Estimated reservoir ages of the Black Sea since the last glacial

Accelerator mass spectrometry (AMS) radiocarbon dating of ostracod and gastropod shells from the southwestern Black Sea cores combined with tephrochronology provides the basis for studying reservoir age changes in the late-glacial Black Sea. The comparison of our data with records from the northwest...

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Bibliographic Details
Main Authors: Kwiecien, O., Arz, H. W., Lamy, F., Wulf, S., Bahr, A., Roehl, U., Haug, G. H.
Format: Article in Journal/Newspaper
Language:English
Published: Univ Arizona Dept Geosciences 2008
Subjects:
mediterranean abyssal sediments
minoan eruption
tephra layers
radiocarbon
santorini
deglaciation
history
variability
calibration
resolution
ice core
Online Access:https://archimer.ifremer.fr/doc/00209/31990/30430.pdf
https://archimer.ifremer.fr/doc/00209/31990/
Description
Summary:Accelerator mass spectrometry (AMS) radiocarbon dating of ostracod and gastropod shells from the southwestern Black Sea cores combined with tephrochronology provides the basis for studying reservoir age changes in the late-glacial Black Sea. The comparison of our data with records from the northwestern Black Sea shows that an apparent reservoir age of similar to 1450 C-14 yr found in the glacial is characteristic of a homogenized water column. This apparent reservoir age is most likely due to the hardwater effect. Though data indicate that a reservoir age of similar to 1450 C-14 yr may have persisted until the Bolling-Allerod warm period, a comparison with the GISP2 ice-core record suggests a gradual reduction of the reservoir age to similar to 1000 C-14 yr, which might have been caused by dilution effects of inflowing meltwater. During the Bolling-Allerod warm period, soil development and increased vegetation cover in the catchment area of the Black Sea could have hampered erosion of carbonate bedrock, and hence diminished contamination by "old" carbon brought to the Black Sea basin by rivers. A further reduction of the reservoir age most probably occurred contemporary to the precipitation of inorganic carbonates triggered by increased phytoplankton activity, and was confined to the upper water column, Intensified deep water formation subsequently enhanced the mixing/convection and renewal of intermediate water. During the Younger Dryas, the age of the upper water column was close to 0 yr, while the intermediate water was similar to 900 C-14 yr older. The first inflow of saline Mediterranean water, at similar to 8300 C-14 yr BP, shifted the surface water age towards the recent value of similar to 400 C-14 yr.

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