GLORIA — GEOMAR Library Ocean Research Information Access

1

Online Resource

The Arctic Basin : Results from the Russian Drifting Stations. (2005)

Frolov, Ivan E.

Berlin, Heidelberg :Springer Berlin / Heidelberg,

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Keywords: Drifting ice stations -- Arctic Ocean. ; Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (307 pages)

Edition: 1st ed.

ISBN: 9783540376651

Series Statement: Springer Praxis Bks.

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=304164

Language: English

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2

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Land-Ocean Systems in the Siberian Arctic : Dynamics and History. (1999)

Kassens, Heidemarie.

Berlin, Heidelberg :Springer Berlin / Heidelberg,

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Keywords: Physical geography-Russia (Federation)-Laptev Sea Region. ; Marine ecology-Russia (Federation)-Laptev Sea. ; Ecology-Russia (Federation)-Laptev Sea Region. ; Laptev Sea (Russia). ; Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (695 pages)

Edition: 1st ed.

ISBN: 9783642601347

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=6488717

DDC: 555.7

Language: English

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3

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Barents Sea upstream events impact the properties of Atlantic water inflow into the Arctic Ocean : evidence from 2005 to 2006 downstream observations (2009)

Dmitrenko, Igor A.

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In: Deep-sea research. Part 1, Oceanographic research papers, Amsterdam [u.a.] : Elsevier Science, 1993, 56(2009), 4, Seite 513-527, 1879-0119

In: volume:56

In: year:2009

In: number:4

In: pages:513-527

Description / Table of Contents: Inflow of Atlantic water (AW) from Fram Strait and the Barents Sea into the Arctic Ocean conditions the intermediate (100-1000 m) waters of the Arctic Ocean Eurasian margins. While over the Siberian margin the Fram Strait AW branch (FSBW) has exhibited continuous dramatic warming beginning in 2004, the tendency of the Barents Sea AW branch (BSBW) has remained poorly known. Here we document the contrary cooling tendency of the BSBW through the analysis of observational data collected from the icebreaker Kapitan Dranitsyn over the continental slope of the Eurasian Basin in 2005 and 2006. The CTD data from the R.V. Polarstern cruise in 1995 were used as a reference point for evaluating external atmospheric and sea-ice forcing and oxygen isotope analysis. Our data show that in 2006 the BSBW core was saltier (by ~0.037), cooler (~0.41 ʿC), denser (by ~0.04 kg/m3), deeper (by 150-200 m), and relatively better ventilated (by 78 mymol/kg of dissolved oxygen, or by 1.11.7% of saturation) compared with 2005. We hypothesize that the shift of the meridional wind from off-shore to on-shore direction during the BSBW translation through the Barents and northern Kara seas results in longer surface residence time for the BSBW sampled in 2006 compared with samples from 2005. The cooler, more saline, and better-ventilated BSBW sampled in 2006 may result from longer upstream translation through the Barents and northern Kara seas where the BSBW was modified by sea-ice formation and interaction with atmosphere. The data for stable oxygen isotopes from 1995 and 2006 reveals amplified brine modification of the BSBW core sampled downstream in 2006, which supports the assumption of an increased upstream residence time as indicated by wind patterns and dissolved oxygen values.

Type of Medium: Online Resource

Pages: graph. Darst

ISSN: 1879-0119

DOI: 10.1016/j.dsr.2008.11.005

Language: English

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4

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Seasonal modification of the Arctic Ocean intermediate water layer off the eastern Laptev Sea continental shelf break (2009)

Dmitrenko, Igor A. ; Kirillov, Sergey A. ; Ivanov, Vladimir V. ; [et al.]

