Evidence for Possible Late Paleozoic Alleghenian Deformation Structures in the Devonian Rocks of Erie County, Ohio, USA

Q4 Multidisciplinary

Ohio Journal of Sciences Pub Date : 2022-05-24 DOI:10.18061/ojs.v122i2.8325

Mohammad D. Fakhari, D. M. Jones, M. Baranoski

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引用次数: 0

Abstract

Partially exposed bedrock beneath Pleistocene glacial till in Erie County (north-central Ohio) displays unusual structural deformation in the Devonian Berea Sandstone, Bedford Shale, and Ohio Shale. These folded and faulted units are exposed in creeks as anticlines and synclines. Past studies of this area proposed Pleistocene ice movement and soft-sediment deformation during the Late Paleozoic as the deformation mechanisms, but these hypotheses cannot explain the extent of layer displacement or the contradiction between the southwest travel direction of the ice sheet and the structural sense of motion on the folded units. A new interpretation using field data and constructing geologic profiles explains the development of these structures. This study investigated 17 anticlines that trend in different directions. Four of these anticlines are tightly folded with steep or overturned flanks and thrust-faulted Ohio Shale in their cores. Structural analysis of these folds shows that the incompetent shaly units of the Plum Brook–Ohio–Bedford and competent Berea Sandstone were folded above the Delaware–Niagara carbonates as a result of the compressional stress during the Late Paleozoic. Development of these tight or overturned folds, and change in trend of the anticlines, is caused by unusual stratigraphic thickness variations in the Berea and Bedford units. Preserved and undeformed fine sedimentary structures, and sharply faulted beds, in the Berea and Bedford indicate that soft-sediment deformation was not the cause of the regional structural deformation. Finally, the absence of physical features of glacially deformed bedrock demonstrates that Pleistocene glacial ice shove was not the cause of deformed bedrock units in the study area.

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美国俄亥俄州伊利县泥盆纪岩石中可能的晚古生代阿勒格尼期变形构造证据

伊利县(俄亥俄州中北部)更新世冰川碛下部分裸露的基岩在泥盆系Berea砂岩、贝德福德页岩和俄亥俄页岩中显示出不寻常的结构变形。这些褶皱和断裂单元以背斜和向斜的形式暴露在溪中。以往的研究提出更新世冰川运动和晚古生代软沉积变形是该地区的变形机制，但这些假说不能解释地层位移的程度，也不能解释冰盖西南移动方向与褶皱单元上的构造运动感之间的矛盾。利用野外资料和构造地质剖面的新解释解释了这些构造的发展。本研究调查了17个不同方向的背斜。其中四个背斜紧密折叠，两侧陡峭或倒转，核心处有逆冲断层的俄亥俄页岩。构造分析表明，在晚古生代挤压应力作用下，梅溪-俄亥俄-贝德福德弱泥质单元和伯里亚砂岩强泥质单元在特拉华-尼亚加拉碳酸盐岩之上褶皱。这些致密褶皱或倒转褶皱的发育和背斜走向的变化，是由伯里亚和贝德福德单元异常的地层厚度变化引起的。伯里亚和贝德福德地区保存完好的细沉积构造和尖锐的断裂层表明，软沉积变形不是区域构造变形的原因。冰川变形基岩物理特征的缺失说明更新世冰川冰推不是研究区基岩单元变形的原因。

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来源期刊

Ohio Journal of Sciences Multidisciplinary-Multidisciplinary

CiteScore

0.30

自引率

0.00%

发文量

期刊介绍： Published quarterly, plus the Annual Meeting Program Abstracts, The Ohio Journal of Science is the official publication of the Academy. The Journal publishes peer-reviewed, refereed papers contributing original knowledge to science, engineering, technology, education and their applications. The Journal is indexed and abstracted by many of the world"s leading indexing and abstracting services including State Academies of Science Abstracts which indexes the past 50 years of The Ohio Journal of Science.