TY - JOUR
T1 - Geoquímica de rocas plutónicas en la Patagonia extra-andina, como evidencia de procesos de migración de arco magmático
AU - Alejandro Sánchez, V.
AU - de Saint-Blanquat, Michel
AU - Hervé, Francisco
AU - Polvé, Mireille
AU - Morata, Diego
AU - de Parseval, Phillipe
AU - Benoit, Mathieu
N1 - Funding Information:
This work was possible thanks to “Becas de Doctorado” Conicyt (A. Sánchez), and to ECOS/Conicyt C05U02 grant. Field assistance of M. Gerbault (IRD), N. Croissant (U. de Chile), B. Scalabrino (U. Montpellier) is very appreciated. FONDECYT projects 1010413 and 1095099 financed the geochemical analyses conducted at U. de Chile. We also thank Conaf staff for field support and permission to study in protected areas. Estancia Sol de Mayo owner allowed us to work in his property. Río Arriba and 21 de Mayo enterprises also cooperated for a successful field work in these inhospitable regions. Constructive reviews by A. Echaurren, C. Ramírez de Arellano and AG editor contributed to the improvement of this manuscript. Last but not least, we appreciate “El Ermitaño” for his guidance in the difficult ways of Monte Balmaceda.
Funding Information:
This work was possible thanks to ?Becas de Doctorado? Conicyt (A. S?nchez), and to ECOS/Conicyt C05U02 grant. Field assistance of M. Gerbault (IRD), N. Croissant (U. de Chile), B. Scalabrino (U. Montpellier) is very appreciated. FONDECYT projects 1010413 and 1095099 financed the geochemical analyses conducted at U. de Chile. We also thank Conaf staff for field support and permission to study in protected areas. Estancia Sol de Mayo owner allowed us to work in his property. R?o Arriba and 21 de Mayo enterprises also cooperated for a successful field work in these inhospitable regions. Constructive reviews by A. Echaurren, C. Ram?rez de Arellano and AG editor contributed to the improvement of this manuscript. Last but not least, we appreciate ?El Ermita?o? for his guidance in the difficult ways of Monte Balmaceda.
Publisher Copyright:
© 2021, Servicio Nacional de Geologia y Mineria. All rights reserved.
PY - 2021/9/1
Y1 - 2021/9/1
N2 - In this work, we present the results of a petrographic and geochemical study that involves seven Cenozoic plutons located in a NS trending belt in western Patagonia, south of the present Chile Triple-Junction and to the east of the present magmatic arc. Four plutons were studied in the northern end, and three in the southern part of the belt. The petrographic and geochemical characteristics (major and trace element contents, eNdt,87Sr/86Sr initial ratios), of these plutons are different enough to propose a further classification for them: Only the Monte Balmaceda intrusive complex in the southern end of the belt is alkaline (sensu stricto). The Río de Las Nieves and San Lorenzo plutons in the northern area, and the Torres del Paine intrusive complex, in the southern area have “intra-plate transitional” calcalkaline affinity. Paso de Las Llaves and Cerro Negro del Ghío plutons in the northern area, and Cerro Donoso pluton in the southern area show “arc transitional” calc-alkaline character. The “transitional” character, together with the pluton’s location, and their regional geological context, can be explained by a Mio-Pliocene eastward arc migration coeval with the beginning of the Chile Rise subduction. A slab flattening hypothesis is favoured to explain the arc-migration, which together with the different length and time of arrival of the Chile Rise segments to the subduction zone, contributed to the heterogeneous geochemistry of the studied plutons.
AB - In this work, we present the results of a petrographic and geochemical study that involves seven Cenozoic plutons located in a NS trending belt in western Patagonia, south of the present Chile Triple-Junction and to the east of the present magmatic arc. Four plutons were studied in the northern end, and three in the southern part of the belt. The petrographic and geochemical characteristics (major and trace element contents, eNdt,87Sr/86Sr initial ratios), of these plutons are different enough to propose a further classification for them: Only the Monte Balmaceda intrusive complex in the southern end of the belt is alkaline (sensu stricto). The Río de Las Nieves and San Lorenzo plutons in the northern area, and the Torres del Paine intrusive complex, in the southern area have “intra-plate transitional” calcalkaline affinity. Paso de Las Llaves and Cerro Negro del Ghío plutons in the northern area, and Cerro Donoso pluton in the southern area show “arc transitional” calc-alkaline character. The “transitional” character, together with the pluton’s location, and their regional geological context, can be explained by a Mio-Pliocene eastward arc migration coeval with the beginning of the Chile Rise subduction. A slab flattening hypothesis is favoured to explain the arc-migration, which together with the different length and time of arrival of the Chile Rise segments to the subduction zone, contributed to the heterogeneous geochemistry of the studied plutons.
KW - Back-arc
KW - Cenozoic
KW - Geochemistry
KW - Patagonia
KW - Plutonism
UR - http://www.scopus.com/inward/record.url?scp=85124619277&partnerID=8YFLogxK
U2 - 10.5027/andgeov48n3-3158
DO - 10.5027/andgeov48n3-3158
M3 - Artículo
AN - SCOPUS:85124619277
SN - 0718-7092
VL - 48
SP - 359
EP - 402
JO - Andean Geology
JF - Andean Geology
IS - 3
ER -