Miocene to Pleistocene osmium isotopic records of the Mediterranean sediments

In the late Miocene the Mediterranean Sea experienced a salinity crisis and thick sequences of evaporites precipitated across the deep and marginal basins. In this study we report Os isotopic records from Deep Sea Drilling Project and Ocean Drilling Project cores in the Mediterranean: the Balearic S...

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Bibliographic Details
Published in:Paleoceanography
Main Authors: Kuroda, Junichiro, Jiménez Espejo, Francisco J., Nozaki, Tatsuo, Gennari, Rocco, LUGLI, Stefano, Manzi, Vinicio, Roveri, Marco, Flecker, Rachel, Sierro, Francisco J., Yoshimura, Toshihiro, Suzuki, Katsuhiko, Ohkouchi, Naohiko
Other Authors: Lugli, Stefano
Format: Article in Journal/Newspaper
Language:English
Published: 2016
Subjects:
evaporite
Mediterranean Sea
Messinian salinity crisi
osmium isotope
Oceanography
Paleontology
North Atlantic
Online Access:http://hdl.handle.net/11380/1102087
https://doi.org/10.1002/2015PA002853
http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1944-9186
Description
Summary:In the late Miocene the Mediterranean Sea experienced a salinity crisis and thick sequences of evaporites precipitated across the deep and marginal basins. In this study we report Os isotopic records from Deep Sea Drilling Project and Ocean Drilling Project cores in the Mediterranean: the Balearic Sea (Site 372), the Tyrrhenian Sea (Site 654), the Ionian Basin (Site 374), and the Florence Rise (Sites 375-376), as well as Integrated Ocean Drilling Project Site U1387 in Gulf of Cadiz, North Atlantic. Pliocene-Pleistocene sediments at all sites show 187Os/188Os values close to that of the coeval ocean water, indicating that the Mediterranean was connected to the North Atlantic. Evaporitic sediments deposited during the latest Miocene, however, have 187Os/188Os values significantly lower than coeval ocean water values. The offset of the Mediterranean evaporite 187Os/188Os is attributed to limited exchange with the North Atlantic during the Messinian salinity crisis. The source of unradiogenic Os is likely to be weathering of ultramafic rocks (ophiolites) cropping out in the Mediterranean's drainage basins. Based on a box model we estimated the amount of unradiogenic Os and the Atlantic-Mediterranean exchange rate to explain this offset. Os isotopic ratios of the pre-evaporite sediments in the western Mediterranean are almost identical to that of the coeval ocean water. In contrast, equivalent sediments from the Florence Rise have significantly lower 187Os/188Os values. The offset in the Os isotopic ratio on the Florence Rise is attributed either to limited water exchange between eastern and western Mediterranean or to local effects associated with exhumation of the Troodos ophiolites (Cyprus).

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