ABSTRACT
The Lower to Middle Ordovician Tøyen Shale in southern Sweden, a biostratigraphically well-dated siliciclastic mudstone unit, shows 18 distinct authigenic cements that include sulfides, carbonates, silicates, clays, and phosphates. Marcasite, sphalerite, galena, and six texturally distinct types of pyrite characterize the sulfides whereas only one type of dolomite and three different generations of calcite are observed in this unit. Quartz, phosphate, and organic matter occur as only one generation each. Authigenic clay minerals are represented by chlorite and kaolinite. The paragenetic sequence of cements is subdivided into the two pre-burial carbonates, succeeded by ten relatively early burial cements, and six late burial cements, the kaolinite being the latest of them all and potentially being of Cretaceous age. Based on textural relationships, the paragenetic sequence of alterations started with dolomite precipitation followed by calcite, and then five different generations of pyrite. All eleven other phases post-date these initial seven cements in the Tøyen Shale.
Acknowledgments
The authors thank Lauren Birgenheier, University of Utah, for support during the critical process of writing this paper. The authors also thank Adam Boehlke, Lai Jin, Kevin Taylor, and an anonymous reviewer for the critical review of this manuscript, which helped to greatly improve the paper. A word of warmest thanks are also extended to the Gyllenstiernska Krapperupstiftesen and the Royal Physiographical Society in Lund who funded the core drilling without which this research would not have been possible.
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Notes
1 Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the US Government.