Biostratigraphy and facies description of Middle Triassic rift-related volcano-sedimentary successions at the junction of the Southern Alps and the Dinarides (NW Croatia)

The Middle Triassic volcano-sedimentary successions deposited on the passive continental margin during a period of intense extensional tectonics related to the opening of the Neotethys Ocean were investigated in NW Croatia. A new palaeogeographic term, the Northwestern Croatian Triassic Rift Basin (...

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Bibliographic Details
Published in:International journal of earth sciences : Geologische Rundschau 2023-06, Vol.112 (4), p.1175-1201
Main Authors: Kukoč, Duje, Smirčić, Duje, Grgasović, Tonći, Horvat, Marija, Belak, Mirko, Japundžić, Dražen, Kolar-Jurkovšek, Tea, Šegvić, Branimir, Badurina, Luka, Vukovski, Matija, Slovenec, Damir
Format: Article
Language:English
Subjects:
Age
Basalt
Benthos
Biostratigraphy
Carbonates
Continental margins
Density currents
Deposits
Detritus
Earth and Environmental Science
Earth Sciences
Fossil animals
Geochemistry
Geology
Geophysics/Geodesy
Gravity
Isotopes
Lava
Magma
Mineral Resources
Original Paper
Pelagic sediments
Seawater
Sedimentary facies
Sedimentary rocks
Sedimentology
Sediments
Stratigraphy
Structural Geology
Tectonics
Triassic
Turbidites
Volcanic activity
Volcanic deposits
Volcanic eruptions
Volcanic rocks
Volcanoes
Volcanogenic deposits
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Summary:The Middle Triassic volcano-sedimentary successions deposited on the passive continental margin during a period of intense extensional tectonics related to the opening of the Neotethys Ocean were investigated in NW Croatia. A new palaeogeographic term, the Northwestern Croatian Triassic Rift Basin (NCTRB), is introduced for these successions. Pelagic sediments were deposited on top of older shallow-marine carbonates from the early Illyrian to possibly late Ladinian. Pelagic limestones containing Illyrian ammonites and redeposited benthic foraminifers of the same age indicate the existence of a contemporaneous shallow-marine carbonate environment that supplied material to the deeper parts of the basin. Stratigraphically stacked volcanic and volcanogenic rocks are intercalated with pelagic sedimentary rocks. Submarine basaltic rocks, geochemically characterized as trachy-basalts, are related to deep-rooted faults. Trachy-basaltic hyaloclastites, found intercalated within pelagic limestones, were formed by the quenching of magma that came into contact with cold sea water and subsequent resedimentation of the newly formed basaltic fragments. The majority of volcanogenic deposits belong to the Pietra Verde deposits found higher in the sections. The material for these deposits was produced by explosive volcanic eruptions and deposited by gravitational mechanisms, including pyroclastic density currents. Radiolarians from intercalated radiolarian cherts indicate late Illyrian to early Fassanian age for volcanic activity, as well as episodic eruptions and deposition of pyroclastic material. The uppermost part of the NTCRB successions is characterized by secondary volcaniclastic deposits generated by the rapid reworking of unconsolidated pyroclastic detritus and is deposited as medium- to fine-grained turbidites, marking the gradual filling of the basin. Based on regional correlations, late Ladinian is the most likely age for these deposits, indicating a significant stratigraphic gap in the NTCRB successions.
ISSN:1437-3254
1437-3262
DOI:10.1007/s00531-023-02301-w