"New insights on the Sorbas Basin (SE Spain): The onshore reference of " by Georges Clauzon, Jean Pierre Suc et al.

Faculty Publications

Title

New insights on the Sorbas Basin (SE Spain): The onshore reference of the Messinian Salinity Crisis

Authors

Georges Clauzon, Aix Marseille Université
Jean Pierre Suc, Sorbonne Universite
Damien Do Couto, Université de Genève
Gwénaël Jouannic, Centre d'Etudes et d'Expertise sur les Risques, l'Environnement, la Mobilité et l'Aménagement
Mihaela Carmen Melinte-Dobrinescu, National Research and Development Institute for Marine Geology and Geoecology
Laurent Jolivet, Universite d'Orleans
Frédéric Quillévéré, Université Claude Bernard Lyon 1
Noëmie Lebret, Universite d'Orleans
Ludovic Mocochain, Sorbonne Universite
Speranta Maria Popescu, GeoBioStratData.Consulting
Jordi Martinell, Universitat de Barcelona
Rosa Doménech, Universitat de Barcelona
Jean Loup Rubino, TOTAL S.A.
Charles Gumiaux, Universite d'Orleans
Sophie Warny, Louisiana State University
Spyridon M. Bellas, Ministry of Environment Greece
Christian Gorini, Sorbonne Universite
François Bache, GNS Science
Marina Rabineau, Université de Brest (UBO)
Ferran Estrada, CSIC - Instituto de Ciencias del Mar (ICM)

Document Type

Article

Publication Date

9-1-2015

Abstract

© 2015 Elsevier Ltd. The Sorbas Basin is the land reference of the Messinian Salinity Crisis (MSC) that affected the Mediterranean Sea in the latest Miocene. Its stratigraphy has been re-visited using calcareous nannofossils and planktonic foraminifers, which provide a reliable biostratigraphic frame and lead to particularly specify the relationships between the Sorbas and Zorreras members with Yesares evaporites. The evaporites overlie a shallowing upward sequence ending with the deposition of the Reef Unit and Terminal Carbonate Complex (TCC) on the periphery of the basin. The reefal carbonates of the TCC are overlain by clastic deposits that are foreset beds of post-MSC Gilbert-type fan deltas developed on the northern edge of the basin. These sedimentary structures are separated from reefal carbonates and the Reef Unit by the Messinian Erosional Surface (MES). The various facies of the Sorbas Member have been correlated with the bottomset beds of the Gilbert-type fan deltas despite some differences in palaeobathymetry. In the southeastern periphery of the basin, the MES separates the Sorbas Member from the Yesares gypsums. In the central part of the basin, a hiatus characterizes the contact between these members. The Zorreras Member postdates the MSC and entirely belongs to Zanclean. Its white "Lago Mare" layers are lagoonal deposits, the fauna of which is confirmed to result from Mediterranean-Paratethys high sea-level exchange after the post-MSC marine reflooding of the Mediterranean Basin. This study allows to re-assert the two-step scenario of the MSC (Clauzon et al., 1996) with the following events: - at 5.971-5.600 Ma, minor sea-level fall resulting in the desiccation of this peripheral basin with secondary fluctuations;- at 5.600-5.460 Ma, significant subaerial erosion (or lack of sedimentation) caused by the almost complete desiccation of the Mediterranean Sea;- instantaneous marine reflooding, accepted at 5.460 Ma, followed by continuing sea-level rise.

Publication Source (Journal or Book title)

Marine and Petroleum Geology

First Page

Last Page

100

Recommended Citation

Clauzon, G., Suc, J., Couto, D., Jouannic, G., Melinte-Dobrinescu, M., Jolivet, L., Quillévéré, F., Lebret, N., Mocochain, L., Popescu, S., Martinell, J., Doménech, R., Rubino, J., Gumiaux, C., Warny, S., Bellas, S., Gorini, C., Bache, F., Rabineau, M., & Estrada, F. (2015). New insights on the Sorbas Basin (SE Spain): The onshore reference of the Messinian Salinity Crisis. Marine and Petroleum Geology, 66, 71-100. https://doi.org/10.1016/j.marpetgeo.2015.02.016

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