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Task 3.9: Inverted estuarine circulation – driving the export of freshwater
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Main objective: To develop conceptual models related to the circulation driven by the Arctic freshwater.
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Task 3.8: Monitoring downstream conditions: Fate of the freshwater
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Main objective: Estimate the fresh water transport on the shelf at 79 N and monitor the strength and along-path evolution of the ice, freshwater and volume ...
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Task 3.6: Sea ice feedback mechanisms
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Main objective: Combine measurements and simplified model concepts to investigate processes important for the sea ice albedo feedback loop, and improve their ...
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Task 3.5: Carbon Cycling in the Arctic Ocean outflow
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Main objective: To investigate carbon cycling and lower trophic level ecosystem functions on the East Greenland shelf to evaluate the physical forcing and ...
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Task 3.4: The buoyancy budget of the Arctic and Subarctic Seas
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Main objective: To improve the understanding of what sets the density field of the Arctic and Subarctic Seas with special emphasis on the role of mesoscale ...
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Task 3.2: Towards a modern Weather Station Mike
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Main objective: To investigate the feasibility of using autonomous instrumentation for obtaining oceanographic information at Station Mike.
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Task 3.3: Bifurcation of the Norwegian Atlantic Current into a Barents Sea and a Fram Strait path
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Main objective The overall objective of this task is to improve the understanding of the mechanisms governing the bifurcation of the NwAC into the Barents Sea ...
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Task 3.1: Monitoring upstream conditions: strength and along-path evolution of mass, salt and heat fluxes, and water masses of the Norwegian Atlantic Current
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Main objective: Quantify and understand the mass, heat and salt fluxes, and the processes modifying the Atlantic Water as flowing through the Norwegian Sea ...
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Task 2.3: Sea ice modeling
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The quality of the final analyzed product in a monitoring system is influenced by the quality of the atmospheric forcing fields, observations, the assimilation ...
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Task 2.2: Optimized methods for data assimilation
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To produce good ice and ocean forecasts with a model it is not only important that the forcing from the atmosphere is well described. The forecast quality is ...
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Task 2.1: Optimal retrieval, characterization and synergy of remote sensing data
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The main source of observation coverage for regular monitoring of both sea ice and sea surface temperature (SST) is satellites.
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Task 1.7: Drifting Stations Tara and NP-35
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Objective: Contribute to the logistics necessary to carry out the Tara drift station, and install instrumentation at Tara and NP-35 necessary to feed data into ...
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Related Task: Mooring section Nordaustlandet
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Objective: To complete the DAMOCLES and NABOS mooring array north of Spitsbergen to be able to fully capture the inflow of Atlantic Water to the Arctic.
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Task 1.9: Freshwater mooring sections along the East Greenland Current; 79 and 74°N
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Objective: To fill the gap in instrumentation in the freshwater observation arrays that prevents us from calculating the freshwater transport divergence ...
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Task 1.8: Drifting station KV Svalbard
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Objective: To carry out two intensive winter/spring field campaigns that provide new data from the output end of the Transpolar Drift that are required for the ...
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Task 1.6: Mooring section Fram Strait East – the West Spitsbergen Current
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Objective: Extend the Fram Strait East monitoring line with a mooring on the shelf break, that will enable us to capture the strongest signal in the ...
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Task 1.2: Measurements at Weather Station Mike
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Objective: Secure the continuation of Station M ocean time series, augment the observations with modern instrumentation, and make autonomous transects of the ...
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Task 1.4: Heat -, salt - and mass flux measurements in the Fugløya-Bear Island section
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Objective: To secure the continuation of the monitoring of the Barents Sea branch of the Atlantic Water inflow to the Arctic during IPY.
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Task 1.5: The Norwegian Atlantic Current bifurcation at 73oN; glider surveys in the Gimsøy- and Bear Island West sections
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Objective: Implement a system of autonomous platforms to obtain detailed hydrographic data at the NwAC bifurcation at the western entrance to the Barents Sea.
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Task 1.3: Radiation measurements at Bjørnøya and Weather Station Mike
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Objective: Update Bjørnøya and OWS Mike with modern instrumentation for radiative fluxes, to obtain a data set for the WP3 validation of EUMETSAT Ocean and Sea ...
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Task 1.1: Standard section Svinøy
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Objective: Develop the Svinøy Section into a complete, sustainable, simple and robust upstream reference-system for monitoring the Atlantic inflow toward the ...
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2007 report
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WP 5: Outreach
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Task 3.7: Surface radiative fluxes
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The EUMETSAT Ocean and Sea Ice SAF routinely produce surface radiative fluxes from remote sensing data (AVHRR on NOAA POES and EPS METOP in the future) at high ...
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WP 4: Data management
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Milestones iAOOS Norway
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WP 3: Process experiments
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WP 1: In situ observations
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WP 2: Monitoring and forecasting
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