The role of the pre-Alpine polycrystalline basement in the paleogeographic configuration of multiple Neotethyan oceanic basins

Q3 Earth and Planetary Sciences

Geologija Pub Date : 2021-12-28 DOI:10.5474/geologija.2021.008

D. Spahić, T. Gaudenyi

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Abstract

The study provides a deeper understanding of the early Mesozoic paleogeogeographic spatial-temporal relationship by studying the two Adria-Europe intervening basement blocks. The Drina-Ivanjica and Pelagonian crustal fragments play important role in the internal early Alpine oceanic constitution further controlling the late Jurassic emplacement of Tethyan Dinaric-Hellenic ophiolites. The proposed paleogeographic reassessment is driven by the new paleocontinental inheritance data associated with the Variscan – pre-Variscan basement terranes. The recently published data suggest an Avalonian-type inheritance of the Pelagonian basement block which indicates a different pre-Variscan plate-tectonic journey, including separate spatial arrangement during Variscan amalgamation. In turn, Cadomian-type basement inheritance has been documented within the sliced Adria microplate. Thus, the Avalonian inheritance place the Pelagonian block away from the Apulia/Adria (Dinarides). In the investigated context of Paleozoic-Mesozoic paleogeographic transition, the Pelagonian block may represent a segment of the Cimmerian ribbon continent or southernmost segment of the Variscan Europe. With regards the nearby Adria microplate, a Triassic-Jurassic oceanic opening led to the decoupling (spreading away from the main Adria microplate) of the Drina-Ivanjica block. The rifting is in line with the simultaneous yet opposite or westward-directed drift of the Pelagonides. The breakup of south European Variscan configuration eventually result in the spatial alignment of the two basement fragments referred to as the “Drina–Pelagonide continental splinter”. By linking the paleogeographic pre-Jurassic–Jurassic relationship between these continental units, the two landlocked Neotethyan Vardar s.l. basins are extrapolated, “Dinaric Tethys” / Inner Dinaric-(Mirdita-Pindos) and the main Vardar Ocean (Western Vardar Zone).

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前阿尔卑斯多晶基底在多个新特提斯海盆古地理格局中的作用

通过对亚德里亚-欧洲两个基底块体的研究，对早中生代古地理时空关系有了更深入的认识。德里纳-伊万尼察和伯拉哥尼亚地壳碎片在早阿尔卑斯内部海洋构造中起着重要作用，进一步控制了晚侏罗世特提斯-迪纳尔-希腊蛇绿岩的侵位。提出的古地理重新评价是由与瓦里斯坎-前瓦里斯坎基底地体相关的新的古大陆继承资料驱动的。最近公布的资料表明，该地区属于阿瓦洛尼亚型基底块体，这表明了不同的前瓦里斯坎板块构造过程，包括瓦里斯坎合并期间的单独空间安排。反过来，卡多米亚型基底遗传已在切片亚德里亚微孔板中被记录。因此，阿瓦洛尼亚的继承使伯拉哥尼亚远离阿普利亚/阿德里亚(迪纳里德斯)。在古生代-中生代古地理转换的背景下，贝拉哥尼亚地块可能代表了西梅里亚带状大陆的一段或瓦里斯坎欧洲的最南端。对于附近的亚德里亚微板块，三叠纪-侏罗纪洋口导致德里纳-伊万吉卡地块的分离(从亚德里亚微板块向外扩散)。裂谷作用与Pelagonides的同时相反或向西漂移一致。南欧瓦里斯坎构造的分裂最终导致两个基底碎片的空间排列，被称为“德里纳-佩拉尼德大陆碎片”。通过将这两个大陆单元之间的古地理关系联系起来，推断出两个内陆的新特提斯瓦尔达盆地:“Dinaric Tethys”/内迪纳尔盆地(mirdata - pindos)和瓦尔达尔大洋(Vardar Western Zone)。

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