U-Pb, Hf isotopes and trace elements of zircon reveals a Mesoproterozoic crustal source for the Jurassic Caopas sub-volcanic intrusion: Northern part of the Nazas Igneous Province in Mexico

The Caopas sub-volcanic intrusion crops out in the northern area of the Nazas Igneous Province. Due to its extension (∼70 km2), this intrusion is the largest igneous body within this province. At the same time, its location, close to the boundary between the Central terrane and Oaxaquia microcontine...

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Bibliographic Details
Published in:Journal of South American earth sciences 2025-01, Vol.151, p.105266, Article 105266
Main Authors: Gómez-Torres, Roberto Carlos, Cavazos-Tovar, José G., Chávez-Cabello, Gabriel, Aranda-Gómez, José Jorge, Ramírez-Peña, César Francisco
Format: Article
Language:English
Subjects:
Crustal melt
Hf isotopes
Nazas igneous province
Oaxaquia microcontinent
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Summary:The Caopas sub-volcanic intrusion crops out in the northern area of the Nazas Igneous Province. Due to its extension (∼70 km2), this intrusion is the largest igneous body within this province. At the same time, its location, close to the boundary between the Central terrane and Oaxaquia microcontinent, highlights its relevance to understanding the role that the basement plays in the genesis of the Caopas sub-volcanic intrusion. In this paper we present whole rock geochemical data of major and trace elements, U-Pb ages, Hf isotopes and trace elements in single zircon grains from samples of the Caopas sub-volcanic intrusion (U-Pb zircon age: ∼166.97 ± 0.96 Ma). Geochemical data indicate that the rocks studied are peraluminous (Al/CNK ≥1). The analyzed zircon grains exhibit enriched Hf isotopic compositions (εHf(t) from −1.6 to 2.5), high U/Yb values and negative Eu anomalies, suggesting, along with the geochemical data, that these magmas were formed by significant volumes of crustal melts during their genesis. The Hf model ages in zircon grains are consistent with a Mesoproterozoic crustal source for the magmas that formed the intrusive (∼1023 Ma to ∼1282 Ma), which coincides with ages reported for rocks in the crystalline basement of the area (i.e. the Oaxaquia microcontinent). •U-Pb zircon dating shows Caopas sub-volcanic intrusion emplaced in the Middle Jurassic.•Geochemical and isotopic data suggest magmas derived from continental crust.•Hf model ages indicate Mesoproterozoic Oaxaquia microcontinent as the magma source.
ISSN:0895-9811
DOI:10.1016/j.jsames.2024.105266