Filling Characteristics of Radiolarian Siliceous Shell Cavities at Wufeng-Longmaxi Shale in Sichuan Basin, Southwest China

Both complete and uncompleted radiolarian siliceous shells were developed at Wufeng-Longmaxi radiolarian siliceous shale laminae in Sichuan Basin. Micro- and ultra-micropetrological observation suggests that they were successively filled by calcite, pyrite and organic–silicon complex, where pyrite a...

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Published inMinerals (Basel) Vol. 12; no. 12; p. 1545
Main Authors Zhou, Xiaofeng, Liang, Pingping, Li, Xizhe, Guo, Wei, Zhang, Xiaowei, Yu, Jichen
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.12.2022
Subjects
Calcite
Calcium
Calcium carbonate
Calcium carbonates
Carbon
Carbonates
Cavities
Electron microscopes
fillings
genetic mechanism
Hydrogen sulfide
Hydrogen sulphide
Investigations
Iron
Laboratories
Laminates
Metabolism
Microorganisms
Minerals
Organic matter
organic pore carriers
Pores
Pyrite
R&D
radiolarian siliceous shell cavity
Research & development
Scanning electron microscopy
Seawater
Sedimentary rocks
Shale
Shales
Shells
Silica
Silicon
Sulfate reduction
Sulphides
Sichuan Basin
Beijing China
China
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Summary:Both complete and uncompleted radiolarian siliceous shells were developed at Wufeng-Longmaxi radiolarian siliceous shale laminae in Sichuan Basin. Micro- and ultra-micropetrological observation suggests that they were successively filled by calcite, pyrite and organic–silicon complex, where pyrite and organic–silicon complex filled dissolved pores associated with calcite during sedimentation. Calcite was derived from calcium carbonate produced by microbial activities at the seawater surface. The environment of radiolarian siliceous shell cavities, which was suitable for sulfate reducing bacterial growth or dissolved hydrogen sulfide reducing Fe3+, contributed positively to pyrite development. Organic–silicon complex development was related to microorganism metabolism that was an important silica source. Honeycomb-like organic pores were developed in cavities with complete shells, but were not developed in cavities with uncompleted shells. This is because the latter could not withstand overburden pressure compared with the former. The only approach to figure out organic pore carriers and understand sequences and development processes of minerals and organic matter is to select weakly compacted radiolarian siliceous shale laminae to carry out micro- and ultra-micropetrological observation and geochemical testing via various technologies.
ISSN:2075-163X
2075-163X
DOI:10.3390/min12121545