Constraints on the origin and evolution of magmas in the Payún Matrú Volcanic Field, Quaternary Andean back-arc of western Argentina

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Constraints on the origin and evolution of magmas in the Payún Matrú Volcanic Field, Quaternary Andean back-arc of western Argentina. / Hernadno, I R; Aragón, E; Frei, Robert; Gonzáles, P D; Spakman, W.

I: Journal of Petrology, Bind 55, Nr. 1, 01.2014, s. 209-239.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Hernadno, IR, Aragón, E, Frei, R, Gonzáles, PD & Spakman, W 2014, 'Constraints on the origin and evolution of magmas in the Payún Matrú Volcanic Field, Quaternary Andean back-arc of western Argentina', Journal of Petrology, bind 55, nr. 1, s. 209-239. https://doi.org/10.1093/petrology/egt066

APA

Hernadno, I. R., Aragón, E., Frei, R., Gonzáles, P. D., & Spakman, W. (2014). Constraints on the origin and evolution of magmas in the Payún Matrú Volcanic Field, Quaternary Andean back-arc of western Argentina. Journal of Petrology, 55(1), 209-239. https://doi.org/10.1093/petrology/egt066

Vancouver

Hernadno IR, Aragón E, Frei R, Gonzáles PD, Spakman W. Constraints on the origin and evolution of magmas in the Payún Matrú Volcanic Field, Quaternary Andean back-arc of western Argentina. Journal of Petrology. 2014 jan.;55(1):209-239. https://doi.org/10.1093/petrology/egt066

Author

Hernadno, I R ; Aragón, E ; Frei, Robert ; Gonzáles, P D ; Spakman, W. / Constraints on the origin and evolution of magmas in the Payún Matrú Volcanic Field, Quaternary Andean back-arc of western Argentina. I: Journal of Petrology. 2014 ; Bind 55, Nr. 1. s. 209-239.

Bibtex

@article{29c97047a44a410b8d3bd42bce502f12,
title = "Constraints on the origin and evolution of magmas in the Pay{\'u}n Matr{\'u} Volcanic Field, Quaternary Andean back-arc of western Argentina",
abstract = "The Pay{\'u}n Matr{\'u} Volcanic Field (Pleistocene–Holocene) is located in the Andean back-arc of the Southern Volcanic Zone, western Argentina, and is contemporaneous with the Andean volcanic arc at the same latitude. It includes two polygenetic, mostly trachytic volcanoes: Pay{\'u}n Matr{\'u} (with a summit caldera 8 km wide) and Pay{\'u}n Liso (a smaller stratovolcano). The volcanic field includes about 200 scoria cones and alkali basaltic and trachybasaltic lava flows, forming two basaltic fields around Pay{\'u}n Matr{\'u}. New 40Ar–39Ar ages extend the activity of Pay{\'u}n Matr{\'u} up to 700 ka. The major and trace element and Sr–Nd isotopic compositions of the basaltic lavas and Pay{\'u}n Matr{\'u} rocks indicate that the trachytes of Pay{\'u}n Matr{\'u} are the result of fractional crystallization of basaltic parent magmas without significant upper crustal contamination, and that the basalts have a geochemical similarity to ocean island basalt (La/Nb = 0·8–1·5, La/Ba = 0·05–0·08). The Sr–Nd isotopic compositions of the basaltic to trachytic rocks range between 0·703813 and 0·703841 (87Sr/86Sr) and 0·512743 and 0·512834 (143Nd/144Nd). Mass-balance and Rayleigh fractionation models support the proposed origin of the trachytes, and an assimilation–fractional crystallization model indicates a low degree of upper crustal contamination in the youngest trachytes. Magnesium numbers (45–55) and contents of Ni (<20–90 ppm) and Cr (30–180 ppm) in the lavas in the basaltic fields indicate that these are not primary magmas. The data also suggest that the basaltic lavas originated in the asthenospheric mantle, probably within the spinel stability field and beneath an attenuated continental lithosphere in the back-arc area. The lack of a slab-fluid signature in the Pay{\'u}n Matr{\'u} Volcanic Field rocks, along with unpublished and published geophysical results (mantle tomography and electrical conductivity anomalies) suggest that magmas were generated by decompression-induced melting of upwelling mantle",
author = "Hernadno, {I R} and E Arag{\'o}n and Robert Frei and Gonz{\'a}les, {P D} and W Spakman",
year = "2014",
month = jan,
doi = "10.1093/petrology/egt066",
language = "English",
volume = "55",
pages = "209--239",
journal = "Journal of Petrology",
issn = "0022-3530",
publisher = "Oxford University Press",
number = "1",

