Stable isotope ratios measured on carbonate tests from the Kara Sea, supplement to: Simstich, Johannes; Erlenkeuser, Helmut; Spielhagen, Robert F; Stanovoy, Vladimir V (2005): Modern and Holocene hydrographic characteristics of the shallow Kara Sea shelf (Siberia) as reflected by stable isotopes of bivalves and benthic foraminifera. Boreas, 34(3), 252-263

River discharge of Ob and Yenisei to the Kara Sea is highly variable on seasonal and interannual time scales. River water dominates the shallow bottom water near the river mouths, making it warmer and less saline but seasonally and interannually more changeable than bottom water on the deeper shelf....

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Bibliographic Details
Main Authors: Spielhagen, Robert F, Simstich, Johannes, Erlenkeuser, Helmut, Stanovoy, Vladimir V
Format: Article in Journal/Newspaper
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2005
Subjects:
Giant box corer
Gravity corer
MultiCorer
Dredge
Sampling gear, diverse
Multiple investigations
BP00
BP01
BP97
BP99
Akademik Boris Petrov
Siberian River Run-Off SIRRO
Boreas
Kara Sea
Stanovoy
Yenisei River
Siberia
Online Access:https://dx.doi.org/10.1594/pangaea.708249
https://doi.pangaea.de/10.1594/PANGAEA.708249
Description
Summary:River discharge of Ob and Yenisei to the Kara Sea is highly variable on seasonal and interannual time scales. River water dominates the shallow bottom water near the river mouths, making it warmer and less saline but seasonally and interannually more changeable than bottom water on the deeper shelf. This hydrographic pattern shows up in measurements and modelling, and in stable isotope records (delta18O, delta13C) along the growth axis of bivalve shells and in multiple analyses of single benthic foraminiferal shells. Average isotope ratios increase, but sample-internal variability decreases with water depth and distance from river mouths. However, isotope records of bivalves and foraminifera of a sediment core from a former submarine channel of Yenisei River reveal a different pattern. The retreat of the river mouth from this site due to early Holocene sea level rise led to increasing average isotope values up core, but not to the expected decrease of the in-sample isotope variability. Southward advection of cold saline water along the palaeo-river channel probably obscured the hydrographic variability during the early Holocene. Later, when sediment filled the channel, the hydrographic variability at the core location remained low, because the shallowing proceeded synchronously with the retreat of the river mouth.

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