Neogene-Quaternary coastal and offshore sedimentation in north central Chile: Record of sea-level changes and implications for Andean tectonism

The stratigraphy, sedimentology, and paleontology of the Coquimbo Formation in a coastal section approximately 100 km north of La Serena was studied to establish relative low-order sea-level changes during the Neogene. During the Early–Middle Miocene, a wide coastal platform was bevelled onto Palaeo...

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Bibliographic Details
Published in:Journal of South American earth sciences 2005-05, Vol.19 (1), p.83-98
Main Authors: Le Roux, J.P., Gómez, C., Venegas, C., Fenner, J., Middleton, H., Marchant, M., Buchbinder, B., Frassinetti, D., Marquardt, C., Gregory-Wodzicki, K.M., Lavenu, A.
Format: Article
Language:English
Subjects:
Andean tectonism
Juan Fernández Ridge
Miocene
Pliocene
Sea levels
Shelf deposits
Sr isotope dating
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Summary:The stratigraphy, sedimentology, and paleontology of the Coquimbo Formation in a coastal section approximately 100 km north of La Serena was studied to establish relative low-order sea-level changes during the Neogene. During the Early–Middle Miocene, a wide coastal platform was bevelled onto Palaeozoic basement rocks, and marine sedimentation may have taken place within a deep coastal inlet later transformed into a submarine canyon. Transgression over this platform commenced during the late Burdigalian–early Langhian (16–15 Ma) and culminated in a sea-level highstand near the end of the Serravalian (11.8 Ma). This transgression was followed by regression during the rest of the Serravalian and Tortonian until approximately 9 Ma. Renewed transgression during the Messinian was succeeded by regression lasting until 5.5 Ma, when another transgressive cycle bevelled a ravinement surface into the underlying deposits. This cycle terminated in a marine highstand during the Zanclean at 4.9 Ma. Thereafter, the succession changed from outer platform to middle shoreface deposition. Rapid flooding at 3.9 Ma resulted in the formation of an extensively bored phosphatic hardground, which represents a condensed section. A lowstand during the Piacenzian is represented by inner-shelf deposits, followed by a return to outer-shelf deposition with contemporaneous upper continental slope sedimentation below the ancient shelf break. The succession is capped by Gelasian upper shoreface deposits dated at 2.0–1.8 Ma. The reemergence of the shelf during the Pleistocene (1.0 Ma) formed an extensive coastal plain covered by fluvioestuarine, shelly gravel. Subsequently, four marine terraces were carved into the succession in the last 0.5 Ma. A comparison of the recorded sea-level changes with global sea-level curves provides a reconstruction of local tectonic uplift and downwarp events during the Neogene–Quaternary. The migration of the Juan Fernández Ridge underneath this part of the Chilean flat-slab sector caused a relative uplift of 60 m, followed by subsidence of 125 m in its wake. The generalized tectonic rate of change varied from 0.02 to 0.08 mm/yr.
ISSN:0895-9811
1873-0647
DOI:10.1016/j.jsames.2003.11.003