Did you not find what you were looking for? Try the Advanced Search to refine your search.

Search results 281 items matching your search terms

Subscribe to an always-updated feed of these search terms

Image Store og små synes det var spennende på åpent skip
IPY Article Task 3.9: Inverted estuarine circulation – driving the export of freshwater
Main objective: To develop conceptual models related to the circulation driven by the Arctic freshwater.
IPY Article Task 3.8: Monitoring downstream conditions: Fate of the freshwater
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 ...
IPY Article Task 3.6: Sea ice feedback mechanisms
Main objective: Combine measurements and simplified model concepts to investigate processes important for the sea ice albedo feedback loop, and improve their ...
IPY Article Task 3.5: Carbon Cycling in the Arctic Ocean outflow
Main objective: To investigate carbon cycling and lower trophic level ecosystem functions on the East Greenland shelf to evaluate the physical forcing and ...
IPY Article Task 3.4: The buoyancy budget of the Arctic and Subarctic Seas
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 ...
IPY Article Task 3.2: Towards a modern Weather Station Mike
Main objective: To investigate the feasibility of using autonomous instrumentation for obtaining oceanographic information at Station Mike.
IPY Article Task 3.3: Bifurcation of the Norwegian Atlantic Current into a Barents Sea and a Fram Strait path
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 ...
IPY Article 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
Main objective: Quantify and understand the mass, heat and salt fluxes, and the processes modifying the Atlantic Water as flowing through the Norwegian Sea ...
IPY Article Task 2.3: Sea ice modeling
The quality of the final analyzed product in a monitoring system is influenced by the quality of the atmospheric forcing fields, observations, the assimilation ...
IPY Article Task 2.2: Optimized methods for data assimilation
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 ...
IPY Article Task 2.1: Optimal retrieval, characterization and synergy of remote sensing data
The main source of observation coverage for regular monitoring of both sea ice and sea surface temperature (SST) is satellites.
IPY Article Task 1.7: Drifting Stations Tara and NP-35
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 ...
IPY Article Related Task: Mooring section Nordaustlandet
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.
IPY Article Task 1.9: Freshwater mooring sections along the East Greenland Current; 79 and 74°N
Objective: To fill the gap in instrumentation in the freshwater observation arrays that prevents us from calculating the freshwater transport divergence ...
IPY Article Task 1.8: Drifting station KV Svalbard
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 ...
IPY Article Task 1.6: Mooring section Fram Strait East – the West Spitsbergen Current
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 ...
IPY Article Task 1.2: Measurements at Weather Station Mike
Objective: Secure the continuation of Station M ocean time series, augment the observations with modern instrumentation, and make autonomous transects of the ...
IPY Article Task 1.4: Heat -, salt - and mass flux measurements in the Fugløya-Bear Island section
Objective: To secure the continuation of the monitoring of the Barents Sea branch of the Atlantic Water inflow to the Arctic during IPY.
IPY Article Task 1.5: The Norwegian Atlantic Current bifurcation at 73oN; glider surveys in the Gimsøy- and Bear Island West sections
Objective: Implement a system of autonomous platforms to obtain detailed hydrographic data at the NwAC bifurcation at the western entrance to the Barents Sea.
IPY Article Task 1.3: Radiation measurements at Bjørnøya and Weather Station Mike
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 ...
IPY Article Task 1.1: Standard section Svinøy
Objective: Develop the Svinøy Section into a complete, sustainable, simple and robust upstream reference-system for monitoring the Atlantic inflow toward the ...
IPY Article 2007 report
IPY Article WP 5: Outreach
IPY Article Task 3.7: Surface radiative fluxes
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 ...
IPY Article WP 4: Data management
IPY Article Milestones iAOOS Norway
Folder WP 3: Process experiments
Folder WP 1: In situ observations
Folder WP 2: Monitoring and forecasting
« Previous 30 items Next 30 items » 1 ... 5 6 7 [8] 9 10