Ypresian–Lutetian platform evolution in the Indus Basin, Southwestern Pakistan: An interplay between local and regional tectonic changes

IF 2.7 2区 地球科学 Q1 GEOLOGY
Maqsood Ur Rahman , Muhammad Hanif , Tao Jiang , Wang Qianru , Fulong Ning , Muhammad Sarim , Muhammad Rizwan , Faheem Ahmed
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引用次数: 0

Abstract

The present investigation aims to analyze the depositional environment, sequence stratigraphy, and geochemistry of the Early–Middle Eocene succession in the Laki Range of the Southern Indus Basin, Pakistan. The sequence is subsequently correlated with other sections within the Southern Indus Basin, Central Indus Basin, Upper Indus Basin, and Hazara Basin in Pakistan. For this study, the Lakhra and Laki formations were sampled from four sections in the Laki Range. Based on detailed outcrop observations, eight lithofacies were identified including four clastic lithofacies (CLF-1 to 4) and four limestone lithofacies (LLF-1 to 4). Similarly, based on detailed petrographic examination, seven microfacies were identified in limestone units. Considering the biotic paleoecology, facies texture, and chemical composition, depositional environments were assigned to the microfacies and lithofacies. All the microfacies, and the shale and sandstone lithofacies (CLF-1 and CLF-4) represent shallow inner to deeper outer-shelf settings whereas the other two lithofacies (CLF-2 and CLF-3) represent deltaic and tidal flat settings, respectively. All the microfacies and lithofacies information was used to establish sequence stratigraphy for the studied strata. The top of the Lakhra Formation and the whole of the Laki Formation in the Bara Nala Section (BNS) represent two complete, and two partial, third-order sequences, further divided into fourth order and small-scale cycles. The sequence's development is primarily influenced by regional and local tectonics. The regional correlation of the Indus Basin and Hazara Basin indicates that the regional basin's bathymetry and resultant depositional sequence were significantly influenced by the Himalayan Orogeny. The regional depositional pattern indicates that subsequent to India–Asia collision, the closure of eastern Tethys took place in a temporal succession from northwestern to the southwestern parts of the Indus Basin. In the Central Indus Basin, marine environments persisted until the Priabonian Stage (SBZ20) compared to those of the Upper (SBZ11–12) and Southern (SBZ13–14) Indus basins. This study offers valuable insights into both the local and regional depositional frameworks and the influence of local and regional tectonics on a carbonate platform evolution.

巴基斯坦西南部印度河盆地的伊普雷期-卢塞梯期地台演化;局部和区域构造变化之间的相互作用
本研究旨在分析巴基斯坦南印度河盆地拉基山脉早-中始新世演替的沉积环境、层序地层学和地球化学。该层序随后与巴基斯坦南印度河盆地、中印度河盆地、上印度河盆地和哈扎拉盆地的其他地段进行了关联。本次研究在拉基山脉的四个地段对拉克拉和拉基地层进行了取样。根据详细的露头观察,确定了八个岩性,包括四个碎屑岩岩性(CLF-1 至 4)和四个石灰岩岩性(LLF-1 至 4)。同样,根据详细的岩相检查,在石灰岩单元中确定了七个微岩相。考虑到生物古生态、岩相质地和化学成分,将沉积环境划分到微岩相和岩相中。所有微岩相以及页岩和砂岩岩相(CLF-1 和 CLF-4)都代表了由浅至深的外大陆架环境,而另外两个岩相(CLF-2 和 CLF-3)则分别代表了三角洲和潮平带环境。所有微岩相和岩相信息都被用来建立所研究地层的层序地层学。巴拉纳拉断面(BNS)中的拉赫拉地层顶部和整个拉基地层代表两个完整的三阶序列和两个局部的三阶序列,并进一步分为四阶和小规模循环。地层序列的发展主要受区域和地方构造的影响。印度河盆地和哈扎拉盆地的区域相关性表明,该区域盆地的水深和由此产生的沉积序列受到喜马拉雅造山运动的重大影响。区域沉积模式表明,在印度-亚洲碰撞之后,特提斯大陆东部的封闭从印度河盆地的西北部向西南部依次进行。与上印度河盆地(SBZ11-12)和南印度河盆地(SBZ13-14)相比,中印度河盆地的海洋环境一直持续到普里阿本纪(SBZ20)。这项研究为了解当地和区域沉积框架以及当地和区域构造对碳酸盐平台演化的影响提供了宝贵的见解。
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来源期刊
Sedimentary Geology
Sedimentary Geology 地学-地质学
CiteScore
5.10
自引率
7.10%
发文量
133
审稿时长
32 days
期刊介绍: Sedimentary Geology is a journal that rapidly publishes high quality, original research and review papers that cover all aspects of sediments and sedimentary rocks at all spatial and temporal scales. Submitted papers must make a significant contribution to the field of study and must place the research in a broad context, so that it is of interest to the diverse, international readership of the journal. Papers that are largely descriptive in nature, of limited scope or local geographical significance, or based on limited data will not be considered for publication.
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