄进行了比较,推断Short Canyon岩层沉积于约100Ma,与犹他州的[Pavant (Pahvant)、Iron Springs和Nebo推力]再生推力同时发生。这也表明与上覆的穆森图奇特岩层最下部存在短暂的沉积间歇。肖特峡谷岩层和穆森图奇特岩层保留了明显不同的沉积演替,肖特峡谷岩层被解释为由副自冲造山带横穿(穿越塞维尔高地)的碎屑岩组成,沉积在一系列堆积分布的河流扇中。与此同时,浑浊的paralic Mussentuchit岩层由横向造山带(塞维尔高地和科迪勒拉弧)和平行造山带的基底沉积物以及发展中的碰撞前深渊中的悬浮沉降细粒混合而成。然而,非正式命名的最后机会砂岩(Mussentuchit 组的中砂岩)被确定为源自塞维尔高地的造山横向砂质碎屑流,与下伏的 Short Canyon 组相似。在地貌演化的这一阶段,Short Canyon 组-Mussentuchit 组沉积中心是一个沉积导管系统,将富含火山灰的沉积物注入西内陆海道。这些火山碎屑以及整个西内海道西部沿岸边缘的半同期沉积物,最终会降低含氧量,并导致引发仙人掌纪-震旦纪过渡时期大洋缺氧事件 2(Oceanic Anoxic Event 2)。
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Tectono‐sedimentary history of the upper Cedar Mountain Formation, Central Utah, USA
Current investigations into the Albian–Cenomanian sedimentary record within the Western Interior have identified multiple complex tectono‐sedimentary process–response systems during the ongoing evolution of North America. One key sedimentary succession, the upper Cedar Mountain Formation (Short Canyon Member and Mussentuchit Member), has historically been linked to various regionally and continentally significant tectonic events, including Sevier fold‐and‐thrust deformation. However, the linkage between the Short Canyon Member and active Sevier tectonism has been unclear due to a lack of high‐precision age constraints. To establish temporal context, this study compares maximum depositional ages from detrital zircons recovered from the Short Canyon Member with that of a modified Bayesian age stratigraphic model (top‐down) to infer that the Short Canyon Member was deposited at ca 100 Ma, penecontemporaneous with rejuvenated thrusting across Utah [Pavant (Pahvant), Iron Springs and Nebo thrusts]. These also indicate a short depositional hiatus with the lowermost portion of the overlying Mussentuchit Member. The Short Canyon Member and Mussentuchit Member preserve markedly different sedimentary successions, with the Short Canyon Member interpreted to be composed of para‐autochthonous orogen–transverse (across the Sevier highlands) clastics deposited within a series of stacked distributive fluvial fans. Meanwhile, the muddy paralic Mussentuchit Member was a mix of orogen–transverse (Sevier highlands and Cordilleran Arc) and orogen–parallel basinal sediments and suspension settling fines within the developing collisional foredeep. However, the informally named last chance sandstone (middle sandstone of the Mussentuchit Member) is identified as an orogen–transverse sandy debris flow originating from the Sevier highlands, similar to the underlying Short Canyon Member. During this phase of landscape evolution, the Short Canyon Member – Mussentuchit Member depocentre was a sedimentary conduit system that would fertilize the Western Interior Seaway with ash‐rich sediments. These volcaniclastic contributions, along with penecontemporaneous deposits across the western coastal margin of the Western Interior Seaway, eventually would have lowered oxygen content and resulted in a contributing antecedent trigger for the Cenomanian–Turonian transition Oceanic Anoxic Event 2.
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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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