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  • Arctic Boundary Current  (2)
  • 1893-T1-13; 1893-T1-14; Campaign of event; Date/Time of event; Date/Time of event 2; Elevation of event; Event label; File content; File size; Kotelnyy-13; Laptev Sea; Latitude of event; Longitude of event; Mooring (long time); MOORY; Taymyr-T1-13; Taymyr-T1-14; Transdrift-XXI; Transdrift-XXII; Uniform resource locator/link to metadata file; Uniform resource locator/link to raw data file; VB13; VB13_15-9a; VB13_16-5a; VB13_5-1; VB13_7-9a; VB14; VB14_15-6; VB14_28-2; VB14_29-4; VB14_30-2; VB14_31-3; Viktor Buynitskiy; Vilkitzky-13; Vilkitzky-T1-14; Vilkitzky-T2-14; Vilkitzky-T3-14  (1)
  • ADCP; AK2-1_MOOR; Akademik Tryoshnikov; Arctic Ocean; AT2018, TICE, NABOS; AWI_PhyOce; Calculated; CATS; CATS-Synthesis; CATS-Synthesis: The Changing Arctic Transpolar System; CATS - The Changing Arctic Transpolar System; CTD; Current velocity, east-west; Current velocity, north-south; DATE/TIME; DEPTH, water; FRAM; FRontiers in Arctic marine Monitoring; Gear identification number; Laptev Sea; MOOR; Mooring; NABOS_2015_AK2-1; NABOS_2015_AK2-1, NABOS_2018_AK2-1; NABOS_2018_AK2-1; NABOS, AT2015; NABOS 2015; Name; oceanographic moorings; oceanographic time series; Physical Oceanography @ AWI; Pressure, water; Quality flag, current velocity; Quality flag, salinity; Quality flag, water temperature; Salinity; Temperature, water; Transdrift-XXIV  (1)
  • ADCP; AK5-1_MOOR; Akademik Tryoshnikov; Arctic Ocean; AT2018, TICE, NABOS; AWI_PhyOce; Binary Object; Binary Object (File Size); CATS; CATS - The Changing Arctic Transpolar System; CTD; File content; Laptev Sea; MOOR; Mooring; NABOS_2015_AK5-1; NABOS_2015_AK5-1, NABOS_2018_AK5-1; NABOS_2018_AK5-1; NABOS, AT2015; NABOS 2015; oceanographic moorings; oceanographic time series; Physical Oceanography @ AWI; Transdrift-XXIV  (1)
Collection
Keywords
Publisher
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Years
  • 1
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    Structure and Seasonal Variability of the Arctic Boundary Current North of Severnaya Zemlya (2023)
    Details
    Publication Date: 2023-11-13
    Description: We assessed the spatial and temporal variability of the Arctic Boundary Current (ABC) using seven oceanographic moorings, deployed across the continental slope north of Severnaya Zemlya in 2015–2018. Transports and individual water masses were quantified based on temperature and salinity recorders and current profilers. Our results were compared with observations from the northeast Svalbard and the central Laptev Sea continental slopes to evaluate the hydrographic transformation along the ABC pathway. The highest velocities (〉0.30 m s〈sup〉−1〈/sup〉) of the ABC occurred at the upper continental slope and decreased offshore to below 0.03 m s〈sup〉−1〈/sup〉 in the deep basin. The ABC showed seasonal variability with velocities two times higher in winter than in summer. Compared to upstream conditions in Svalbard, water mass distribution changed significantly within 20 km of the shelf edge due to mixing with‐ and intrusion of shelf waters. The ABC transported 4.15 ± 0.3 Sv in the depth range 50–1,000 m, where 0.88 ± 0.1, 1.5 ± 0.2, 0.61 ± 0.1 and 1.0 ± 0.15 Sv corresponded to Atlantic Water (AW), Dense Atlantic Water (DAW), Barents Sea Branch Water (BSBW) and Transformed Atlantic Water (TAW). 62–70% of transport was constrained to within 30–40 km of the shelf edge, and beyond 84 km, transport increases were estimated to be 0.54 Sv. Seasonality of TAW derived from local shelf‐processes and advection of seasonal‐variable Fram Strait waters, while BSBW transport variability was dominated by temperature changes with maximum transport coinciding with minimum temperatures. Further Barents Sea warming will likely reduce TAW and BSBW transport leading to warmer conditions along the ABC pathway.
