TY - JOUR
T1 - Provenance of the Bosnian Flysch
AU - Mikes, Tamás
AU - Christ, Dominik
AU - Petri, Rüdiger
AU - Dunkl, István
AU - Frei, Dirk
AU - Báldi-Beke, Mária
AU - Reitner, Joachim
AU - Wemmer, Klaus
AU - Hrvatović, Hazim
AU - von Eynatten, Hilmar
N1 - Funding Information:
the authors are indebted to W. Frisch (tübingen), L. csontos, J. Haas and P. Ozsvárt (budapest), b. Lugović (Zagreb), G. Grathoff (Göttingen/Portland), V. Karius, A. Kronz, r. tolosana-Delgado, U. Grunewald, I. Otten-bacher and r. Hu (Göttingen) for stimulating discussions and for invaluable field and laboratory support.the reactor staff of the Oregon state University are thanked for the irradiations. the Frljak Family in breza and the sehić Family in Vranduk offered very warm hospitality during the field work. All their help is gratefully acknowledged. careful and very constructive reviews by J. charvet, an anonymous reviewer and sJG guest editor s.M. schmid helped to improve the manuscript. the study was supported by the Deutsche Forschungsgemeinschaft (EY 23/4).
PY - 2008
Y1 - 2008
N2 - Sandwiched between the Adriatic Carbonate Platform and the Dinaride Ophiolite Zone, the Bosnian Flysch forms a c. 3000 m thick, intensely folded stack of Upper Jurassic to Cretaceous mixed carbonate and siliciclastic sediments in the Dinarides. New petrographic, heavy mineral, zircon U/Pb and fission-track data as well as biostratigraphic evidence allow us to reconstruct the palaeogeology of the source areas of the Bosnian Flysch basin in late Mesozoic times. Middle Jurassic intraoceanic subduction of the Neotethys was shortly followed by exhumation of the overriding oceanic plate. Trench sedimentation was controlled by a dual sediment supply from the sub-ophiolitic high-grade metamorphic soles and from the distal continental margin of the Adriatic plate. Following obduction onto Adria, from the Jurassic-Cretaceous transition onwards a vast clastic wedge (Vranduk Formation) was developed in front of the leading edge, fed by continental basement units of Adria that experienced Early Cretaceous synsedimentary cooling, by the overlying ophiolitic thrust sheets and by redeposited elements of coeval Urgonian facies reefs grown on the thrust wedge complex. Following mid-Cretaceous deformation and thermal overprint of the Vranduk Formation, the depozone migrated further towards SW and received increasing amounts of redeposited carbonate detritus released from the Adriatic Carbonate Platform margin (Ugar Formation). Subordinate siliciclastic source components indicate changing source rocks on the upper plate, with ophiolites becoming subordinate. The zone of the continental basement previously affected by the Late Jurassic-Early Cretaceous thermal imprint has been removed; instead, the basement mostly supplied detritus with a wide range of pre-Jurassic cooling ages. However, a c. 80 Ma, largely synsedimentary cooling event is also recorded by the Ugar Formation, that contrasts the predominantly Early Cretaceous cooling of the Adriatic basement and suggests, at least locally, a fast exhumation.
AB - Sandwiched between the Adriatic Carbonate Platform and the Dinaride Ophiolite Zone, the Bosnian Flysch forms a c. 3000 m thick, intensely folded stack of Upper Jurassic to Cretaceous mixed carbonate and siliciclastic sediments in the Dinarides. New petrographic, heavy mineral, zircon U/Pb and fission-track data as well as biostratigraphic evidence allow us to reconstruct the palaeogeology of the source areas of the Bosnian Flysch basin in late Mesozoic times. Middle Jurassic intraoceanic subduction of the Neotethys was shortly followed by exhumation of the overriding oceanic plate. Trench sedimentation was controlled by a dual sediment supply from the sub-ophiolitic high-grade metamorphic soles and from the distal continental margin of the Adriatic plate. Following obduction onto Adria, from the Jurassic-Cretaceous transition onwards a vast clastic wedge (Vranduk Formation) was developed in front of the leading edge, fed by continental basement units of Adria that experienced Early Cretaceous synsedimentary cooling, by the overlying ophiolitic thrust sheets and by redeposited elements of coeval Urgonian facies reefs grown on the thrust wedge complex. Following mid-Cretaceous deformation and thermal overprint of the Vranduk Formation, the depozone migrated further towards SW and received increasing amounts of redeposited carbonate detritus released from the Adriatic Carbonate Platform margin (Ugar Formation). Subordinate siliciclastic source components indicate changing source rocks on the upper plate, with ophiolites becoming subordinate. The zone of the continental basement previously affected by the Late Jurassic-Early Cretaceous thermal imprint has been removed; instead, the basement mostly supplied detritus with a wide range of pre-Jurassic cooling ages. However, a c. 80 Ma, largely synsedimentary cooling event is also recorded by the Ugar Formation, that contrasts the predominantly Early Cretaceous cooling of the Adriatic basement and suggests, at least locally, a fast exhumation.
KW - Adriaticplate
KW - Cretaceous
KW - Dinarides
KW - Flysch
KW - Geochronology
KW - Mineral chemistry
KW - Miostratigraphy
KW - Ophiolite
KW - Provenance
UR - http://www.scopus.com/inward/record.url?scp=57849160590&partnerID=8YFLogxK
U2 - 10.1007/s00015-008-1291-z
DO - 10.1007/s00015-008-1291-z
M3 - Article
SN - 1661-8726
VL - 101
SP - S31-S54
JO - Swiss Journal of Geosciences
JF - Swiss Journal of Geosciences
IS - Supplement 1
ER -