Araguainha impact structure, Brazil: New insights into the geology of the central uplift

IF 2.2 4区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Meteoritics & Planetary Science Pub Date : 2024-07-25 DOI:10.1111/maps.14236
Carolinna da Silva Maia de Souza, Natalia Hauser, Wolf Uwe Reimold, Renato Borges Bernardes, Lucieth Cruz Vieira, Edi Mendes Guimarães, Manfred Gottwald
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Abstract

Extensive, new outcrops along the MT-100 state road in the northern part of the central uplift of the 40-km diameter, 252–259 Ma old Araguainha impact structure, Central Brazil, have become available for investigation. They offer new insight into the contact relationships between the different lithologies and the genesis of different types of impact-related rocks, as well as the current level of erosion of the structure. Three types of impact melt rock (IMR) with different field relationships and compositions can now be distinguished: (1) Type-I of granitic composition and occurring mainly as veins and dikes, besides a few larger pods, in the central alkali granite core of the central uplift; (2) Type-II in the form of plastically deformed clasts of mainly highly silicious compositions in polymict impact breccia; and (3) Type-III, derived from partially melted conglomerate or sandstone precursors, and that occurs at selected sites in (meta)sedimentary strata of the basement in the immediate environs of the alkali granite core. Both polymict lithic and melt-bearing (suevitic) impact breccias are recognized in the 110-m thick integrated section through impact breccia directly overlying the crater floor. This crater floor is composed of (meta)-sedimentary basement strata with granite injections and, locally, sandstones of the Devonian sedimentary Furnas Formation of the Paraná Basin. Main breccia components are (meta)-pelites and (meta)sandstones of the basement that is currently favored to be related to the regional Paraguay Belt and to the lower sequence of the Paraná Basin sedimentary strata. Locally, breccia contains clasts of IMR Type-II, and only very rarely are granitic fragments observed. Clasts of IMR Type-I have never been observed in the breccia deposits. These new observations preclude significant involvement of alkali granite in the formation of the polymict breccia or in the production of shock melts. They also reveal the major role of the (meta)sedimentary precursors in the production of IMR by shock melting and provide essential information for better understanding the cratering processes involved in the formation of an impact structure in a sedimentary target, of the size of the Araguainha impact structure.

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巴西阿拉瓜因哈撞击结构:对中部隆起地质的新认识
在巴西中部直径 40 公里、距今 252-259 Ma 的阿拉瓜因哈撞击构造中央隆起北部的 MT-100 州公路沿线,有大量新的露头可供研究。它们为了解不同岩性之间的接触关系、不同类型的撞击相关岩石的成因以及该构造目前的侵蚀程度提供了新的视角。现在可以区分出三种类型的撞击熔岩(IMR),它们具有不同的岩场关系和成分:(1) I 型,花岗岩成分,主要以岩脉和岩埂的形式出现在中部隆起的碱性花岗岩核心,此外还有一些较大的岩荚;(2) II 型,主要以硅质成分的塑性变形碎屑的形式出现在多岩浆冲击角砾岩中;(3) 第三类,来自部分熔化的砾岩或砂岩前身,出现在碱性花岗岩核心周边基底(元)沉积地层的选定地点。在直接覆盖陨石坑底的 110 米厚的冲击角砾岩综合断面中,可以看到多岩浆岩和含熔岩(矽卡岩)的冲击角砾岩。陨石坑底部由(元)沉积基底地层和花岗岩喷注层组成,局部还有巴拉那盆地泥盆纪沉积富尔纳斯地层的砂岩。角砾岩的主要成分是基底的(元)花岗岩和(元)砂岩,目前认为这些基底与区域性巴拉圭带和巴拉那盆地沉积地层的下部序列有关。局部角砾岩中含有 IMR II 型碎屑,只有极少数情况下才能观察到花岗岩碎屑。在角砾岩沉积中从未观察到 IMR-I 型的碎屑。这些新的观察结果排除了碱性花岗岩在多岩体角砾岩的形成或冲击熔体的产生中的重要作用。它们还揭示了(元)沉积前体在通过冲击熔融产生 IMR 过程中的主要作用,并为更好地了解在沉积目标中形成阿拉瓜因哈冲击结构这种规模的冲击结构所涉及的破碎过程提供了重要信息。
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来源期刊
Meteoritics & Planetary Science
Meteoritics & Planetary Science 地学天文-地球化学与地球物理
CiteScore
3.90
自引率
31.80%
发文量
121
审稿时长
3 months
期刊介绍: First issued in 1953, the journal publishes research articles describing the latest results of new studies, invited reviews of major topics in planetary science, editorials on issues of current interest in the field, and book reviews. The publications are original, not considered for publication elsewhere, and undergo peer-review. The topics include the origin and history of the solar system, planets and natural satellites, interplanetary dust and interstellar medium, lunar samples, meteors, and meteorites, asteroids, comets, craters, and tektites. Our authors and editors are professional scientists representing numerous disciplines, including astronomy, astrophysics, physics, geophysics, chemistry, isotope geochemistry, mineralogy, earth science, geology, and biology. MAPS has subscribers in over 40 countries. Fifty percent of MAPS'' readers are based outside the USA. The journal is available in hard copy and online.
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