Cathodoluminescence Petrography and Stable Isotope Geochemistry of Carbonate Rocks to Evaluate Diagenetic Evolution of the Middle Jurassic Samana Suk Formation (SSF), Kahi Section, Nizampur Basin, NW Himalayas, Pakistan

IF 0.7 4区地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Doklady Earth Sciences Pub Date : 2024-08-11 DOI:10.1134/s1028334x24601779

H. U. Rahim, M. M. Shah, A. Kamal, T. Zafar, D. Navarro-Ciurana, M. S. Ahmed, M. Sami

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Abstract

Diagenetically modified carbonate rocks are more common in the rock record. These modifications, have altered the carbonate rocks significantly. The Middle Jurassic carbonates of the SSF are extensively altered by the diagenetic evolution and several dolomitization process in the Kahi Section, Nizampur Basin. The primary objective of this study is to investigate the diagenetic evolution and multiphase dolomitization through cathodoluminescence petrography and stable isotopic studies. Field investigations show both host limestone (oolitic, fossiliferous and massive) and dolomites. Different types of dolomites were recognized on the basis of color contrast as dark grey color replacive dolomite, light grey dolomite, brownish dolomite and yellowish dolomite. Beside replacive phase voids and fracture filling cementing saddle dolomite, and cementing calcites are also recognized in the field. Petrographic studies show the complex diagenetic history of Samana Suk Formation from near surface diagenesis including micritization, neomorphism and several varities of dolomites. These verities are: RD1 is very fine to fine grained dolomite, RD2 is medium to coarse grained and anhedral to subhedral dolomite, RD3 is coarse to very coarse grained and planner euhedral zoned dolomite, and RD4 is coarse grained euhedral to subhedral ferroan dolomite. In addition, cementing saddle dolomite SD have large crystal, curved faces with sweeping extinction. cementing calcite phases are CC1 is granular mosaic, CC2 is twin, CC3 is fracture filling, and CC4 is ferroan calcite. The stable isotope values of limestone (δ¹⁸O: –7.13 to –0.73‰ V-PDB and δ¹³C: –0.05 to 1.32‰ V-PDB) showing depletion in from the Jurassic marine signature. The multiphase dolomites RD1–RD4, SD values (δ¹⁸O: –8.65 to –3.16‰ and δ¹³C: –3.56 to +2.09‰) indicate multiphase dolomitization. The C1–C3 values (δ¹⁸O: –11.07 to –8.97‰ and δ¹³C: –2.14 to +0.76‰) indicate highly depleted values of δ¹⁸O showing its source from the hydrothermal origin. From field, petrography and stable isotopic geochemistry data it is deduced that possible source of the Mg for hydrothermal dolomites is through activation of faults and fractures during active tectonic regime in the area and can be related to activation and reactivation of Kahi Thrust system.

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通过碳酸盐岩的阴极荧光岩石学和稳定同位素地球化学评价巴基斯坦西北喜马拉雅山尼赞布尔盆地卡希段中侏罗世萨马纳苏克地层（SSF）的成因演化

摘要在岩石记录中，经过二基因改造的碳酸盐岩较为常见。这些改造使碳酸盐岩发生了显著变化。在尼赞普尔盆地 Kahi 段，SSF 中侏罗世碳酸盐岩因成岩演化和多次白云岩化过程而发生了广泛的改变。本研究的主要目的是通过阴极发光岩石学和稳定同位素研究，探讨成岩演化和多相白云石化过程。实地调查显示，既有寄主石灰岩（鲕状、化石状和块状），也有白云岩。根据颜色对比，可识别出不同类型的白云岩，如深灰色代换白云岩、浅灰色白云岩、褐色白云岩和淡黄色白云岩。除了置换相空隙和裂缝填充胶结鞍状白云岩外，现场还发现了胶结方解石。岩相学研究表明，萨马纳苏克地层的成岩历史非常复杂，从近地表成岩作用开始，包括微晶化、新变质作用和多种白云岩。这些变种是RD1 为细粒至细粒白云岩，RD2 为中粒至粗粒、正方体至次正方体白云岩，RD3 为粗粒至极粗粒、平面正方体带状白云岩，RD4 为粗粒正方体至次正方体铁质白云岩。此外，胶结鞍状白云石 SD 具有大晶体、弧形面和扫掠消光。胶结方解石相为 CC1（粒状镶嵌）、CC2（孪晶）、CC3（裂隙充填）和 CC4（铁方解石）。石灰岩的稳定同位素值（δ18O：-7.13 至 -0.73‰ V-PDB，δ13C：-0.05 至 1.32‰ V-PDB）显示出侏罗纪海相特征的损耗。多相白云岩 RD1-RD4，SD 值（δ18O：-8.65 至 -3.16‰，δ13C：-3.56 至 +2.09‰）表明多相白云岩化。C1-C3值（δ18O：-11.07至-8.97‰，δ13C：-2.14至+0.76‰）表明δ18O高度贫化，显示其来源于热液源。根据野外、岩相学和稳定同位素地球化学数据推断，热液白云岩的镁可能来源于该地区活动构造体系期间断层和裂缝的活化，可能与 Kahi 推力系统的活化和再活化有关。

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来源期刊

Doklady Earth Sciences 地学-地球科学综合

CiteScore

1.40

自引率

22.20%

发文量

138

审稿时长

3-6 weeks

期刊介绍： Doklady Earth Sciences is a journal that publishes new research in Earth science of great significance. Initially the journal was a forum of the Russian Academy of Science and published only best contributions from Russia. Now the journal welcomes submissions from any country in the English or Russian language. Every manuscript must be recommended by Russian or foreign members of the Russian Academy of Sciences.