Sulfur-Isotope Variations in Marginal-Lacustrine Rocks of the Green River Formation, Colorado and Utah
Rex D. Cole, M. Dane Picard, 1981. "Sulfur-Isotope Variations in Marginal-Lacustrine Rocks of the Green River Formation, Colorado and Utah", Recent and Ancient Nonmarine Depositional Environments: Models for Exploration, Frank G. Ethridge, Romeo M. Flores
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The Parachute Creek Member of the Green River Formation in the southern Piceance Creek basin, Colorado, and the eastern Uinta basin, Utah, displays four major lacustrine depositional facies: sandstone (bottom), stromatolite, marlstone, and oil shale (top). In a vertical sequence these facies record the transgressive history of Lake Uinta during its most expansive stage. The sandstone facies and the stromatolite facies represent deposition in a marginal-lacustrine environment, while the marlstone facies and oil-shale facies were deposited in an open-lacustrine setting. Sulfur-isotope values (δ34S) were determined for iron-sulfide minerals (pyrite, marcasite, and pyrrhotite) from all facies except the marlstone facies. Values were also determined for pyrite from the Uinta Formation in the eastern Piceance Creek basin.
The sulfide minerals demonstrate a total range of about 72 permil and show strong enrichment in 34S when compared with sulfides from marine rocks. Maximum 34S enrichment was found in sulfides from oil shale and marlstone beds of the oil-shale facies, averaging about 35 permil (CD). Sulfides from the stromatolite facies and the sandstone facies show less enrichment in 34S, and average about 17 permil. The Parachute Creek Member shows progressive and uniform upward enrichment in 34S which culminated during deposition of the rich oil shale beds of the Mahogany interval of the oil-shale facies.
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This volume is a collection of papers that resulted from a symposium on Recent and Ancient Nonmarine Depositional Environments which was held in Casper, Wyoming on June 3 to 7, 1979. The nineteen papers may be divided into: (1) a review of recent and ancient nonmarine modes, (2) alluvial fan and fluvial deposits, (3) lacustrine deposits, (4) eolian deposits. Knowledge of the physical, biological and chemical characteristics and depostional environments on nonmarine sedimentary deposits has increased significantly over the last decade. Correspondingly, there has also been an increase in our ability to apply this knowledge to the exploration and exploitation of contained energy resources and minerals.