    Description: Plain Language Summary: We assessed the structure and seasonal variability of the flow and water masses of the Arctic Boundary Current (ABC) in the region north of Severnaya Zemlya. This current is important in the Arctic Ocean as it transports relatively warm and saline waters along the Eurasian Arctic continental slope. We quantified the flow, transport and hydrographic variability of the ABC. Compared to observations from upstream, our results indicate that the water masses away from the shelf break maintained the hydrographic characteristics from upstream. In contrast, the water masses near the shelf break were significantly cooled and freshened due to intrusion of‐ and mixing with shelf waters. The water masses near the shelf break showed a seasonal signal in volume transport and temperature which derives from local shelf processes, advection of seasonal‐variable waters along the ABC pathway and the seasonal cooling of the Barents Sea. If the warming trend in the Barents Sea continues, warmer waters are expected to be advected eastward along the Eurasian continental slope by the ABC.
    Description: Key Points: We quantify the Arctic Boundary Current (ABC) transport north of Severnaya Zemlya with a 2015–2018 mooring array. Hydrographic changes along the ABC pathway are most prominent at the continental slope due to the interaction with shelf water. Seasonality of water masses from the shelf sea was observed in transport, temperature and off‐shelf excursions within the ABC.
    Description: Bundesministerium für Bildung und Forschung http://dx.doi.org/10.13039/501100002347
    Description: EC Horizon 2020 Framework Programme http://dx.doi.org/10.13039/100010661
    Description: Russian Science Foundation http://dx.doi.org/10.13039/501100006769
    Description: Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659
    Description: https://doi.pangaea.de/10.1594/PANGAEA.951363
    Description: https://doi.pangaea.de/10.1594/PANGAEA.951394
    Description: https://doi.pangaea.de/10.1594/PANGAEA.951394
    Description: https://doi.pangaea.de/10.1594/PANGAEA.954244
    Description: https://doi.pangaea.de/10.1594/PANGAEA.954249
    Description: https://doi.pangaea.de/10.1594/PANGAEA.954299
    Description: https://doi.pangaea.de/10.1594/PANGAEA.954352
    Keywords: ddc:551.48 ; Arctic Boundary Current ; seasonal transport variability ; water mass transport ; along‐slope current
    Language: English
    Type: doc-type:article
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    CITATION GEO-LEO
  • 2
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    Raw temperature and salinity data from moorings in the Laptev Sea in 2013-2016 (2017)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-02-16
    Description: The data set contains raw datafiles from instruments that were moored in the Laptev Sea between 2013 and 2016. The moorings were operated as part of the Russian-German BMBF-funded Transdrift project. Four moorings (1893-T1, Kotelnyy, Vilkitzky, Taymyr-T1) were deployed in September 2013 and recovered in September 2014 aboard the RV Viktor Buinitsky. During the 2014 expedition, five moorings were re-deployed, two of which were recovered in 2015 (Taymyr-T1-14 and 1893-T1-14) and three in 2016 (Vilkitzky-T1-14, Vilkitzky-T2-14, Vilkitzky-T3-14) by a Russian expedition to the Laptev Sea. The attached files include raw data from numerous SBE37-CTDs, as well as some turbidity meters and 2 records from a Wetlabs Ecotriplet. The moorings also contained ADCP current profilers, which are not included in this file due to limitations in the Russian-German data agreements. A spreadsheet with coordinates and instruments as well as mooring schematics are included in the attachment.
