Ordovician and Mississippian stratigraphy in southwestern Missouri, USA

A succession of Ordovician and Mississippian carbonates, separated unconformably, is exposed across the southern flank of the Ozark Dome in southwest Missouri. Deposits of both periods exemplify typical facies of the Midwestern United States: carbonate tidal-flat assemblages for the Early Ordovician and carbonate shelf environments for the Early–Middle Mississippian. The basic stratigraphic sequence of these deposits has been known for over a century, but interesting features remain to be addressed. Thin discontinuous sandstones are present within the Early Ordovician Cotter Dolomite, but the informal Swan Creek sandstone member seems anomalous. This sandstone can exceed 5 m in thickness and is fairly continuous across southwest Missouri. Most Ordovician sandstones in Missouri mark major transgressions above regional unconformities, but not the Swan Creek, and there is no obvious source of the sand. Therefore, we hypothesize that the Swan Creek represents reworked eolian dunes blown across the broad peritidal environment. Clastic sandstone dikes, apparently sourced from the Swan Creek, cut across beds of Cotter Dolomite near faults. We propose that these dikes are evidence of local faulting and seismicity during the Early Ordovician. Early and Middle Mississippian limestones comprise a sequence of shelf deposits, although mud mounds and other facies changes near the Missouri-Arkansas line mark the edge of the Mississippian shelf and the transition to a ramp setting. Early Mississippian carbonate deposition was interrupted by a short and localized influx of siliciclastic sediment comprising the Northview Formation. The Northview has additional characteristics consistent with a river-dominated deltaic deposit, which we suggest as its origin. If correct, this hypothesis implies that the history of tectonic features in the Midwest is more complicated than yet known. Finally, facies changes within and between the local Mississippian formations may record an early crustal response to the impending Ouachita orogeny farther to the south.

[1]  G. Grammer,et al.  High-Resolution Sequence Stratigraphic Architecture and Reservoir Characterization of the Mississippian Burlington-Keokuk Formation, Northwestern Arkansas , 2014, Mississippian Reservoirs of the Midcontinent.

[2]  P. Jaiswal,et al.  Mississippian Reservoirs of the Midcontinent , 2019 .

[3]  James O. Puckette Jeffrey D. Miller,et al.  Conodont Biostratigraphy-Constrained Diachronous Lithofacies, Boone Group (Upper Osagean to Lower Meramecian), Western Ozarks: Breakdown of Lithostratigraphic Correlations at the Regional Scale , 2019, Mississippian Reservoirs of the Midcontinent.

[4]  I. Somerville,et al.  Tournaisian (Mississippian) Carbonate Mounds in the Ozark Region, North America and Ireland: A Comparison , 2019, Mississippian Reservoirs of the Midcontinent.

[5]  G. Grammer,et al.  Characteristics of Debris Flows and Outrunner Blocks—Evidence for Mississippian Deposition on a Distally Steepened Ramp , 2019, Mississippian Reservoirs of the Midcontinent.

[6]  S. Mazzullo,et al.  Lithostratigraphy, Biostratigraphy, Stratigraphic Architecture, and Depositional Systems in Lower to Middle Mississippian Strata on the Western Flank of the Ozark Dome, Midcontinent U.S.A. , 2019, Mississippian Reservoirs of the Midcontinent.

[7]  P. O’Connor,et al.  Carboniferous sediment dispersal in the Appalachian–Ouachita juncture: Provenance of selected late Mississippian sandstones in the Black Warrior Basin, Mississippi, United States , 2016 .

[8]  W. Jackson,et al.  Campanian Paleoseismites of the Elk Basin Anticline, Northern Bighorn Basin, U.S.A.: A Record of Initial Laramide Deformation , 2016 .

[9]  Li‐Jun Zhang,et al.  Zoophycos macroevolution since 541 Ma , 2015, Scientific Reports.

[10]  R. Soliva,et al.  Sand injectites network as a marker of the palaeo–stress field, the structural framework and the distance to the sand source: Example in the Vocontian Basin, SE France , 2015 .

[11]  D. Hebbeln,et al.  Where did ancient carbonate mounds grow — In bathyal depths or in shallow shelf waters? , 2015 .

[12]  R. Ethington,et al.  Ordovician of the Sauk Megasequence in the Ozark Region of Northern Arkansas and Parts of Missouri and Adjacent States , 2012 .

[13]  C. Seeger,et al.  The Sauk Megasequence from the Reelfoot Rift to Southwestern Missouri , 2012 .

[14]  W. Morgan,et al.  The Great American carbonate bank : the geology and economic resources of the Cambrian-Ordovician sauk megasequence of Laurentia , 2012 .

[15]  J. Gregg,et al.  Sequence Stratigraphy and Depositional Facies of Lower Ordovician Cyclic Carbonate Rocks, Southern Missouri, U.S.A. , 2003 .

[16]  E. Flügel,et al.  Microfacies Analysis of Limestones , 1982 .

[17]  H. Richard Lane,et al.  Paleogeography of the Late Early Mississippian (Tournaisian 3) in the Central and Southwestern United States , 1980 .

[18]  J. L. Wilson,et al.  Carbonate Facies in Geologic History , 1975 .

[19]  J. Conkin,et al.  Scalarituba missouriensis and its stratigraphic distribution , 1968 .

[20]  P. E. Potter,et al.  Dispersal Centers of Paleozoic and Later Clastics of the Upper Mississippi Valley and Adjacent Areas , 1961 .

[21]  J. Weller : Stratigraphy of the Marmaton Group, Pennsylvanian, in Kansas , 1946 .