Paleogeographic and sedimentologic significance of Mississippian sequence at Mt. Darby, Wyoming
Paleogeographic and sedimentologic significance of Mississippian sequence at Mt. Darby, Wyoming (in AAPG Rocky Mountain Section meeting, Anonymous)
AAPG Bulletin (May 1985) 69 (5): 846
- Antler Orogeny
- biogenic structures
- carbonate banks
- carbonate rocks
- Carboniferous
- clastic rocks
- cyclic processes
- deltaic environment
- depositional environment
- energy sources
- Lodgepole Formation
- Lower Mississippian
- Madison Group
- marine environment
- Mission Canyon Limestone
- Mississippian
- paleogeography
- paleokarst
- Paleozoic
- regression
- sandstone
- sea-level changes
- sedimentary rocks
- sedimentary structures
- sedimentation
- stratigraphy
- structural controls
- United States
- Wyoming
- Paine Member
- Humbug Formation
- Mount Darby
Mississippian strata at Mt. Darby comprise the Madison Group and the overlying Humbug Formation. This sequence, although initially transgressive, exhibits an overall regressive character produced by progradation of platform carbonates in response to sea level fluctuations related to Antler orogenic events. The Paine Member of the Lodgepole Limestone, the basal formation of the Madison Group, consists of relatively deep-water carbonates including a possible Waulsortian-type carbonate bank that accumulated on a Kinderhookian foreslope. At least five shoaling-upward grainstone cycles are recognizable in the Woodhurst Member of the Lodgepole Limestone. These cycles record Osagean deposition in shallow agitated environments that developed high on a clinoform ramp. Shelf-margin and platform carbonates dominate the Mission Canyon Limestone, the upper formation of the Madison Group. This unit consists of two asymmetric depositional cycles, each with a thick regressive phase, capped by an evaporite solution breccia and an overlying thin transgressive phase. The Humbug Formation, a sequence of fine-grained carbonates and sandstones, represents part of a deltaic complex that developed offshore from the Meramecian karst plain. Humbug sediments were transported northward to the Mt. Darby area from the area of the present Uinta Mountains, or another deltaic system formed there. Deposition in the study area was apparently continuous upward from the Madison carbonates into the Humbug. The middle Meramecian shoreline trended northwest between the present locations of Mt. Darby and Haystack Peak.