The Moesian Platform: a Critical Piece in the Tectonic Puzzle of the Black Sea Region
Gabor Tari
AllyGabor Geoscience, Bellaire, TX
Based on recent results on the structure of the Moesian Platform and the Bohemian Massif segments of the European continental margin, a new model of the evolution of these passive margins is outlined. The Moesian Platform is interpreted as the upper plate, conjugate margin of the Bohemian segment of the European margin, rifted and drifted away during the Middle and Late Jurassic. Moesia, as a new microplate, was separated from the European margin at about the end of the Bathonian and started to drift towards the SE. There are no constraints on the rate of the drifting but by the Aptian Moesia should have reached its present-day position, at least 600 km to the SE from its original position. The direction of drifting can be deduced from the geometry of the major faults to the NE from the present-day Moesian Platform, in the broader Tornquist-Tesseyre fault zone, for example the Peceneaga-Camena fault bounding the Dobrogea orogenic belt. To the SW, the northeastern edge of the Bohemian Spur projecting below the Pannonian Basin is mappable by reflection seismic data providing an additional geometric constraint for the separation of Moesia from Europe. The correct reconstruction of the pre-Jurassic position of the Moesian Platform has important implications for the paleogeography of the Black Sea prior to its opening. For example, the Triassic rift system of Dobrogea in Romania can be directly correlated with the Strandzha rift sequence in southernmost Bulgaria offering a much simpler paleogeographic scenario than previously thought.
AAPG Search and Discovery Article #90072 © 2007 AAPG and AAPG European Region Conference, Athens, Greece