Ben Niu scite author profile

Ben Niu

3Publications

23Citation Statements Received

30Citation Statements Given

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Affiliations

Japan Oil Gas and Metals National Corporation (Japan), Niigata University

Publications

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Smectite Diagenesis in Neogene Marine Sandstone and Mudstone of the Niigata Basin, Japan

Niu¹

2000

Clays and clay miner.

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Abstract--Illitization of smectite during progressive burial diagenesis occurs differently in sandstone and mudstone, which are interbedded in the sedimentary sequence of the Niigata basin. Reaction progress of illitization of smectite via mixed-layer illite-smectite (I-S) in the mudstone is more complete than in the sandstone. In sandstone, smectite converts to (Reichweit, R >--3) I-S and illite via random (R = 0) I-S to ordered (R = 1) I-S, and authigenic chlorite and quartz form as products of the illitization of smectite.The original composition of detxital smectite and the occurrence of Na +, K +, Ca 2., Mg 2+, and Fe > in pore fluids partly control both illitization of smectite and the resulting authigenic mineral products in the diagenetic process. In mudstone, detrital smectite is K-and Si-rich in composition, and the illitization of smectite indicates that the original composition is mostly inherited. Excess silica owing to illitization is released to produce authigenic quartz. In sandstone, smectite forms primarily by precipitation. The evolving compositions produced by early illitization form smectite, then random (R = 0) I-S, and then ordered (R = 1) I-S. These transitions are related to compositions of pore fluid. Changes in K/(K + Ca + Na) vs. K + Ca + Na imply that the increase of interlayer cations occurs by absorption and smectite transforms to random (R = 0) I-S, followed by the exchange of interlayer cations to ordered (R = 1) I-S with increasing diagenetic grade. Late illitization from (R = 1) I-S to R --> 3 suggests decomposition of smectite and early I-S with an increase in the number of illite layers. Dissolution experiments of host rocks with pure water and 0.01 M HC1 solution reflect the differences in chemistry of the original pore fluid and authigenic carbonate in the process of diagenesis of clastic rocks. These results explain how chemical composition produces large variations in transformation temperature of smectite to illite in the diagenetic process.

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Different rates of smectite illitization in mudstones and sandstones from the Niigata Basin, Japan

Niu

Ishida

2000

Clay miner.

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The different rates of smectite illitization have been investigated in interbedded sandstone and mudstone samples from the Neogene to Lower Pleistocene stratigraphy of the Niigata sedimentary basin. For samples of approximately the same age and under the same temperature and pressure conditions, the analytical results of XRD and EDS show that differences in the transformation from R = 1 I-S to R≥3 I-S at a temperature of ~30–40°C and 1000 m in depth are determined by the initial smectite composition and the relative ion concentration of pore-fluid in the sedimentary rock system. The ordered I-S and illite in the mudstone have inherited compositional characteristics from the initial detrital smectite and illite. In the sandstone, the I-S composition was changed by interaction with pore-fluids and by precipitation and crystal growth during diagenesis.

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The relationship between diagenetic changes of illite/smectite interstratified minerals and abnormal pressure zone in the test well "Tomikura".

Tsuchida¹,

Niu²,

Yoshimura³

et al. 1998

J. JAPANESE. ASSOC. PETROL. TECHNOL.

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Ben Niu

Smectite Diagenesis in Neogene Marine Sandstone and Mudstone of the Niigata Basin, Japan

Different rates of smectite illitization in mudstones and sandstones from the Niigata Basin, Japan

The relationship between diagenetic changes of illite/smectite interstratified minerals and abnormal pressure zone in the test well "Tomikura".

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