Pre-collision evolution of the Pinon oceanic terrane of SW Ecuador: stratigraphy and geochemistry of the "Calentura Formation"

doi:10.2113/gssgfbull.179.5.433

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Bulletin de la Societe Geologique de France; September 2008; v. 179; no. 5; p. 433-443; DOI: 10.2113/gssgfbull.179.5.433
© 2008 Societe Geologique de France

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Pre-collision evolution of the Piñón oceanic terrane of SW Ecuador: stratigraphy and geochemistry of the "Calentura Formation"

Jeremie Van Melle¹, Washinton Vilema², Bastien Faure-Brac¹, Martha Ordoñez², Henriette Lapierre, Nelson Jimenez², Etienne Jaillard¹^,3 and Milton Garcia²

¹ Univ. Joseph Fourier Grenoble 1, LGCA, UMR-CNRS 5025, Maison Géosciences, BP 53, F-38041 Grenoble cedex 9.
² Petroproducción, Centro de Investigaciones Geológicas-Guayaquil, km 6,5 vía a la Costa, Guayaquil, Ecuador. cigg{at}telconet.net
³ Univ. Paul Sabatier Toulouse 1, IRD-UR 154, LMTG, 14 av. Edouard Belin, F-31400 Toulouse. Etienne.Jaillard{at}ujf-grenoble.fr

The stratigraphic revision of the southern coastal Ecuadorianseries makes possible the reconstruction of the pre-collisionhistory of the Caribbean plateau accreted to the Ecuadorianmargin. The Coniacian age of the oceanic basement (PiñónFm) indicates that the latter is part of the Caribbean oceanicplateau. It is overlain by the Calentura Fm, which comprisesfrom base to top: (i) 20 to 200 m of lavas and volcanic brecciasof arc affinity (Las Orquídeas Mb), (ii) siliceous, organicrich black limestones of (middle?) Coniacian age, (iii) red,radiolarian rich, calcareous cherts ascribed to the Santonian-earlyCampanian, and (iv) marls, greywackes and island arc tuffs ofMid Campanian age. The latter are overlain by volcaniclasticturbidites of Mid to Late Campanian age (Cayo Fm), coeval tothe Campanian-Maastrichtian island arc series locate fartherwest (San Lorenzo Fm).

The Las Orquídeas magmatic unit is interpreted as resultingfrom the melting of the Caribbean plateau, rather than froman ephemeral subduction process. The transition from coniacianlimestones to santonian red cherts would be related to the thermalsubsidence of the Caribbean plateau. The uplift of the latterand the development of the San Lorenzo island arc in the MiddleCampanian would be due to the collision of the Caribbean plateauwith the Mexican margin. Early in the Late Maastrichtian, thecollision of the Caribbean plateau with the Ecuadorian marginwould have triggered the cessation of the San Lorenzo arc activity.In the Late Paleocene, the Caribbean plateau was split intotwo terranes: the western Piñón terrane, whichcollided with the eastern Guaranda terrane.

Key Words: Stratigraphy • Late Cretaceous • Petrography • Geochemistry • Geodynamics • Ecuador

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