Epibenthic foraminiferal δ¹³C in the Recent deep Arctic Ocean, supplement to: Mackensen, Andreas (2013): High epibenthic foraminiferal d13C in the recent deep Arctic Ocean: implications for ventilation and brine release during stadials. Paleoceanography, 28(3), 574-584

Low planktic and benthic d18O and d13C values in sediments from the Nordic seas of cold stadials of the last glaciation have been attributed to brines, formed similar to modern ones in the Arctic Ocean. To expand on the carbon isotopes of this hypothesis I investigated benthic d13C from the modern A...

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Bibliographic Details
Main Author: Mackensen, Andreas
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2013
Subjects:
Campaign of event
Event label
Date/Time of event
Latitude of event
Longitude of event
Elevation of event
DEPTH, sediment/rock
Cibicidoides spp., δ13C
Box corer
MultiCorer
Remote operated vehicle
Gravity corer
Giant box corer
MiniCorer
Multiple opening/closing net
Mass spectrometer Finnigan MAT 251 and Finnigan MAT 253
AOS94
ARA1B
ARA2B
ARA3B
HMMV
HE153
ARK-XIX/1
ARK-XIX/3c
ARK-XX/1
ARK-XX/3
ARK-XXIII/3
ARK-V/1
ARK-V/2
ARK-V/3b
ARK-VI/2
ARK-VII/3b
ARK-VIII/2
ARK-VIII/3
ARK-IX/3
ARK-IX/4
ARK-X/2
ARK-XI/1
ARK-XIII/2
ARK-XIII/3
Louis S. St-Laurent
Araon
L Atalante
Heincke
Polarstern
Paleoenvironmental Reconstructions from Marine Sediments @ AWI AWI_Paleo
Andreas
Arctic
Arctic Ocean
Mendeleyev
Mendeleyev Ridge
Foraminifera*
Nordic Seas
Sea ice
Online Access:https://dx.doi.org/10.1594/pangaea.819226
https://doi.pangaea.de/10.1594/PANGAEA.819226
Description
Summary:Low planktic and benthic d18O and d13C values in sediments from the Nordic seas of cold stadials of the last glaciation have been attributed to brines, formed similar to modern ones in the Arctic Ocean. To expand on the carbon isotopes of this hypothesis I investigated benthic d13C from the modern Arctic Ocean. I show that mean d13C values of live epibenthic foraminifera from the deep Arctic basins are higher than mean d13C values of upper slope epibenthic foraminifera. This agrees with mean high d13C values of dissolved inorganic carbon (DIC) in Arctic Bottom Water (ABW), which are higher than mean d13CDIC values from shallower water masses of mainly Atlantic origin. However, adjustments for oceanic 13C-Suess depletion raise subsurface and intermediate water d13CDIC values over ABW d13CDIC ones. Accordingly, during preindustrial Holocene times, the d13CDIC of ABW was as high or higher than today, but lower than the d13CDIC of younger subsurface and intermediate water. If brine-enriched water significantly ventilated ABW, brines should have had high d13CDIC values. Analogously, high-d13CDIC brines may have been formed in the Nordic seas during warm interstadials. During cold stadials, when most of the Arctic Ocean was perennially sea-ice covered, a cessation of high-d13CDIC brine rejection may have lowered d13CDIC values of ABW, and ultimately the d13CDIC in Nordic seas intermediate and deep water. So, in contrast to the idea of enhanced brine formation during cold stadials, the results of this investigation imply that a cessation of brine rejection would be more likely. : Exact sampling date for cruises AOS94 and ARA03B are not given. All samples, except those from PRV Araon, were Rose Bengal stained. Includes 12 C. wuellerstorfi d13C values from unstained surface sediment samples taken in 1994 in the Mendeleyev Ridge area of the Amerasian basin (Poore et al., 1999).

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