新墨西哥州Robledo山下二叠统Hueco中下过渡段层序地层学

Q4 Earth and Planetary Sciences
G. Mack, K. Giles, C. Durr
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引用次数: 11

摘要

新墨西哥州Robledo山脉东南部的下二叠统(Wolfcampian) Hueco组中下段边界上,有一层96米厚的混合硅屑-碳酸盐层,其中包含深度敏感岩相,可以用来圈定Robledo陆架的海平面旋回。碳酸盐岩相包括:(1)窗状白云岩(潮上至高潮间带),(2)环状白云岩(低潮间带至泻湖),(3)有孔岩和颗粒岩(局限海相),(4)内碎屑、化石颗粒岩(潮道),(5)化石碎屑岩(开阔海相),而(6)页岩(近海海相)是唯一的硅碎屑岩相。硅屑岩相和碳酸盐岩相的存在可能与海平面变化有关,但也可能受到古气候的影响,碳酸盐沉积在较干旱的时期,硅屑岩相沉积在较潮湿的时期。与Hueco组的其余部分相比,Robledo陆架在Hueco中下游过渡时期的沉积过程中经历了更有限的海洋条件,更浅,没有河流穿过。在Hueco中下过渡带中,存在着多种尺度的海平面旋回,包括分米至米尺度的上浅层准层序、以碳酸盐岩和页岩互层为主要代表的分米至米尺度的层序,以及由深水层序套上浅水层序套组成的米至十米尺度复合大层序。粗略估计,这些序列的平均持续时间约为87ky,这与冰川-隆起的起源相一致。然而,复合大气体层序的平均持续时间(约600 ky)比最长的冰川-海平面上升旋回(约400 ky)要长,这表明非冰川海平面上升和/或构造沉降可能是控制因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sequence stratigraphy of the lower-middle Hueco transition interval (lower Permian, Wolfcampian), Robledo Mountains, New Mexico
A 96-m-thick, mixed siliciclastic-carbonate interval spanning the boundary between the lower and middle members of the lower Permian (Wolfcampian) Hueco Formation in the southeastern Robledo Mountains, New Mexico, contains depth-sensitive lithofacies that allow delineation of sea-level cycles on the Robledo Shelf. Carbonate lithofacies include (1) fenestral dolomudstone (supratidal to high intertidal), (2) peloidal dolomudstone (low intertidal to lagoon), (3) foram packstone and grainstone (restricted marine), (4) intraclast, fossiliferous grainstone (tidal channel), and (5) fossiliferous packstone (open marine), whereas (6) shale (offshore marine) constitutes the only siliciclastic lithofacies. The presence of both siliciclastic and carbonate lithofacies may be related to sea-level change but may also have been influenced by paleoclimate, with carbonate sediment deposited during more arid periods and siliciclastic sediment deposited during more humid periods. Compared to the remainder of the Hueco Formation, the Robledo Shelf experienced more restricted marine conditions, was shallower, and was not traversed by rivers during deposition of the lower-middle Hueco transition. Several scales of sea-level cyclicity are present within the lower-middle Hueco transition, including decimeter-to meter-scale upwardshallowing parasequences, decimeter- to meter-scale sequences primarily represented by interbeds of carbonate and shale, and meter- to dekameter-scale composite megasequences composed of deeper-water sets of sequences overlain by shallower-water sets of sequences. A rough estimate of the average duration of the sequences is about 87 k.y., which is consistent with a glacial-eustatic origin. The average duration of the composite megasequences (about 600 k.y.), however, is longer than the longest glacial-eustatic cycle (about 400 k.y.), suggesting the possible role of non glacial eustacy and/or tectonic subsidence as controlling factors.
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来源期刊
New Mexico Geology
New Mexico Geology Earth and Planetary Sciences-Geology
CiteScore
0.60
自引率
0.00%
发文量
0
期刊介绍: New Mexico Geology is a quarterly, peer-reviewed journal available by subscription. Articles of original research are generally less than 10,000 words in length and pertain to the geology of New Mexico and neighboring states, primarily for an audience of professional geologists or those with an interest in the geologic story behind the landscape. The journal also publishes abstracts from regional meetings, theses, and dissertations (NM schools), descriptions of new publications, book reviews, and upcoming meetings. Research papers, short articles, and abstracts from selected back issues of New Mexico Geology are now available as free downloads in PDF format. Back issues are also available in hard copy for a nominal fee.
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