The role of the 'Zvornik suture' for assessing the number of Neotethyan oceans: Surface - subsurface constraints on the fossil plate margin (Vardar Zone vs. Inner Dinarides)

The balancing exercise of the “single-ocean model” and reexa - mination of Jurassic paleogeographic conditions and tectonic interaction allowed the reconstruction of the mosaic of independent microplate margins and sutured northwestern Tethyan realm (Vardar Ocean). The overprinted Mesozoic convergen...

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Main Authors: Spahić Darko, Gaudenyi Tivadar
Format: Article
Language:English
Published: Faculty of Mining and Geology, Belgrade 2020-01-01
Series:Geološki Anali Balkanskoga Poluostrva
Subjects:
Online Access:http://www.doiserbia.nb.rs/img/doi/0350-0608/2020/0350-06082000008S.pdf
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spelling doaj-4bdd6adfab84403aa97a7a7b1f1c1dca2021-02-05T08:09:30ZengFaculty of Mining and Geology, BelgradeGeološki Anali Balkanskoga Poluostrva0350-06082406-07472020-01-01812638610.2298/GABP200918008S0350-06082000008SThe role of the 'Zvornik suture' for assessing the number of Neotethyan oceans: Surface - subsurface constraints on the fossil plate margin (Vardar Zone vs. Inner Dinarides)Spahić Darko0Gaudenyi Tivadar1Geological Survey of Serbia, Belgrade, SerbiaGeographical institute "Jovan Cvijić" of the Serbian Academy of Sciences and Arts, Belgrade, SerbiaThe balancing exercise of the “single-ocean model” and reexa - mination of Jurassic paleogeographic conditions and tectonic interaction allowed the reconstruction of the mosaic of independent microplate margins and sutured northwestern Tethyan realm (Vardar Ocean). The overprinted Mesozoic convergent margin referred to as the ‘Zvornik suture’ was of special interest in the reconstruction of the displaced ophiolite belts of Dinarides and Vardar Zone. The surface–subsurface constraints of these mixed crustal units, in particular the polyphase strike-slip character of the ‘Zvornik suture’ yields the presence of at least two of Neotethyan basins extrapolated in the vicinity of the northwestern segment of this paleosuture - related fault system. The restoration and synopsis shows a limited capability for obduction-related emplacement of the Vardar oceanic lithosphere (West Vardar Zone) accounting the polyphased strike-slip tectonics. The balancing and the proposed tectonic/paleogeographic recon struction does not exclude obduction, but it shows a limited capability with much shorter across-strike width of the highlydeformed West Vardar ophio lite. The presence of the two distinct autochthonous Tethyan oceans divided by this important dextral strike-slip fault zone is suggested: The Inner Dina ric–(Mirdita–Pindos) Ocean or Dinaric Tethys (identified by the Inner Dinaric Ophiolite Belt) and the Vardar Ocean (identified by the West Vardar Zone). The West Vardar Zone remains to be a subzone of the principal composite Neotethyan suture referred to as the Vardar Zone s.s., whereas the Dinaric Tethys have been (re)incorporated to the area of Dinarides (Adria microplate). The northern segments of these two landlocked basins were on both sides of the Inner Dinaridic continental ridge (referred to as the Drina-Ivanjica block), divided by the protracted strike-slip activity of the ‘Zvornik suture’.http://www.doiserbia.nb.rs/img/doi/0350-0608/2020/0350-06082000008S.pdf'zvornik suture’ inner dinarideswest vardar zonevardar zone s.s.'dinaric tethys'subsurface crustal faults
collection DOAJ
language English
format Article
sources DOAJ
author Spahić Darko
Gaudenyi Tivadar
spellingShingle Spahić Darko
Gaudenyi Tivadar
The role of the 'Zvornik suture' for assessing the number of Neotethyan oceans: Surface - subsurface constraints on the fossil plate margin (Vardar Zone vs. Inner Dinarides)
Geološki Anali Balkanskoga Poluostrva
'zvornik suture’ inner dinarides
west vardar zone
vardar zone s.s.
'dinaric tethys'
subsurface crustal faults
author_facet Spahić Darko
Gaudenyi Tivadar
author_sort Spahić Darko
title The role of the 'Zvornik suture' for assessing the number of Neotethyan oceans: Surface - subsurface constraints on the fossil plate margin (Vardar Zone vs. Inner Dinarides)
title_short The role of the 'Zvornik suture' for assessing the number of Neotethyan oceans: Surface - subsurface constraints on the fossil plate margin (Vardar Zone vs. Inner Dinarides)
title_full The role of the 'Zvornik suture' for assessing the number of Neotethyan oceans: Surface - subsurface constraints on the fossil plate margin (Vardar Zone vs. Inner Dinarides)
title_fullStr The role of the 'Zvornik suture' for assessing the number of Neotethyan oceans: Surface - subsurface constraints on the fossil plate margin (Vardar Zone vs. Inner Dinarides)
title_full_unstemmed The role of the 'Zvornik suture' for assessing the number of Neotethyan oceans: Surface - subsurface constraints on the fossil plate margin (Vardar Zone vs. Inner Dinarides)
title_sort role of the 'zvornik suture' for assessing the number of neotethyan oceans: surface - subsurface constraints on the fossil plate margin (vardar zone vs. inner dinarides)
publisher Faculty of Mining and Geology, Belgrade
series Geološki Anali Balkanskoga Poluostrva
issn 0350-0608
2406-0747
publishDate 2020-01-01
description The balancing exercise of the “single-ocean model” and reexa - mination of Jurassic paleogeographic conditions and tectonic interaction allowed the reconstruction of the mosaic of independent microplate margins and sutured northwestern Tethyan realm (Vardar Ocean). The overprinted Mesozoic convergent margin referred to as the ‘Zvornik suture’ was of special interest in the reconstruction of the displaced ophiolite belts of Dinarides and Vardar Zone. The surface–subsurface constraints of these mixed crustal units, in particular the polyphase strike-slip character of the ‘Zvornik suture’ yields the presence of at least two of Neotethyan basins extrapolated in the vicinity of the northwestern segment of this paleosuture - related fault system. The restoration and synopsis shows a limited capability for obduction-related emplacement of the Vardar oceanic lithosphere (West Vardar Zone) accounting the polyphased strike-slip tectonics. The balancing and the proposed tectonic/paleogeographic recon struction does not exclude obduction, but it shows a limited capability with much shorter across-strike width of the highlydeformed West Vardar ophio lite. The presence of the two distinct autochthonous Tethyan oceans divided by this important dextral strike-slip fault zone is suggested: The Inner Dina ric–(Mirdita–Pindos) Ocean or Dinaric Tethys (identified by the Inner Dinaric Ophiolite Belt) and the Vardar Ocean (identified by the West Vardar Zone). The West Vardar Zone remains to be a subzone of the principal composite Neotethyan suture referred to as the Vardar Zone s.s., whereas the Dinaric Tethys have been (re)incorporated to the area of Dinarides (Adria microplate). The northern segments of these two landlocked basins were on both sides of the Inner Dinaridic continental ridge (referred to as the Drina-Ivanjica block), divided by the protracted strike-slip activity of the ‘Zvornik suture’.
topic 'zvornik suture’ inner dinarides
west vardar zone
vardar zone s.s.
'dinaric tethys'
subsurface crustal faults
url http://www.doiserbia.nb.rs/img/doi/0350-0608/2020/0350-06082000008S.pdf
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