Diagenetic matrix in Proterozoic graywackes from Sweden.

S. Morad

doi:10.1306/212F8585-2B24-11D7-8648000102C1865D

Diagenetic matrix in Proterozoic graywackes from Sweden.

S. Morad

Earth Science

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Four diagenetic mechanisms of matrix formation were recognized in graywacke sandstones from the Visingso Group: 1) chemical alteration of detrital silicate minerals, 2) authigenesis (crystallization from pore solutions), 3) pseudoplastic flow of soft argillaceous fragments, forming pseudomatrix, and 4) alteration of pseudomatrix either through fixation or leaching of cations. Compared to the previously published studies dealing with graywacke matrix, the new contribution in the present study is: 1) alteration of detrital unstable particles is shown to occur through dissolution and replacement by clay minerals, and 2) the microprobe and X-ray diffraction analyses, scanning electron and petrographic microscopes were used together in the mineralogical and textural investigation.-from Author

Original language	British English
Pages (from-to)	1157-1168
Number of pages	12
Journal	Journal of Sedimentary Petrology
Volume	54
Issue number	4
DOIs	https://doi.org/10.1306/212F8585-2B24-11D7-8648000102C1865D
State	Published - 1984

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title = "Diagenetic matrix in Proterozoic graywackes from Sweden.",

abstract = "Four diagenetic mechanisms of matrix formation were recognized in graywacke sandstones from the Visingso Group: 1) chemical alteration of detrital silicate minerals, 2) authigenesis (crystallization from pore solutions), 3) pseudoplastic flow of soft argillaceous fragments, forming pseudomatrix, and 4) alteration of pseudomatrix either through fixation or leaching of cations. Compared to the previously published studies dealing with graywacke matrix, the new contribution in the present study is: 1) alteration of detrital unstable particles is shown to occur through dissolution and replacement by clay minerals, and 2) the microprobe and X-ray diffraction analyses, scanning electron and petrographic microscopes were used together in the mineralogical and textural investigation.-from Author",

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AB - Four diagenetic mechanisms of matrix formation were recognized in graywacke sandstones from the Visingso Group: 1) chemical alteration of detrital silicate minerals, 2) authigenesis (crystallization from pore solutions), 3) pseudoplastic flow of soft argillaceous fragments, forming pseudomatrix, and 4) alteration of pseudomatrix either through fixation or leaching of cations. Compared to the previously published studies dealing with graywacke matrix, the new contribution in the present study is: 1) alteration of detrital unstable particles is shown to occur through dissolution and replacement by clay minerals, and 2) the microprobe and X-ray diffraction analyses, scanning electron and petrographic microscopes were used together in the mineralogical and textural investigation.-from Author

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Diagenetic matrix in Proterozoic graywackes from Sweden.

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