Geochronology (Ar-40/Ar-39, K-Ar and He-exposure ages) of Cenozoic magmatic rocks from Northern Chile (18-22 degrees S): implications for magmatism and tectonic evolution of the central Andes
G. Worner et al., Geochronology (Ar-40/Ar-39, K-Ar and He-exposure ages) of Cenozoic magmatic rocks from Northern Chile (18-22 degrees S): implications for magmatism and tectonic evolution of the central Andes, REV GEOL CH, 27(2), 2000, pp. 205-240
K-Ar and Ar/Ar ages from magmatic rocks of northern Chi le (18-22 degreesS)
describe duration and extent of the Tertiary and Quaternary magmatic evolu
tion and date major tectonic events in northernmost Chile. This paper summa
rizes new K-Ar and Ar-Ar mineral and whole rock ages for intrusive rocks fr
om the Precordillera, Tertiary ignimbrites and andesitic stratovolcanoes fr
om the Western Andean Escarpment at 18 degreesS (WARP) and the volcanic fro
nt, intrusive rocks or the Precordillera (Quebrada Paguana, Quebrada Blanca
, Quebrada Choja, Quebrada Guatacondo, Cerro Chandacolla) represent the Cre
taceous to Eocene magmatic are system and gave ages between 45 and 35 Ma. Y
ounger ages on intrusive rocks are invariably caused by deuteric alteration
. Ignimbrites of the Putani and Oxaya formations gave Ar-Ar sanidine ages a
round 24.2 to 24.8 Ma and 22.8 to 19.4 Ma, respectively. Andesitic stratovo
lcanoes, which directly overlie Oxaya ignimbrites east of the Western Cordi
llera gave ages of 20.3 Ma (Cordon Quevilque) to 9.0 Ma (Cerro Margarita).
Samples from the Miocene to Pleistocene are system on the Chilean Altiplano
underlying the volcanoes of the active volcanic front have been dated betw
een 1.0.5 to similar to3 Ma. A widespread ignimbrite can be correlated from
the Lauca basin to the Pacific coast and to the east to occurrences of nea
r Perez. Repeated Ar-Ar sanidine dating of the Lauca-Perez-ignimbrite resul
ted in highly concordantages of 2.71+/-0.25 Ma, 2.72 Ma+/-0.01 Ma, and 2.73
+/-0.11 Ma. Rocks from the active chain (Volcanic Cordillera) gave ages you
nger than 0.9 Ma (Volcan Irruputuncu, Volcan Olca, Volcan Aucanquilcha, Vol
can Ollague, Volcan Porunita). These new data are used to constrain Miocene
stratigraphy and tectonic movements as well as the timing of uplift and se
dimentary response at the Western Andean Escarpment within the framework of
the tectonic evolution of the Central Andes.