Paralic sedimentology of the Mussentuchit Member coastal plain, Cedar Mountain Formation, central Utah, U.S.A.
Author:
Tucker Ryan T.1, Suarez Celina A.2, Makovicky Peter J.3, Zanno Lindsay E.45
Affiliation:
1. 1 Department of Earth Sciences, Stellenbosch University, Private Bag X1 Matieland, Stellenbosch 7602, South Africa 2. 2 Department of Geosciences, University of Arkansas, 226 Gearhart Hall, Fayetteville, Arkansas 72701, U.S.A. 3. 3 Department of Earth and Environmental Sciences, University of Minnesota, Minneapolis, Minnesota 55455, U.S.A. 4. 4 Paleontology, North Carolina Museum of Natural Sciences, 11 West Jones Street, Raleigh, North Carolina 27601, U.S.A. 5. 5 Department of Biological Sciences, Campus Box 7617, North Carolina State University, Raleigh, North Carolina 27695, U.S.A.
Abstract
ABSTRACTAlthough intensified work on the volcaniclastic-rich sediments of the fossil-bearing Mussentuchit Member (uppermost Cedar Mountain Formation, Utah) has provided a refined chronostratigraphic framework, paleoenvironmental interpretations remain cryptic. To resolve this, we performed facies analysis and architectural reconstruction on exposed Mussentuchit Member outcrops south of Emery, central Utah, USA. Contrary to previous interpretations (fluvial, lacustrine), we identified a broad suite of facies that indicate that deposition occurred on the landward part of a paralic depocenter, influenced by both distal alluvial and proximal coastal systems. We conclude that the Mussentuchit Member was a sink for suspension-settling fines with most undergoing pedogenic alteration, analogous to the modern coastal plain of French Guiana (Wang et al. 2002; Anthony et al. 2010, 2014). However, this landward paralic depocenter was not uniform through time. Sedimentological evidence indicates landscape modification was ongoing, influenced by an altered base-level (high groundwater table, long residency of water in sediments, shifts in paleosol types, heavier to lighter δ18O, and distinct shifts in relative humidity (ε); common in coastal settings). If the above data is coupled with recent age data, we interpret that the Mussentuchit Member correlates to the S.B. 4 Greenhorn Regression (Thatcher Limestone) of the adjacent Western Interior Seaway to the east. As a landward paralic depocenter, the Mussentuchit would have been sensitive to base-level conditions in response to ongoing tectonic processes pushing the foredeep east, and lower paleo-CO2 levels coupled with a minor global sea-level fall (brief glacial phase) just before to the Cenomanian–Turonian Thermal Maximum. Altogether, our results not only strengthen linkages in the central Western Interior Seaway, but simultaneously results in novel linkages to near-coeval paralic depocenters across mid-Cenomanian North America.
Publisher
Society for Sedimentary Geology
Reference164 articles.
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