Late Cretaceous to Miocene seamount accretion and melange formation in the Osa and Burica Peninsulas (Southern Costa Rica): episodic growth of a convergent margin

doi:10.1144/SP328.17

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Geological Society, London, Special Publications

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Geological Society, London, Special Publications; 2009; v. 328; p. 411-456;
DOI: 10.1144/SP328.17
© 2009 Geological Society of London

Articles

Late Cretaceous to Miocene seamount accretion and mélange formation in the Osa and Burica Peninsulas (Southern Costa Rica): episodic growth of a convergent margin

David Marc Buchs^*, Peter Oliver Baumgartner, Claudia Baumgartner-Mora, Alexandre Nicolas Bandini, Sarah-Jane Jackett, Marc-Olivier Diserens & Jérôme Stucki

Institut de Géologie et Paléontologie, Université de Lausanne, Bâtiment Anhtropole, 1015 Lausanne, Switzerland

^* Corresponding author: (david.buchs{at}anu.edu.au)

Multidisciplinary study of the Osa and Burica peninsulas, CostaRica, recognizes the Osa Igneous Complex and the Osa Mélange– records of a complex Late Cretaceous–Miocene tectonic–sedimentaryhistory. The Igneous Complex, an accretionary prism (sensu stricto)comprises mainly basaltic lava flows, with minor sills, gabbroicintrusives, pelagic limestones and radiolarites. Sediments origneous rocks derived from the upper plate are absent. Fourunits delimited on the base of stratigraphy and geochemistrylie in contact along reactivated palaeo-décollement zones.They comprise fragments of a Coniacian–Santonian oceanicplateau (Inner Osa Igneous Complex) and Coniacian–Santonianto Middle Eocene seamounts (Outer Osa Igneous Complex). Theunits are unrelated to other igneous complexes of Costa Ricaand Panama and are exotic with respect to the partly overthickenedCaribbean Plate; they formed by multiple accretions betweenthe Late Cretaceous and Middle Eocene, prior to the genesisof the mélange. Events of high-rate accretion alternatedwith periods of low-rate accretion and tectonic erosion. TheNW Osa Mélange in contact with the Osa Igneous Complexhas a block-in-matrix texture at various scales, produced bysedimentary processes and later tectonically enhanced. Lithologiesare mainly debris flows and hemipelagic deposits. Clastic components(grains to large boulders) indicate Late Eocene mass wastingof the Igneous Complex, forearc deposits and a volcanic arc.Gravitational accumulation of a thick pile of trench sedimentsculminated with shallow-level accretion. Mass-wasting alongthe margin was probably triggered by seamount subduction and/orplate reorganization at larger scale. The study provides newgeological constraints for seamount subduction and associatedaccretionary processes, as well as on the erosive/accretionarynature of convergent margins devoid of accreted sediments.

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