2007 GSA Denver Annual Meeting (28–31 October 2007)

Paper No. 1
Presentation Time: 8:00 AM-12:00 PM

CORRELATION OF THE MIDDLE AND UPPER ORDOVICIAN ROCKS OF BALTOSCANDIA USING CONSTRAINED OPTIMIZATION (CONOP9)


GOLDMAN, D., Department of Geology, Univ of Dayton, Dayton, OH 45469, KLOSTERMAN, Susan L., Geology Dept, Univ of Dayton, Dayton, OH 45469-2364, NOLVAK, Jaak, Institute of Geology at Tallinn University of Technology, Ehitajate tee 5, 19086, Tallinn, Estonia, SHEETS, H. David, Dept. of Physics, Canisius College, 2001 Main St, Buffalo, NY 14208 and MILLER, Gregory C., Earth Sciences, University of California, Riverside, 900 University Ave, Riverside, CA 92521, Dan.Goldman@notes.udayton.edu

The Middle and Upper Ordovician rocks of Baltoscandia have been divided into spatially distinct, composite litho- and biofacies units called confacies belts. A regional correlation of outcrops and boreholes in different confacies belts has always been problematic due to the pronounced biogeographical and lithofacies differentiation. Chronologically, the traditional Baltoscandian Stages were also defined by combined litho- and biofacies assemblages, primarily by benthic macrofossil faunas. The Stage boundaries, therefore, do not closely coincide with commonly used microfossil biozone boundaries (North Atlantic conodont zones, graptolite zones, or chitinozoan zones). We used the quantitative correlation method constrained optimization (CONOP9) to analyze the stratigraphic range information of 404 chitinozoan, conodont, ostracod, and graptolite species and construct a best fit correlation model among 14 boreholes and one outcrop in Baltoscandia (Poland, Latvia, Estonia, and Sweden). These sections span three confacies belts, the Scanian (slope, black shale), Central Baltoscandian (outer shelf, argillaceous limestones), and North Estonian (carbonate platform) belts. Generally, the Central Baltoscandian are more continuous and contain many more events (taxon FAD's and LAD's) than the North Estonian platform sections. This is especially true in the Upper Ordovician where the North Estonian strata contain numerous and large unconformities. In order to examine the synchronicity of the Baltoscandian Stage boundaries, we coded each one as a unique event within every section and examined their placement within the CONOP composite. The Lasnamagi, Uhaku, Pirgu and Porkini Stage bases were not well constrained with respect to the microfossil range data. Conversely, the Kukruse through Nabla Stages (lower Upper Ordovician) had boundaries that better approximate synchronous surfaces. Conodonts had the lowest per taxon, per occurrence penalty assessment indicating that for the available data, conodont ranges were the most consistent across the study area. Penalty assessments for the chitinozoans and ostracods were not significantly different.