    Keywords: 1893-T1-13; 1893-T1-14; Campaign of event; Date/Time of event; Date/Time of event 2; Elevation of event; Event label; File content; File size; Kotelnyy-13; Laptev Sea; Latitude of event; Longitude of event; Mooring (long time); MOORY; Taymyr-T1-13; Taymyr-T1-14; Transdrift-XXI; Transdrift-XXII; Uniform resource locator/link to metadata file; Uniform resource locator/link to raw data file; VB13; VB13_15-9a; VB13_16-5a; VB13_5-1; VB13_7-9a; VB14; VB14_15-6; VB14_28-2; VB14_29-4; VB14_30-2; VB14_31-3; Viktor Buynitskiy; Vilkitzky-13; Vilkitzky-T1-14; Vilkitzky-T2-14; Vilkitzky-T3-14
    Type: Dataset
    Format: text/tab-separated-values, 36 data points
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    DATA PANGAEA
  • 3
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    Raw data of physical oceanography and current velocity from mooring AK5-1 in the Arctic Ocean in 2015-2018 (2022)
    PANGAEA
    Details
    Publication Date: 2024-04-20
    Description: Time series data of physical oceanography (seawater conductivity, temperature, pressure, salinity) and ocean current velocities were obtained from mooring AK5 in the eastern Arctic Ocean north of Severnaya Zemlya (82.224 °N, 94.846 °W, water depth 2398 m) in 2015 - 2018. The mooring was deployed during Akademik Tryoshnikov expedition AT2015 as part of the NSF-funded NABOS (Nansen and Amundsen Basins Observational System) - program and recovered during AT2018, which was jointly organized between NABOS and the German BMBF-funded CATS (Changing Arctic Transpolar System)-project. The attached archive contains raw data files of Seabird SBE37 microcats, Seabird SBE26 bottom pressure recorders, RDI Acoustic Doppler Current profiler and Aanderaa point current meters. Auxiliary information such as sensor calibration sheets, mooring diagrams and schedule files are also provided, if applicable.
    Keywords: ADCP; AK5-1_MOOR; Akademik Tryoshnikov; Arctic Ocean; AT2018, TICE, NABOS; AWI_PhyOce; Binary Object; Binary Object (File Size); CATS; CATS - The Changing Arctic Transpolar System; CTD; File content; Laptev Sea; MOOR; Mooring; NABOS_2015_AK5-1; NABOS_2015_AK5-1, NABOS_2018_AK5-1; NABOS_2018_AK5-1; NABOS, AT2015; NABOS 2015; oceanographic moorings; oceanographic time series; Physical Oceanography @ AWI; Transdrift-XXIV
    Type: Dataset
    Format: text/tab-separated-values, 2 data points
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    DATA PANGAEA
  • 4
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    Physical oceanography and current velocity data from mooring AK2-1 in the Arctic Ocean in 2015-2018 (2023)
    PANGAEA
    Details
    Publication Date: 2024-06-12
    Description: Time series data of physical oceanography (seawater conductivity, temperature, pressure, salinity) and ocean current velocities were obtained from mooring AK2 in the eastern Arctic Ocean north of Severnaya Zemlya (81.903 °N, 94.482 °E, water depth 898 m) in 2015 - 2018. The mooring was deployed during Akademik Tryoshnikov expedition AT2015 as part of the NSF-funded NABOS (Nansen and Amundsen Basins Observational System) - program and recovered during AT2018, which was jointly organized between NABOS and the German BMBF-funded CATS (Changing Arctic Transpolar System)-project. The attached archive contains processed current velocities and hydrographic data recorded with Seabird SBE37 microcats, RDI Acoustic Doppler Current profilers and Aanderaa point current meters. Details on data processing can be found in the file description and in Ruiz-Castillo et al. (2022). Instruments types and serial numbers can be found in the attached document.
