Marco Rivadeneira scite author profile

The Oriente Basin is part of the retro-arc foreland basin system that developed in the zone of transition between the Central Andes and the Northern Andes since Late Cretaceous times. It is deformed by thick-skinned tectonics related to the inversion of pre-Cretaceous extensional fault systems, which have broken the basin into three tectonic domains during three mean periods of inversion (Late Cretaceous–Palaeocene, Early Eocene and Miocene). The northern part of the present-day Sub-Andean wedge-top corresponded, during the Late Cretaceous, to the forebulge depozone. The NNE–SSW Sacha–Shushufindi Corridor (SSC) extends from the northern region of the Oriente foredeep to the Sub-Andean Cutucú Cordillera. It results from inversion of the Late Triassic–Early Jurassic rifting. The eastern Capiron–Tiputini Inverted System (CTIS) results from the inversion of the normal faults of the Late Jurassic back-arc basin. The Ishpingo–Tambococha–Tiputini (ITT) trend is located in the present-day forebulge depozone of the basin. This position presents favourable conditions for oil biodegradation. Source rocks throughout the Oriente Basin are immature or poorly mature. A large part of oil accumulations must be explained by long-distance migration from the west, before the Eocene uplift of the Cordillera Real, or from the south.

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From accretion to forearc basin initiation: The case of SW Ecuador, Northern Andes

Witt

Reynaud

Barba³

et al. 2019

Sedimentary Geology

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The SW of Ecuador offers a great opportunity to study the long-term behavior of an almost entire forearc system, from the external accretionary prism to the landward limit of the forearc basin. A combination of field observations, LA-ICP-MS U-Pb dating on zircon and interpretation of different vintages of unpublished industrial seismic records are used to study the evolution of the forearc system of SW Ecuador including the accretionary prism and the forearc depocenter. The youngest dates, obtained from U-Pb dating on zircon grains believed to be derived from the arc, define the best estimate for the age of sedimentation and permits a clear description of the temporal and spatial evolution of the accretionary, post accretionary and forearc basin series between 60 Ma and 10 Ma. This reinforces the idea that forearc sediments

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Tracking ancient magmatism and Cenozoic topographic growth within the Northern Andes forearc: Constraints from detrital U-Pb zircon ages

Witt

Rivadeneira²,

Poujol

et al. 2016

Geological Society of America Bulletin

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The 1999–2000 seismic experiment of Macas swarm (Ecuador) in relation with rift inversion in Subandean foothills

Legrand

Baby²,

Bondoux³

et al. 2005

Tectonophysics

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El Pre-Aptense En La Cuenca Oriente Ecuatoriana

Díaz¹,

Baby²,

Rivadeneira³

et al. 2003

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