Lago Mare and the Messinian Salinity Crisis: Evidence from the Alboran Sea (S. Spain)

• Published in: Marine and petroleum geology Vol. 52; pp. 57 - 76
• Main Authors: Do Couto, Damien, Popescu, Speranta-Maria, Suc, Jean-Pierre, Melinte-Dobrinescu, Mihaela Carmen, Barhoun, Nadia, Gorini, Christian, Jolivet, Laurent, Poort, Jeffrey, Jouannic, Gwénaël, Auxietre, Jean-Luc
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.04.2014; Elsevier
• Subjects: Alboran Sea; Calcareous nannoplankton; Cysts; Deposition; Dinoflagellate cysts; Dinoflagellates; Earth Sciences; Earth, ocean, space; Environmental Sciences; Exact sciences and technology; Exchange; Global Changes; Invertebrate paleontology; Lago Mare; Marine; Marine geology; Messinian Salinity Crisis; Offshore drilling rigs; Paleontology; Post-crisis reflooding; Reconstruction; Salinity; Sciences of the Universe; Sea level; Stratigraphy; Tectonics; Iberian Peninsula; Europe; Southern Europe; Alboran Sea; West Mediterranean; Mediterranean Sea; Spain; MED, Alboran Sea; MED, Spain, Andalucia, Malaga; Europe, Mediterranean Region; MED, Spain, Andalucia, Almeria, Nijar; Messinian Salinity Crisis; Alboran Sea; Calcareous nannoplankton; Lago Mare; Post-crisis reflooding; Dinoflagellate cysts; microfossils; Neogene; foraminifers; upper Tertiary; nannoplankton; ostracods; Crustacea; modern; plankton; tectonics; Cenozoic; deltas; onshore; salinity; Dinoflagellata; Tertiary; Messinian; Ostracoda; offshore; palynomorphs; foraminifera; Mandibulata; interpretation; Arthropoda; upper Miocene; dinoflagellates; Miocene; Invertebrata; Phanerozoic; Protista; biostratigraphy; sea level
• ISSN: 0264-8172; 1873-4073
• DOI: 10.1016/j.marpetgeo.2014.01.018

This paper provides a new environmental, sedimentological and stratigraphic context of the Lago Mare deposits from the North Alboran region and clarifies their chronologic location with respect to the Messinian Salinity Crisis. We present new micropalaeontological data (dinoflagellate cysts, calcareous nannoplankton, planktonic foraminifers), correlated with field observations and offshore seismic interpretations. We show that the Lago Mare event known in three onshore localities (Río Mendelín near Malaga, Zorreras near Sorbas, Gafares near Níjar) follows the marine reflooding of the Mediterranean Basin which ended the Messinian Salinity Crisis. Chronologically, these Lago Mare deposits last from the latest Messinian to the early Zanclean. In fact, the first influx of Paratethyan organisms is revealed by the dinoflagellate cyst record from near Malaga within a Gilbert-type fan delta overlying the Messinian Erosional Surface. Invading molluscs and/or ostracods may have persisted in lagoonal coastal areas more or less affected by discontinuous marine influxes (Sorbas and Níjar). The Malaga area is convenient for a palaeogeographic and sedimentary reconstruction which shows the prevalent forcing of sea-level changes during the time-interval 5.600–5.332 Ma at the difference of the usually solicited prevalent tectonics. The studied Lago Mare event is the third episode resulting in such a palaeobiological assemblage in the Mediterranean region and corresponds to the final two-way water exchange at high sea level between the Mediterranean and the former Paratethys. It documents the onset of the modern marine circulation in the Mediterranean after the reflooding ending the Messinian Salinity Crisis. •Dinoflagellate cysts identify the right invasion level by Paratethys waters.•Alboran Lago Mare immediately followed the post-Messinian Salinity Crisis marine reflooding.•Lago Mare must be discarded in the sense of a unique chronostratigraphic unit.