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In: Journal of geophysical research. C, Oceans, Hoboken, NJ : Wiley, 1978, 114(2009), 6, 2169-9291

In: volume:114

In: year:2009

In: number:6

In: extent:19

Description / Table of Contents: Through the analysis of observational mooring data collected at the northeastern Laptev Sea continental slope in 2004-2007, we document a hydrographic seasonal signal in the intermediate Atlantic Water (AW) layer, with generally higher temperature and salinity from December-January to May-July and lower values from May-July to December-January. At the mooring position, this seasonal signal dominates, contributing up to 75% of the total variance. Our data suggest that the entire AW layer down to at least 840 m is affected by seasonal cycling, although the strength of the seasonal signal in temperature and salinity reduces from 260 m (±0.25ʿC and ±0.025 psu) to 840 m (±0.05ʿC and ±0.005 psu). The seasonal velocity signal is substantially weaker, strongly masked by high-frequency variability, and lags the thermohaline cycle by 45-75 days. We hypothesize that our mooring record shows a time history of the along-margin propagation of the AW seasonal signal carried downstream by the AW boundary current. Our analysis suggests that the seasonal signal in the Fram Strait Branch of AW (FSBW) at 260 m is predominantly translated from Fram Strait, while the seasonality in the Barents Sea branch of AW (BSBW) domain (at 840 m) is attributed instead to the seasonal signal input from the Barents Sea. However, the characteristic signature of the BSBW seasonal dynamics observed through the entire AW layer leads us to speculate that BSBW also plays a role in seasonally modifying the properties of the FSBW.

Type of Medium: Online Resource

Pages: 19 , graph. Darst

ISSN: 2169-9291

URL: http://onlinelibrary.wiley.com/enhanced/doi/10.1029/2008JC005229/

DOI: 10.1029/2008JC005229

Language: English

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5

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Toward a warmer Arctic Ocean : spreading of the early 21st century Atlantic water warm anomaly along the Eurasian Basin margins (2008)

Dmitrenko, Igor A.

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In: Journal of geophysical research. C, Oceans, Hoboken, NJ : Wiley, 1978, 113(2008), 2169-9291

In: volume:113

In: year:2008

In: extent:13

Description / Table of Contents: We document through the analysis of 2002-2005 observational data the recent Atlantic Water (AW) warming along the Siberian continental margin due to several AW warm impulses that penetrated into the Arctic Ocean through Fram Strait in 1999-2000. The AW temperature record from our long-term monitoring site in the northern Laptev Sea shows several events of rapid AW temperature increase totaling 0.8ʿC in FebruaryAugust 2004. We hypothesize the along-margin spreading of this warmer anomaly has disrupted the downstream thermal equilibrium of the late 1990s to earlier 2000s. The anomaly mean velocity of 2.4-2.5 ± 0.2 cm/s was obtained on the basis of travel time required between the northern Laptev Sea and two anomaly fronts delineated over the Eurasian flank of the Lomonosov Ridge by comparing the 2005 snapshot along-margin data with the AW pre-1990 mean. The magnitude of delineated anomalies exceeds the level of pre-1990 mean along-margin cooling and rises above the level of noise attributed to shifting of the AW jet across the basin margins. The anomaly mean velocity estimation is confirmed by comparing mooring-derived AW temperature time series from 2002 to 2005 with the downstream along-margin AW temperature distribution from 2005. Our mooring current meter data corroborate these estimations.

Type of Medium: Online Resource

Pages: 13 , graph. Darst

ISSN: 2169-9291

DOI: 10.1029/2007JC004158

Language: English

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6

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Deutsch-russischer Forschungsverbund "System Laptewsee" - das transpolare System des Nordpolarmeeres : Schlussbericht (2017)

Kassens, Heidemarie [VerfasserIn] 1957-

Kiel : [GEOMAR Helmholtz-Zentrum für Ozeanforschung Kiel]

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Keywords: Forschungsbericht ; Arktis ; Transpolardrift

Type of Medium: Online Resource

Pages: 1 Online-Ressource (537 Seiten, 165,60 MB) , Diagramme

URL: https://doi.org/10.2314/KXP:1790159415

DOI: 10.2314/KXP:1790159415

Language: German

Note: Beantragte Laufzeit: 01.03.2013 bis 31.12.2016 , Förderkennzeichen BMBF 03G0833A-F , Verbundnummer 01136946 , Unterschiede zwischen dem gedruckten Dokument und der elektronischen Ressource können nicht ausgeschlossen werden

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7

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Oceanography of the Laptev Sea (2014)

Juhls, Bennet ; Kirillov, Sergey ; Hölemann, Jens ; [et al.]

