Tectonic implications of a paleomagnetic study of the Sarmiento Ophiolitic Complex, southern Chile
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2008-06-02Metadata
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Rapalini, A.E.
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Tectonic implications of a paleomagnetic study of the Sarmiento Ophiolitic Complex, southern Chile
Abstract
A paleomagnetic study was carried out on the Late Jurassic Sarmiento Ophiolitic Complex (SOC) exposed in the Magallanes fold and thrust
belt in the southern Patagonian Andes (southern Chile). This complex, mainly consisting of a thick succession of pillow-lavas, sheeted dikes and
gabbros, is a seafloor remnant of the Late Jurassic to Early Cretaceous Rocas Verdes basin that developed along the south-western margin of South
America. Stepwise thermal and alternating field demagnetization permitted the isolation of a post-folding characteristic remanence, apparently
carried by fine grain (SD?) magnetite, both in the pillow-lavas and dikes. The mean “in situ” direction for the SOC is Dec: 286.9°, Inc: −58.5°,
α95: 6.9°, N: 11 (sites).
Rock magnetic properties, petrography and whole-rock K–Ar ages in the same rocks are interpreted as evidence of correlation between
remanence acquisition and a greenschist facies metamorphic overprint that must have occurred during latest stages or after closure and tectonic
inversion of the basin in the Late Cretaceous.
The mean remanence direction is anomalous relative to the expected Late Cretaceous direction from stable South America. Particularly, a
declination anomaly over 50° is suggestively similar to paleomagnetically interpreted counter clockwise rotations found in thrust slices of the
Jurassic El Quemado Fm. located over 100 km north of the study area in Argentina. Nevertheless, a significant ccw rotation of the whole SOC is
difficult to reconcile with geologic evidence and paleogeographic models that suggest a narrow back-arc basin sub-parallel to the continental
margin. A rigid-body 30° westward tilting of the SOC block around a horizontal axis trending NNW, is considered a much simpler explanation,
being consistent with geologic evidence. This may have occurred as a consequence of inverse reactivation of old normal faults, which limit both
the SOC exposures and the Cordillera Sarmiento to the East. The age of tilting is unknown but it must postdate remanence acquisition in the Late
Cretaceous. Two major orogenic events of the southern Patagonian Andes, in the Eocene (ca. 42 Ma) and Middle Miocene (ca. 12 Ma),
respectively, could have caused the proposed tilting.
Patrocinador
The authors wish to thank FONDECYT (Chile, Project
1050431 and ARTG-04 of CONICYT and PBCYT), CONICET
(Argentina), Universidad de Chile, Universidad de Buenos Aires
and Universidade de Sao Paulo for financial support for this
study.
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TECTONOPHYSICS Volume: 452 Issue: 1-4 Pages: 29-41 Published: JUN 2 2008
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