慈善浅滩结构的三维地下地球物理建模:安大略湖东部可能的晚新生代-早古生代简单撞击结构

IF 2.9 3区 地球科学 Q2 ASTRONOMY & ASTROPHYSICS Earth and Space Science Pub Date : 2024-11-18 DOI:10.1029/2024EA003605
Mary H. Armour, Joseph I. Boyce, Phillip Suttak, Doug Hrvoic
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引用次数: 0

摘要

慈善浅滩结构是安大略湖东部的一个直径 1.2 千米的圆形基岩边缘浅滩,中央有一个 20 米深的盆地。该结构被认为可能是中奥陶世的撞击坑或火山侵入体。我们进行了海洋地震和磁力勘测(9 平方公里)以及三维地球物理建模,以更好地了解 Charity Shoal 的地下地质情况和可能的起源。我们对三种模型进行了评估:(a) 中新生代基底中的埋藏(450 米)冲击结构,(b) maar-diatreme,(c) 圆柱形带状火山塞。地震剖面和多波束水深测量显示,在中奥陶世(特伦顿组)碳酸盐基岩上覆盖着 30 米的第四纪沉积物,结构边缘存在复杂的三维褶皱和断层。磁性勘测记录了结构边缘的环形磁性高点(>600 nT)和中心磁性低点(∼500-600 nT),与∼-1.7 mGal Bouguer 重力异常点相吻合。地震剖面中特伦顿组地层的连续性排除了之前提出的中生代岩浆-地幔侵入古生代地层的可能性。分区火山塞模型再现了环状磁异常,但与布格重力剖面不符。磁异常的最佳再现是位于中生代基底 450-500 米深处的一个简单的冲击结构,其边缘到边缘的直径为 1.2 千米,边缘高度为 10-20 米。一个埋藏在地下(450 米)的简单撞击坑最符合慈善浅滩现有的所有地球物理数据。
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3-D Subsurface Geophysical Modeling of the Charity Shoal Structure: A Probable Late Proterozoic-Early Paleozoic Simple Impact Structure in Eastern Lake Ontario

The Charity Shoal structure is a circular, ∼1.2-km-diameter, bedrock-rimmed shoal in eastern Lake Ontario with a ∼20-m-deep central basin. The structure has been proposed as a possible Middle Ordovician impact crater or volcanic intrusion. We conducted marine seismic and magnetic surveys (9-km2) and 3-D geophysical modeling to better resolve the Charity Shoal subsurface geology and possible origins. Three models were evaluated: (a) a buried (>450 m) impact structure in Mesoproterozoic basement, (b) a maar-diatreme, (c) a cylindrical, zoned volcanic plug. Seismic profiles and multi-beam bathymetry revealed >30 m of Quaternary sediments overlying Middle Ordovician (Trenton Group) carbonate bedrock and complex, 3-dimensional folding and faulting of the structure rim. Magnetic surveys recorded an annular magnetic high (>600 nT) over the structure rim and a central magnetic low (∼500–600 nT) coincident with a ∼−1.7 mGal Bouguer gravity anomaly. The continuity of Trenton Group strata in seismic profiles rules out a previously proposed Mesozoic maar-diatreme intruded into Paleozoic strata. The zoned volcanic plug model reproduced the annular magnetic anomaly but was incompatible with Bouguer gravity profiles. The magnetic anomaly was best reproduced by a simple impact structure seated in Mesoproterozoic basement at 450–500 m depth with a rim-to-rim diameter of ∼1.2 km and rim height of ∼10–20 m. A 100-m wide and 50-m-deep channel in the Mesoproterozoic basement may record fluvial dissection of the southwestern rim. A buried (>450 m), simple impact crater is most compatible with all available geophysical data at Charity Shoal.

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来源期刊
Earth and Space Science
Earth and Space Science Earth and Planetary Sciences-General Earth and Planetary Sciences
CiteScore
5.50
自引率
3.20%
发文量
285
审稿时长
19 weeks
期刊介绍: Marking AGU’s second new open access journal in the last 12 months, Earth and Space Science is the only journal that reflects the expansive range of science represented by AGU’s 62,000 members, including all of the Earth, planetary, and space sciences, and related fields in environmental science, geoengineering, space engineering, and biogeochemistry.
期刊最新文献
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