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

Paper No. 12
Presentation Time: 4:35 PM

GLASS VS. GLASS: BEDIASITES AND MELT LITHOLOGIES IN THE EYREVILLE DRILL CORE B; CHESAPEAKE BAY IMPACT STRUCTURE, USA


POLLOK, Kilian, Institut f. Geowissenschaften, Friedrich-Schiller-Universität, Burgweg 11, Jena, D-07749, Germany, DEUTSCH, Alexander, Institut für Planetologie, Universität Münster, Münster, D-48149, Germany, LANGENHORST, Falko, Institut f. Geowissenschaften, Friedrich-Schiller-Univ, Jena, D-07749, Germany and LUETKE, Sabine, Institut f. Planetologie, Universität Münster, Muenster, D-48149, Germany, deutsca@uni-muenster.de

While the genetic connection of the North American tektites strewn field and the related microtektites in upper Eocene sediments to the Chesapeake Bay impact event 35 m. yrs. ago is undisputed, their precursor materials, and the physical constraints are not understood in detail yet. We focus on geochemical properties of Bediasites, microtektites, and melt lithologies in the USGS-ICDP Eyreville drill core B. Gas analyses on four Bediasites by directly coupled evolved gas analyzing system (DEGAS) up to 1450°C show that this group of tektites is totally dry, i.e., less than 10 ppm H2O, much less than published by previous authors. The glass foams above 1300°C. At this temperature bubbles/vacuoles release H2O, fluorine, CO2 and CO. Chemically, these tektites are quite homogeneous, and differ from glass shards in the suevites mainly by much higher Al2O3 (15.5 to 16.6 wt%), and lower CaO (about 0.45 wt%) contents. Trace element and isotope determinations (TIMS, LA-ICP-MS) as well as electron energy loss spectroscopy (EELS) are currently performed in order to identify precursor lithologies and redox conditions during glass formation.