Reconstruction of the Late Miocene to Pliocene continental succession of Samos Island: Palaeoenvironmental implications for the Eastern Aegean domain

Youri Hamon; Rémy Deschamps; Christian Gorini; Dimitris Sakellariou; Cédric Bailly; Tarik Kernif; Alina Bérénice Christ; Mathilde Adelinet; Jérôme Fortin

doi:10.1002/dep2.249

The Depositional Record (Nov 2023)

Reconstruction of the Late Miocene to Pliocene continental succession of Samos Island: Palaeoenvironmental implications for the Eastern Aegean domain

Youri Hamon,
Rémy Deschamps,
Christian Gorini,
Dimitris Sakellariou,
Cédric Bailly,
Tarik Kernif,
Alina Bérénice Christ,
Mathilde Adelinet,
Jérôme Fortin

Affiliations

Youri Hamon: Earth Sciences and Environmental Technologies Division, IFP Energies Nouvelles Rueil‐Malmaison France
Rémy Deschamps: Earth Sciences and Environmental Technologies Division, IFP Energies Nouvelles Rueil‐Malmaison France
Christian Gorini: UMR 7193 CNRS‐UPMC, Institut des Sciences de la Terre Paris, Sorbonne Université Paris France
Dimitris Sakellariou: Institute of Oceanography, Hellenic Center for Marine Research Anavyssos Greece
Cédric Bailly: CNRS, GEOPS, Université Paris‐Saclay Orsay France
Tarik Kernif: Géosciences Rennes UMR CNRS 6118, Université Rennes 1 Rennes France
Alina Bérénice Christ: Earth Sciences and Environmental Technologies Division, IFP Energies Nouvelles Rueil‐Malmaison France
Mathilde Adelinet: IFP Energies Nouvelles, IFP School Rueil‐Malmaison Cedex France
Jérôme Fortin: Laboratoire de Géologie, Ecole Normale Supérieure/CNRS UMR8538, PSL Research University Paris France

DOI: https://doi.org/10.1002/dep2.249
Journal volume & issue: Vol. 9, no. 4
pp. 1095 – 1130

Abstract

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Abstract On the Island of Samos (East Aegean region, Greece), two sedimentary basins are filled by thick continental series dated to the Late Miocene to Early Pliocene. A multidisciplinary study has been performed including (1) the definition of 21 sedimentary facies, (2) a review of the biological components and (3) carbon, oxygen and strontium stable isotope analyses. The succession is characterised by various depositional settings and hydrochemical compositions. Five main stages of basin evolution have been identified: (1) The Late Serravallian is marked by the development of alluvial fans and fan delta; (2) during the Lower Tortonian, isolated shallow lakes with variable salinity, from fresh to brackish, developed under warm and relatively humid conditions; (3) the Middle to Upper Tortonian is marked by the development of a large and deep lake with saline and alkaline waters, under colder and drier conditions; (4) the Latest Tortonian to Messinian period is represented by an ephemeral alluvial system, developed under a dry climate; (5) during the Zanclean, a palustrine and paludal wetland system, dominated by tufa carbonates, developed under moderately humid conditions. This succession is of particular interest for the reconstruction of the palaeoenvironmental evolution of the transition zone between the Mediterranean domain, and the Paratethys and circum‐Paratethys areas. The geochemical data and the presence of flora (diatoms) and fauna (gastropods) of marine affinity suggest transient ingressions of marine‐related water or groundwater inflows as early as the Lower Tortonian. The Samos succession records the complex interaction between the regional geodynamics and climate. The extensional regime of the Eastern Aegean zone generates subsidence, interrupted in the mid‐Tortonian (9 Ma) by a brief compressive event and a major exposure of the basins. Furthermore, the Late Miocene progressive aridification, followed by a change to a more humid climate (Pliocene) is also a major driver of the sedimentation.

Published in The Depositional Record

ISSN: 2055-4877 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Geology
Website: https://onlinelibrary.wiley.com/journal/20554877

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