A total of 178 sites have been collected for palaeomagnetic analysis from
within two strike-slip fault systems in northern Chile (25.4°S - 26.4°S); the Atacama
Fault System in the Coastal Cordillera, and the Domeyko Fault System in the
Andean pre-Cordillera. In the Coastal Cordillera, analysis of Middle Jurassic lavas
(La Negra Formation) and Middle Jurassic to Early Cretaceous dyke swarms reveal
a consistent clockwise rotation of approximately 42°. The remanence from the La
Negra Formation passes both fold and reversal tests and is interpreted as a pre-folding
remanence. Four of the five dyke swarms have mixed polarity, suggesting
that they too carry a primary or very early remanence. The clockwise rotation of the
area is interpreted as occurring due to a domino-type mechanism where the blocks
are bounded by sinistral faults operating in a crustal scale strike-slip duplex
structure. The rotation is the result of sinistral transpression during the middle
Cretaceous as a result of the Peruvian Orogeny leading to abandonment of the
Jurassic-Early Cretaceous magmatic arc in the Coastal Cordillera and its subsequent
eastward migration.
The Domeyko Fault System (DFS) comprises the Domeyko Fault Zone
(DFZ), and a series of subsidiary faults to the east which define two distinct but
slightly overlapping domains: a fold-and-thrust belt in the north and a domain o f
sinistral strike-slip faults in the south. Samples were collected from the volcanic
rocks of the Sierra Fraga Formation (Middle Jurassic) west of the DFZ, and from the
lavas of the Quebrada Vicunita Formation (Late Jurassic) and Cerro Valiente
Formation (Palaeocene) from both domains of the DFS. Also sampled in the
southern domain, and in a small area between the two domains were sandstones o f
the Quebrada Monardes Formation (Early Cretaceous). All of the volcanic units
have been remagnetised and no tectonic interpretation is made from them. The
sandstones in the southern domain record a clockwise rotation of approximately 24°.
This is interpreted as being due to compression across the DFS causing the sinistral
strike-slip faults, and the blocks between them to rotate clockwise towards the major
tectonic structure, the DFS. The sandstones in the central area between the two
domains record an anticlockwise rotation of approximately 28°. This is explained
by small-scale rotation of thrust sheets or slip on minor dextral strike-slip faults.
The deformation and rotation in the pre-Cordillera occurred in response to the Incaic
Orogeny during the Miocene-Oligocene.
Date of Award | 1996 |
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Original language | English |
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Awarding Institution | |
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A PALAEOMAGNETIC STUDY OF CRUSTAL ROTATIONS AND THEIR RELATIONSHIP TO THE TECTONICS OF THE ATACAMA AND DOMEYKO FAULT SYSTEMS, NORTHERN CHILE
RANDALL, D. E. (Author). 1996
Student thesis: PhD