}

RIS

TY - JOUR

T1 - Constraints on the origin and evolution of magmas in the Payún Matrú Volcanic Field, Quaternary Andean back-arc of western Argentina

AU - Hernadno, I R

AU - Aragón, E

AU - Frei, Robert

AU - Gonzáles, P D

AU - Spakman, W

PY - 2014/1

Y1 - 2014/1

N2 - The Payún Matrú Volcanic Field (Pleistocene–Holocene) is located in the Andean back-arc of the Southern Volcanic Zone, western Argentina, and is contemporaneous with the Andean volcanic arc at the same latitude. It includes two polygenetic, mostly trachytic volcanoes: Payún Matrú (with a summit caldera 8 km wide) and Payún Liso (a smaller stratovolcano). The volcanic field includes about 200 scoria cones and alkali basaltic and trachybasaltic lava flows, forming two basaltic fields around Payún Matrú. New 40Ar–39Ar ages extend the activity of Payún Matrú up to 700 ka. The major and trace element and Sr–Nd isotopic compositions of the basaltic lavas and Payún Matrú rocks indicate that the trachytes of Payún Matrú are the result of fractional crystallization of basaltic parent magmas without significant upper crustal contamination, and that the basalts have a geochemical similarity to ocean island basalt (La/Nb = 0·8–1·5, La/Ba = 0·05–0·08). The Sr–Nd isotopic compositions of the basaltic to trachytic rocks range between 0·703813 and 0·703841 (87Sr/86Sr) and 0·512743 and 0·512834 (143Nd/144Nd). Mass-balance and Rayleigh fractionation models support the proposed origin of the trachytes, and an assimilation–fractional crystallization model indicates a low degree of upper crustal contamination in the youngest trachytes. Magnesium numbers (45–55) and contents of Ni (<20–90 ppm) and Cr (30–180 ppm) in the lavas in the basaltic fields indicate that these are not primary magmas. The data also suggest that the basaltic lavas originated in the asthenospheric mantle, probably within the spinel stability field and beneath an attenuated continental lithosphere in the back-arc area. The lack of a slab-fluid signature in the Payún Matrú Volcanic Field rocks, along with unpublished and published geophysical results (mantle tomography and electrical conductivity anomalies) suggest that magmas were generated by decompression-induced melting of upwelling mantle

AB - The Payún Matrú Volcanic Field (Pleistocene–Holocene) is located in the Andean back-arc of the Southern Volcanic Zone, western Argentina, and is contemporaneous with the Andean volcanic arc at the same latitude. It includes two polygenetic, mostly trachytic volcanoes: Payún Matrú (with a summit caldera 8 km wide) and Payún Liso (a smaller stratovolcano). The volcanic field includes about 200 scoria cones and alkali basaltic and trachybasaltic lava flows, forming two basaltic fields around Payún Matrú. New 40Ar–39Ar ages extend the activity of Payún Matrú up to 700 ka. The major and trace element and Sr–Nd isotopic compositions of the basaltic lavas and Payún Matrú rocks indicate that the trachytes of Payún Matrú are the result of fractional crystallization of basaltic parent magmas without significant upper crustal contamination, and that the basalts have a geochemical similarity to ocean island basalt (La/Nb = 0·8–1·5, La/Ba = 0·05–0·08). The Sr–Nd isotopic compositions of the basaltic to trachytic rocks range between 0·703813 and 0·703841 (87Sr/86Sr) and 0·512743 and 0·512834 (143Nd/144Nd). Mass-balance and Rayleigh fractionation models support the proposed origin of the trachytes, and an assimilation–fractional crystallization model indicates a low degree of upper crustal contamination in the youngest trachytes. Magnesium numbers (45–55) and contents of Ni (<20–90 ppm) and Cr (30–180 ppm) in the lavas in the basaltic fields indicate that these are not primary magmas. The data also suggest that the basaltic lavas originated in the asthenospheric mantle, probably within the spinel stability field and beneath an attenuated continental lithosphere in the back-arc area. The lack of a slab-fluid signature in the Payún Matrú Volcanic Field rocks, along with unpublished and published geophysical results (mantle tomography and electrical conductivity anomalies) suggest that magmas were generated by decompression-induced melting of upwelling mantle

U2 - 10.1093/petrology/egt066

DO - 10.1093/petrology/egt066

M3 - Journal article

VL - 55

SP - 209

EP - 239

JO - Journal of Petrology

JF - Journal of Petrology

SN - 0022-3530

IS - 1

ER -

ID: 98276888