TY - JOUR

T1 - Lithological and magnetostratigraphic correlation of paleogene sections in the Eastern Rhodopes (SE Bulgaria)

AU - Moskovski, Stiliyan

AU - Karloukovski, Vassil

AU - Milakovska, Zlatka

AU - Harkovska, Alexandra

AU - Pringle, Malcolm

PY - 2004/6/30

Y1 - 2004/6/30

N2 - Two multiple stratified volcano-sedimentary Paleogene sections built of breccia-conglomerates and sandstones (incl. epiclastic), marls, limestones (incl. reef and bioclastic) and zeolitized pyroclastic rocks (interpreted as pyroclastic flow deposits mainly) were studied and correlated. The deposits are divided into superposed and interfingered informal lithostratigraphic units. The natural remanent magnetization of the zeolitized pyroclastics was determined as thermal remanent magnetization (TRM) or partial TRM, and that of the sediments - as detrital remanent magnetization and post-detrital remanent magnetization. The characteristic remanent directions allowed straightforward construction of magnetostratigraphic profiles and yielded 12 reliable magnetic polarity zones and sequences of zones in the sections studied. The correlation of the sections was based on the magnetic polarity zones position, lithological features of the rocks and three 40 Ar/39 Ar age determinations of the zeolitized pyroclastics from different levels of the sections. The consistent (Rupelian - 32.28±0.07 to 31.82±0.07) ages plot entirely into the 12r polarity chron on the Geomagnetic Polarity Time Scale (GPTS) (Cande & Kent 1995). The data presented show that the polystage formation of the pyroclastic flows and the change of the contemporaneous sedimentation from clastic to biogenic took place in a relatively short time span of about 0.46 Ma.

AB - Two multiple stratified volcano-sedimentary Paleogene sections built of breccia-conglomerates and sandstones (incl. epiclastic), marls, limestones (incl. reef and bioclastic) and zeolitized pyroclastic rocks (interpreted as pyroclastic flow deposits mainly) were studied and correlated. The deposits are divided into superposed and interfingered informal lithostratigraphic units. The natural remanent magnetization of the zeolitized pyroclastics was determined as thermal remanent magnetization (TRM) or partial TRM, and that of the sediments - as detrital remanent magnetization and post-detrital remanent magnetization. The characteristic remanent directions allowed straightforward construction of magnetostratigraphic profiles and yielded 12 reliable magnetic polarity zones and sequences of zones in the sections studied. The correlation of the sections was based on the magnetic polarity zones position, lithological features of the rocks and three 40 Ar/39 Ar age determinations of the zeolitized pyroclastics from different levels of the sections. The consistent (Rupelian - 32.28±0.07 to 31.82±0.07) ages plot entirely into the 12r polarity chron on the Geomagnetic Polarity Time Scale (GPTS) (Cande & Kent 1995). The data presented show that the polystage formation of the pyroclastic flows and the change of the contemporaneous sedimentation from clastic to biogenic took place in a relatively short time span of about 0.46 Ma.

KW - Ar/ Ar age

KW - Bulgaria

KW - Correlation

KW - Eastern Rhodopes

KW - Lithology

KW - Magnetostratigraphy

KW - Paleogene

KW - correlation

KW - lithology

KW - magnetostratigraphy

KW - 40Ar/39Ar age

M3 - Journal article

AN - SCOPUS:3242892627

VL - 55

SP - 251

EP - 260

JO - Geologica Carpathica

JF - Geologica Carpathica

SN - 1335-0552

IS - 3

ER -