Magnetic anomaly interpretation across the southern central Andes (32 degrees-34 degrees S): The role of the Juan Fernandez Ridge in the late Tertiary evolution of the margin
Ga. Yanez et al., Magnetic anomaly interpretation across the southern central Andes (32 degrees-34 degrees S): The role of the Juan Fernandez Ridge in the late Tertiary evolution of the margin, J GEO R-SOL, 106(B4), 2001, pp. 6325-6345
Marine and terrestrial magnetic surveys have been integrated to study the t
ectonic structure of the convergent margin of Chile between 32 degrees -34
degrees S. Three magnetic domains have been identified: oceanic, continenta
l margin, and subaerial. The oceanic domain has seafloor spreading anomalie
s (16 (similar to 37 Ma) to 18 (similar to 39.5 Ma)) disturbed by anomalies
of the Juan Fernandez hot spot chain. In the continental margin, the most
prominent fabric are E-W anomalies in the upper slope corresponding to onsh
ore E-W anomalies of large intrusive bodies. Onshore, a N-S lineament of sh
ort-wavelength anomalies defines the roots of a Cretaceous volcanic are. A
resembling lineament offshore indicates a submerged older volcanic are and
that continental basement extends to similar to 50 km landward of the trenc
h. Absolute Cenozoic plate motion for Nazca and South American plates and d
ating of the Juan Fernandez chain provide a kinematic model of ridge-contin
ent collision. The reconstruction indicates rapid southward migration of th
e collision point along similar to 1400 km of the margin from 20 to 11 Ma (
similar to 20 cm yr(-1)). From 11 Ma to present the collison point has migr
ated at a slower rate along similar to 375 km of the margin (3.5 cm yr(-1))
. The predicted location of the subducted portion of the Juan Fernandez cha
in coincides with the south edge of the southward migrating flat slab segme
nt of the subducted lithosphere and with a cluster of deep earthquakes indi
cating a causal relationship. In the last similar to 10 Myr the ridge has s
eparated a sediment starved trench to the north where subduction erosion ma
y dominate from a sediment filled trench to the south where recent sediment
accretion dominates. These observations indicate that subduction of the Ju
an Fernandez chain plays a major role in arc-forearc tectonics.