Stable oxygen isotope composition of planktonic foraminifera from the Adriatic Sea

Under modern conditions, the reoxygenation of eastern Mediterranean deep water is the result of the formation of dense bottom water in the southern Adriatic Sea. Oxygen isotopic records of planktonic foraminfera used as a paleosalinity tracer show that Po River and/or the alpine glaciers meltwater a...

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Bibliographic Details
Main Authors: Fontugne, Michel R, Paterne, Martine, Calvert, Stephen E, Murat, Anne, Guichard, Francois, Arnold, Maurice
Format: Dataset
Language:English
Published: PANGAEA 1989
Subjects:
ETNA82
KET82-16
KET82-22
Marion Dufresne (1972)
MD84-658
Mediterranean Sea
NOE
PC
Piston corer
RC09
RC09-191
Robert Conrad
Planktonic foraminifera
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.726985
https://doi.org/10.1594/PANGAEA.726985
Description
Summary:Under modern conditions, the reoxygenation of eastern Mediterranean deep water is the result of the formation of dense bottom water in the southern Adriatic Sea. Oxygen isotopic records of planktonic foraminfera used as a paleosalinity tracer show that Po River and/or the alpine glaciers meltwater are not directly responsible of the inhibition of the deep water formation in the Adriatic, during sapropel (S1) formation at 9,000 years B.P. Sedimentological evidence indicates that fully oxygenated conditions in the deep Adriatic occurred only by 1,650 +/- 100 years B.P., a long time after the total reoxygenation of the deep eastern Mediterranean. Organic carbon content and isotopic ratio indicate that persistence of a reduced sediment phase until 1,650 years B.P., does not result from increased primary productivity or large input of terrestrial organic matter.

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