Variable magmatic features of Oligocene-early Miocene Patagonian magmatism as result of subduction-induced mantle dynamics

LITVAK, VANESA D.; GONZALEZ, JAVIERA; VALENCIA, VÏCTOR; FERNÁNDEZ PAZ, LUCÍA; ECHAURREN, ANDRÉS; LUCASSEN, FRIEDRICH; FOLGUERA, ANDRÉS; BECHIS, FLORENCIA; ENCINAS, ALFONSO; OLIVEROS, VERÓNICA

Quito

Simposio; 8th International Symposium on Andean Geodynamics (ISAG); 2019

New geochemical and geochronological data reveal that late Oligocene-early Miocene time isa break point in the evolution of Andean magmatism. The Patagonian Andes registered theonset of arc volcanism since the late Eocene forming part of the El Maitén Belt, whosedevelopment was driven by the subduction of the Farallón/Nazca plates beneath the Andeanmargin (Rapela et al., 1988). New data indicate that during the Oligocene El Maitén Belt showa change from tholeiitic to calc-alkaline compositions, reflecting a more mature stage in arcevolution. Toward the early Miocene, Andean arc magmatism turned into basic tholeiitic lavaflows, which intercalate with marine deposits, suggesting their development under extensionaltectonics (e.g., Bechis et al., 2014). These rocks resemble E-MORB-like and OIB compositionswith primitive mantle sources, which strongly contrast with previous arc products. By this time,a global plate reorganization event would have caused an increase in convergence rates,accelerated roll back and a more orthogonal subduction geometry, triggering a widespreadmagmatism and the development of extensional basins in the upper plate (e.g., Fennell et al.,2018; Lonsdale, 2005; Muñoz et al., 2000). Records of volcanic associations with arc signatureduring the early Miocene can be found only in the western slope of the Andes, suggesting theretreat of the volcanic front toward the trench (e.g., Encinas et al., 2016; Muñoz et al., 2000).The proposed model suggests that slab rollback would have caused vigorous mantleconvection allowing the coexistence of arc related magmatism with deep-sourced intrusions.