Exhumed Eolian Reservoirs on the Colorado Plateau
LANGFORD, R. P. and DEPRET, P. A., Department of Geological Sciences, University of Texas at El Paso, El Paso Texas, 79912
The Permian Cedar Mesa Sandstone in Southern Utah offers exposes depositional analogs of the North Sea Rotliegende Sandstones. Eolian sandstones intertongue with fluvial sandstones, inland sabkhas muds and evaporites, and marine sediments. A transect extending downwind from the near the marine margin to the inland sabkha margin of the dune sea illustrates the importance of paleoenvironment on early diagenesis.
Thick high-porosity sandstones are found throughout the dune sea, but change in from calcite dominated to calcite and hematite dominated cementation from the marine to the playa margin of the dune sea. Early hematite cementation is associated with influxes of playa and fluvial silts into interdunes near the playa margins. The marine margin of the dune sea is characterized by thick eolian sandstones separated by thinner dolomite-cemented interdune deposits associated with wet interdunes and pond deposits. Farther inland, bioturbation increases with distance from the coastal sand source. Rooted horizons are associated with low-porosity zones and pond deposits are associated with calcite-cemented intervals. A change from evaporation of marine-derived waters to formation of fresh-water ponds is indicated by the bioturbation and isotope data from dolomites and limestones. At the inland sabkha margin, topographic highs are heavily bioturbated and are associated with hematite and calcite cementation. Topographic lows are associated with calcite cementation and high-porosity sandstones.
Bioturbation and ponds are associated with sequence boundaries defined by super bounding surfaces and porosity increases downward from bounding surfaces, which have the most influence in erg interior and playa margin settings.