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Provenance of the HP – HT subducted margin in the Variscan belt (Cabo Ortegal Complex, NW Iberian Massif)
Author(s) -
Albert R.,
Arenas R.,
Gerdes A.,
Sánchez Martínez S.,
Marko L.
Publication year - 2015
Publication title -
journal of metamorphic geology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.639
H-Index - 114
eISSN - 1525-1314
pISSN - 0263-4929
DOI - 10.1111/jmg.12155
Subject(s) - geology , craton , zircon , geochemistry , massif , archean , population , terrane , devonian , subduction , allochthon , continental arc , island arc , greenstone belt , paleontology , volcanic rock , nappe , tectonics , volcano , demography , sociology
Abstract The Variscan Upper Allochthon is a continental‐affinity terrane that recorded a Cambrian – Ediacaran magmatic arc generation, a subsequent transition to a passive margin, and a collision‐related high‐ P metamorphism during the Devonian – Carboniferous amalgamation of Pangea. The objective of this article is to decipher which continental margin subducted in the Devonian high‐ P –high‐ T ( HP – HT ) event. To do so, a provenance study is presented using combined U – Pb ( n  = 613) and Lu – Hf ( n  = 463) isotopic LA – ICP – MS zircon analyses and Sm – Nd whole–rock ( n  = 5) determinations. These analyses have been performed on five samples of the Banded Gneisses (Cabo Ortegal Complex, NW Iberia), which forms a part of the HP – HT bottom member of the Upper Allochthon. Palaeozoic–Neoproterozoic zircon ages (34.7%) have a maximum abundance at 522–512 Ma, peaks at 575, 561, 545 Ma and minor abundance peaks between 780 and 590 Ma, and show from their Lu–Hf compositions a volcanic arc mixing pattern. This arc was probably related to the Cadomian arc system. The Mesoproterozoic population is scarce and scattered (2.8%), and due to its Lu–Hf pattern, it is proposed that this population is also West Africa Craton derived. The Paleoproterozoic population (39.6%) is concentrated at 2.07 Ga and it is linked to the Eburnean Orogeny, where depleted mantle derived magmas intruded an Archean craton margin. This craton is represented by the Archean population (22.8%), which is grouped at 3.0, 2.68‐2.61 and 2.52‐2.48 Ga, and shows long‐term reworking processes and at least two juvenile magma intrusions. These data show that the Variscan Upper Allochthon has a West African provenance and therefore, it strongly suggests that the NW Iberian allochthonous complexes and their correlative European terranes are also West Africa derived. These results allow us to finally clarify that the first high‐ P event, recorded during the eo‐Variscan amalgamation of Pangea, was attained by the subduction of the margin of Gondwana under Laurussia.

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