Diagenetic evolution and chemical changes of deep-water mudstones of Shahejie Formation in the Dongying Sag, Jiyang Depression, Eastern China

T. Yang; Y. Cao; H. Friis; Y. Wang; L. Zhou

doi:10.1016/j.marpetgeo.2018.02.005

Diagenetic evolution and chemical changes of deep-water mudstones of Shahejie Formation in the Dongying Sag, Jiyang Depression, Eastern China

T. Yang, Y. Cao, H. Friis, Y. Wang, L. Zhou

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

© 2018 Elsevier LtdThe diagenetic evolution and chemical changes of mudstones have a significant influence on the reservoir quality of the mudstones and their interbedded sandstones. To investigate, a variety of methods were applied to the mudstones in the middle of the third member of the Shahejie Formation (Es3z), which were formed in a lacustrine basin during 43.7–38.2 Ma. Optical microscopy and XRD analysis show that the mudstones are dominated by clay minerals (56.8%) followed by carbonate (18.2%), quartz (14.9%), feldspar (8.4%), pyrite (0.9%), anhydrite (0.8%), and total organic carbon (TOC: 2.4%). Cementation and replacement are the main diagenetic events in the mudstone of Es3z. Carbonates and clay minerals are the most common cements, but occasionally authigenic pyrite, albite, and quartz are also present. At the eogenetic stage, the diagenetic events comprised precipitation of pyrite, siderite, dolomite, and calcite besides transformation of K-feldspar into kaolinite. During the mesogenetic stage, the main diagenetic events included precipitation of fracture-filling calcite, ferroan calcite, ankerite, microcrystalline quartz, quartz overgrowth, and transformation of K-feldspar into illite and albite. The limited variation of the Nb/Ta and Zr/Hf ratios and the almost identical distribution pattern of the REE and trace elements indicate that the detrital material in the mudstones was sourced by a common provenance of felsic igneous rocks. The CIA values of Es3z mudstones vary from 50.59 to 65.05 and the PIA values vary from 50.86 to 75.58, which confirm a low-intensity weathering of the source area. Thus, the variation in the bulk-rock geochemical composition of the mudstones may not be primary, but instead a result of mass transfer with the interbedded sandstones during diagenesis. Changes ratios between aim elements (Al, Si, Ca and K) and immobile elements with burial depth in combination with mass balance calculation indicate that aluminum and silicon were retained by the precipitation of authigenic minerals in the mudstone. The mudstones have received progressively more potassium with increasing depths, whereas calcium has been expelled. The reservoir quality of the Es3z sandstones has mainly been affected by the diagenetically induced decrease in the carbonate content in the mudstones causing carbonate cementation in the sandstones.

Original language	English
Pages (from-to)	14-32
Journal	Marine and Petroleum Geology
Volume	93
DOIs	https://doi.org/10.1016/j.marpetgeo.2018.02.005
Publication status	Published - 1 May 2018
Externally published	Yes

Funding

The research was co-funded by the National Natural Science Foundation of China (Grant No. U1762217), the National Science and Technology Special Grant (Grant No.2016ZX05006-003), the China Postdoctoral Science Foundation (Grant No. 2017M622314), the Fundamental Research Funds for the Central Universities (Grant No. 15CX08001A), and the Chinese Scholarship Council (No. 201506450029). We thank Shengli Oilfield Company of SINOPEC for providing all related research core samples and some of the geological data of the Dongying sag. Dr. Lichao Liu from Aarhus University is thanked for helping of dealing the data analysis. Olivarius Mette from Geological Survey of Denmark and Greenland is thanked for improving the English. Prof. Andrew Aplin from Durham University read the early version of this paper. The reviewers Susanne Gier and Carlos Oscar Limarino are thanked for constructive comments that helped improve the manuscript. The research was co-funded by the National Natural Science Foundation of China (Grant No. U1762217 ), the National Science and Technology Special Grant (Grant No. 2016ZX05006-003 ), the China Postdoctoral Science Foundation (Grant No. 2017M622314 ), the Fundamental Research Funds for the Central Universities (Grant No. 15CX08001A ), and the Chinese Scholarship Council (No. 201506450029 ). We thank Shengli Oilfield Company of SINOPEC for providing all related research core samples and some of the geological data of the Dongying sag. Dr. Lichao Liu from Aarhus University is thanked for helping of dealing the data analysis. Olivarius Mette from Geological Survey of Denmark and Greenland is thanked for improving the English. Prof. Andrew Aplin from Durham University read the early version of this paper. The reviewers Susanne Gier and Carlos Oscar Limarino are thanked for constructive comments that helped improve the manuscript. Appendix A

Funders	Funder number
Chinese Scholarship Council
National Natural Science Foundation of China
National Science and Technology Special	2016ZX05006-003
National Natural Science Foundation of China	U1762217
China Postdoctoral Science Foundation	2017M622314
China Scholarship Council	201506450029
Fundamental Research Funds for the Central Universities	15CX08001A

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title = "Diagenetic evolution and chemical changes of deep-water mudstones of Shahejie Formation in the Dongying Sag, Jiyang Depression, Eastern China",

abstract = "{\textcopyright} 2018 Elsevier LtdThe diagenetic evolution and chemical changes of mudstones have a significant influence on the reservoir quality of the mudstones and their interbedded sandstones. To investigate, a variety of methods were applied to the mudstones in the middle of the third member of the Shahejie Formation (Es3z), which were formed in a lacustrine basin during 43.7–38.2 Ma. Optical microscopy and XRD analysis show that the mudstones are dominated by clay minerals (56.8\%) followed by carbonate (18.2\%), quartz (14.9\%), feldspar (8.4\%), pyrite (0.9\%), anhydrite (0.8\%), and total organic carbon (TOC: 2.4\%). Cementation and replacement are the main diagenetic events in the mudstone of Es3z. Carbonates and clay minerals are the most common cements, but occasionally authigenic pyrite, albite, and quartz are also present. At the eogenetic stage, the diagenetic events comprised precipitation of pyrite, siderite, dolomite, and calcite besides transformation of K-feldspar into kaolinite. During the mesogenetic stage, the main diagenetic events included precipitation of fracture-filling calcite, ferroan calcite, ankerite, microcrystalline quartz, quartz overgrowth, and transformation of K-feldspar into illite and albite. The limited variation of the Nb/Ta and Zr/Hf ratios and the almost identical distribution pattern of the REE and trace elements indicate that the detrital material in the mudstones was sourced by a common provenance of felsic igneous rocks. The CIA values of Es3z mudstones vary from 50.59 to 65.05 and the PIA values vary from 50.86 to 75.58, which confirm a low-intensity weathering of the source area. Thus, the variation in the bulk-rock geochemical composition of the mudstones may not be primary, but instead a result of mass transfer with the interbedded sandstones during diagenesis. Changes ratios between aim elements (Al, Si, Ca and K) and immobile elements with burial depth in combination with mass balance calculation indicate that aluminum and silicon were retained by the precipitation of authigenic minerals in the mudstone. The mudstones have received progressively more potassium with increasing depths, whereas calcium has been expelled. The reservoir quality of the Es3z sandstones has mainly been affected by the diagenetically induced decrease in the carbonate content in the mudstones causing carbonate cementation in the sandstones.",

author = "T. Yang and Y. Cao and H. Friis and Y. Wang and L. Zhou",

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AU - Yang, T.

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AU - Wang, Y.

AU - Zhou, L.

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Diagenetic evolution and chemical changes of deep-water mudstones of Shahejie Formation in the Dongying Sag, Jiyang Depression, Eastern China

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