    Keywords: ADCP; AK2-1_MOOR; Akademik Tryoshnikov; Arctic Ocean; AT2018, TICE, NABOS; AWI_PhyOce; Calculated; CATS; CATS-Synthesis; CATS-Synthesis: The Changing Arctic Transpolar System; CATS - The Changing Arctic Transpolar System; CTD; Current velocity, east-west; Current velocity, north-south; DATE/TIME; DEPTH, water; FRAM; FRontiers in Arctic marine Monitoring; Gear identification number; Laptev Sea; MOOR; Mooring; NABOS_2015_AK2-1; NABOS_2015_AK2-1, NABOS_2018_AK2-1; NABOS_2018_AK2-1; NABOS, AT2015; NABOS 2015; Name; oceanographic moorings; oceanographic time series; Physical Oceanography @ AWI; Pressure, water; Quality flag, current velocity; Quality flag, salinity; Quality flag, water temperature; Salinity; Temperature, water; Transdrift-XXIV
    Type: Dataset
    Format: text/tab-separated-values, 12792078 data points
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    DATA PANGAEA
  • 5
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    On the Along‐Slope Heat Loss of the Boundary Current in the Eastern Arctic Ocean (2021)
    Details
    Publication Date: 2021-07-21
    Description: This study presents recent observations to quantify oceanic heat fluxes along the continental slope of the Eurasian part of the Arctic Ocean, in order to understand the dominant processes leading to the observed along‐track heat loss of the Arctic Boundary Current (ABC). We investigate the fate of warm Atlantic Water (AW) along the Arctic Ocean continental margin of the Siberian Seas based on 11 cross‐slope conductivity, temperature, depth transects and direct heat flux estimates from microstructure profiles obtained in summer 2018. The ABC loses on average O(108) J m−2 per 100 km during its propagation along the Siberian shelves, corresponding to an average heat flux of 47 W m−2 out of the AW layer. The measured vertical heat flux on the upper AW interface of on average 10 W m−2 in the deep basin, and 3.7 W m−2 above the continental slope is larger than previously reported values. Still, these heat fluxes explain less than 20% of the observed heat loss within the boundary current. Heat fluxes are significantly increased in the turbulent near‐bottom layer, where AW intersects the continental slope, and at the lee side of a topographic irregularity. This indicates that mixing with ambient colder water along the continental margins is an important contribution to AW heat loss. Furthermore, the cold halocline layer receives approximately the same amount of heat due to upward mixing from the AW, compared to heat input from the summer‐warmed surface layer above. This underlines the importance of both surface warming and increased vertical mixing in a future ice‐free Arctic Ocean in summer.
    Description: Plain Language Summary: Warm water from the Atlantic Ocean enters the Arctic Ocean through the Barents Sea and the Fram Strait, between Greenland and Norway, and directly influences the formation of sea ice: When the Atlantic Water (AW) is located close to the ocean's surface, as is the case shortly after its inflow in the Barents Sea, sea ice melts and new sea ice formation is hindered. This is why the Barents Sea is often ice free, even in winter. Further along the pathway, in the Laptev and East Siberian Sea study region, the AW gradually cools and dives down to deeper layers. In order to quantify the cooling and to understand how and where it happens, we measured vertical profiles of temperature and heat fluxes along a 2,500 km long part of the AW pathway. Based on these measurements, we found that the heat loss mainly occurs by mixing of warm AW with ambient cold water above the continental slope, in particular in the highly energetic region near the sea floor.
    Description: Key Points: The Atlantic Water (AW) transported in the Arctic Boundary Current loses O(108)  J m−2 per 100 km during its translation along the Siberian shelves Heat fluxes are larger than previously reported values, but too small to account for this heat loss, indicating the importance of boundary mixing The heat input from the underlying AW layer to the cold halocline is of similar magnitude to the heat input from the warm surface layer above
    Description: Bundesministerium für Bildung und Forschung http://dx.doi.org/10.13039/501100002347
    Description: NSF | GEO | Division of Ocean Sciences http://dx.doi.org/10.13039/100000141
    Keywords: 551.46 ; Arctic Boundary Current ; Arctic Ocean ; heat flux ; Laptev Sea ; mixing ; turbulence
    Type: article
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    CITATION GEO-LEO
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