Paleoceanography of the Barents Sea during the Holocene

Duplessy, Jean‐Claude; Cortijo, Elsa; Иванова, Е. В.; Khusid, T. A.; Labeyrie, Laurent D; Levitan, M. A.; Murdmaa, I. O.; Paterne, Martine

doi:10.1029/2004pa001116

Cited by 52 publications

(48 citation statements)

References 49 publications

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“…13 000 cal yr BP). We suggest that the records located on the western and northern shelf of Svalbard directly mirror the effect of warmer Atlantic Water inflow, whereas records from Storfjordrenna were under the influence of isotopically lighter Arctic Water from the Barents Sea (Duplessy et al, 2005). The shift from the Arctic Water domain to the Atlantic Water domain during the end of the early Holocene is also visible on a scatter plot of δ 13 C against δ 18 O (Fig.…”

Section: Glaciomarine Unit I (Early Holocene;mentioning

confidence: 74%

“…6 reflect temperature variations at the coring site according to the isotopically lighter ArW palaeotemperature model (Duplessy et al, 2005). Another explanation for the heavier δ 18 O periods during the YD could be the intermittent inflow of warmer AW; however, this is unlikely to cause the synchronous disappearance of IRD.…”

Section: Glacier-proximal Unit (13 450-11 500 Cal Yr Bp)mentioning

confidence: 99%

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Late Weichselian and Holocene palaeoceanography of Storfjordrenna, southern Svalbard

et al. 2015

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Abstract. Multiproxy analyses (including benthic and planktonic foraminifera, δ 18 O and δ 13 C records, grain-size distribution, ice-rafted debris, XRF geochemistry and magnetic susceptibility) were performed on a 14 C-dated marine sediment core from Storfjordrenna, located off of southern Svalbard. The sediments in the core cover the termination of Bølling-Allerød, the Younger Dryas and the Holocene and reflect general changes in the oceanography/climate of the European Arctic after the last glaciation. Grounded ice of the last Svalbard-Barents Sea Ice Sheet retreated from the coring site ca. 13 950 cal yr BP. During the transition from the subglacial to glaciomarine setting, Arctic Waters dominated the hydrography in Storfjordrenna. However, the waters were not uniformly cold and experienced several warmer spells. A progressive warming and marked change in the nature of the hydrology occurred during the early Holocene. Relatively warm and saline Atlantic Water began to dominate the hydrography starting from approximately 9600 cal yr BP. Although the climate in eastern Svalbard was milder at that time than at present (smaller glaciers), two periods of slight cooling were observed in 9000-8000 and 6000-5500 cal yr BP. A change in the Storfjordrenna oceanography occurred at the beginning of the late Holocene (i.e. 3600 cal yr BP) synchronously with glacier growth on land and enhanced bottom current velocities. Although cooling was observed in the Surface Water, Atlantic Water remained present in the deeper portion of the water column of Storfjordrenna.

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Section: Glaciomarine Unit I (Early Holocene;mentioning

confidence: 74%

Section: Glacier-proximal Unit (13 450-11 500 Cal Yr Bp)mentioning

confidence: 99%

Late Weichselian and Holocene palaeoceanography of Storfjordrenna, southern Svalbard

et al. 2015

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“…An increased inflow of Atlantic water in the early Holocene is also evident from several records from the Svalbard and Barents Sea region (e.g., Duplessy et al, 2005;Ślubowska-Woldengen et al, 2007;Chistyakova et al, 2010;Rasmussen et al, 2012;Klitgaard-Kristensen et al, 2013) Sea , transfer-function-generated bottom water temperatures , and benthic foraminiferal assemblages (Ślubowska et al, 2005;Skirbekk et al, 2010) at the western and northern Svalbard shelf. Timing of the onset of increased inflow of Atlantic water agrees well between the SW Barents Sea, Kveithola, and the western Svalbard margin with an onset around 11 500 yr BP (Fig.…”

Section: Early Holocene (11 500-9800 Yr Bp)mentioning

confidence: 99%

Reconstruction of Atlantic water variability during the Holocene in the western Barents Sea

2014

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Abstract. The gravity core JM09-KA11-GC from 345 m water depth on the western Barents Sea margin was investigated for down-core distribution patterns of benthic Foraminifera, stable isotopes, and sedimentological parameters in order to reconstruct the flow of Atlantic water during the Holocene. The core site is located below the Atlantic water masses flowing into the Arctic Ocean and close to the Arctic front. The results show continuous presence of Atlantic water at the margin throughout the Holocene. During the early Holocene, (11 500-9800 cal yr BP), bottom water temperatures as calculated by transfer functions rose by 1.5 • C, likely due to the increased inflow of Atlantic water, although sea ice was still present at this time. The transition to the mid-Holocene is characterized by a local shift in current regime, resulting in a ceased supply of fine-grained material to the core location. Throughout the mid-Holocene the δ 18 O values indicate a slight cooling, thereby following changes in insolation. In the last 1500 yr, inflow of Atlantic water increased but was interrupted by periods of increased influence of Arctic water causing periodically colder and more unstable conditions.

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“…Some of the sites providing evidence for a colder early to mid-Holocene are from upwelling regions; hence some of the cold anomalies may be related to enhanced wind-driven upwelling. There appears to be a poleward amplification of the thermal anomaly, as well as a clear tendency that the warmest temperature interval started earlier and lasted for a shorter period towards the Arctic than further south, where it often appeared as a warm phase between about 8 to 6 ka (Koç et al 1994;Sarnthein et al 2003;Duplessy et al 2005;Hald et al personal communication). Jansen et al ..…”

Section: Introductionmentioning

confidence: 99%