Wissenschaftliche Verlagsges.

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Publication Date: 2023-01-31

Type: Article , NonPeerReviewed

Format: text

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Oceanography of the Laptev Sea (2012)

Juhls, Bennet ; Kirillov, Sergey A. ; Hölemann, Jens A. ; [et al.]

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Publication Date: 2023-01-31

Type: Conference or Workshop Item , NonPeerReviewed

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Near-bottom water warming in the Laptev Sea in response to atmospheric and sea-ice conditions in 2007 (2011)

Hölemann, Jens A. ; Kirillov, Sergey ; Klagge, Torben ; [et al.]

Norwegian Polar Institute

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Publication Date: 2023-01-31

Description: In this paper we present new data from ship-based measurements and two-year observations from moorings in the Laptev Sea along with Russian historical data. The observations from the Laptev Sea in 2007 indicate that the bottom water temperatures on the mid-shelf increased by more than 3°C compared to the long-term mean as a consequence of the unusually high summertime surface water temperatures. Such a distinct increase in near- bottom temperatures has not been observed before. Remnants of the relatively warm bottom water occupied the mid-shelf from September 2007 until April 2008. Strong polynya activity during March to May 2007 caused more summertime open water and therefore warmer sea surface temperatures in the Laptev Sea. During the ice-free period in August and September 2007, the prevailing cyclonic atmospheric circulation deflected the freshwater plume of the River Lena to the east, which increased the salinity on the mid-shelf north of the Lena Delta. The resulting weaker density stratification allowed more vertical mixing of the water column during storms in late September and early October, leading to the observed warming of the near-bottom layer in the still ice-free Laptev Sea. In summer and autumn 2008, when the density stratification was stronger and sea surface temperatures were close to the long-term mean, no near-bottom water warming was observed. Warmer water temperatures near the seabed may also impact the stability of the shelf’s submarine permafrost.

Type: Article , PeerReviewed

Format: text

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Circulation in the northwest Laptev Sea in the eastern Arctic Ocean: Crossroads between Siberian River water, Atlantic water and polynya-formed dense water (2017)

Janout, Markus A. ; Hölemann, Jens ; Timokhov, Leonid ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Journal of Geophysical Research: Oceans, 122 (8). pp. 6630-6647.

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Publication Date: 2020-02-06

Description: This paper investigates new observations from the poorly understood region between the Kara and Laptev Seas in the Eastern Arctic Ocean. We discuss relevant circulation features including riverine freshwater, Atlantic-derived water, and polynya-formed dense water, emphasize Vilkitsky Strait (VS) as an important Kara Sea gateway, and analyze the role of the adjacent ∼250 km-long submarine Vilkitsky Trough (VT) for the Arctic boundary current. Expeditions in 2013 and 2014 operated closely spaced hydrographic transects and 1 year-long oceanographic mooring near VT's southern slope, and found persistent annually averaged flow of 0.2 m s−1 toward the Nansen Basin. The flow is nearly barotropic from winter through early summer and becomes surface intensified with maximum velocities of 0.35 m s−1 from August to October. Thermal wind shear is maximal above the southern flank at ∼30 m depth, in agreement with basinward flow above VT's southern slope. The subsurface features a steep front separating warm (–0.5°C) Atlantic-derived waters in central VT from cold (〈–1.5°C) shelf waters, which episodically migrates across the trough indicated by current reversals and temperature fluctuations. Shelf-transformed waters dominate above VT's slope, measuring near-freezing temperatures throughout the water column at salinities of 34–35. These dense waters are vigorously advected toward the Eurasian Basin and characterize VT as a conduit for near-freezing waters that could potentially supply the Arctic Ocean's lower halocline, cool Atlantic water, and ventilate the deeper Arctic Ocean. Our observations from the northwest Laptev Sea highlight a topographically complex region with swift currents, several water masses, narrow fronts, polynyas, and topographically channeled storms.

Type: Article , PeerReviewed

Format: text

DOI: 10.1002/2017JC013159

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