Skip to main content

Menu

Login

Explore more of Isaaffik

Results

(20 out of 142)
Title Start date End date Organisation Department Type of project
Collaborative Research: Improving the Prediction of Sea Ice through Targeted Study of Poorly Parameterized Sea Ice Processes at MOSAiC and Responsive Model Development 01/01/2020 31/12/2020 University of Washington School of Oceanography ARMAP/NSF
Collaborative Research: Improving the Prediction of Sea Ice through Targeted Study of Poorly Parameterized Sea Ice Processes at MOSAiC and Responsive Model Development 01/01/2019 31/12/2019 National Center for Atmospheric Research National Center for Atmospheric Research, Department ARMAP/NSF
Collaborative Research: Improving the Prediction of Sea Ice through Targeted Study of Poorly Parameterized Sea Ice Processes at MOSAiC and Responsive Model Development 01/01/2020 31/12/2020 National Center for Atmospheric Research National Center for Atmospheric Research, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2019 31/12/2019 University of Wyoming University of Wyoming, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2019 31/12/2019 University of Wyoming University of Wyoming, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2019 31/12/2019 University of Wyoming University of Wyoming, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2020 31/12/2020 University of Wyoming University of Wyoming, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2020 31/12/2020 University of Wyoming University of Wyoming, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2020 31/12/2020 University of Wyoming University of Wyoming, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2020 31/12/2020 University of Montana University of Montana, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2020 31/12/2020 University of Montana University of Montana, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2020 31/12/2020 University of Montana University of Montana, Department ARMAP/NSF
Collaborative Research: Quantifying Heat/Mass Structure and Fluxes Through the Full Thickness of Greenland's Percolation Zone 01/01/2020 31/12/2020 University of Montana University of Montana, Department ARMAP/NSF
Collaborative Research: Quantifying microbial controls on the annual cycle of methane and oxygen within the ultraoligotrophic Central Arctic during MOSAiC 01/10/2019 31/12/2019 University of California University of California, San Diego, Department ARMAP/NSF
Collaborative Research: Quantifying microbial controls on the annual cycle of methane and oxygen within the ultraoligotrophic Central Arctic during MOSAiC 01/01/2020 31/10/2020 University of California University of California, San Diego, Department ARMAP/NSF
Collaborative Research: Quantifying microbial controls on the annual cycle of methane and oxygen within the ultraoligotrophic Central Arctic during MOSAiC 01/01/2019 31/12/2019 University of Rhode Island University of Rhode Island, Department ARMAP/NSF
Collaborative Research: Quantifying microbial controls on the annual cycle of methane and oxygen within the ultraoligotrophic Central Arctic during MOSAiC 01/01/2020 31/12/2020 University of Rhode Island University of Rhode Island, Department ARMAP/NSF
Collaborative Research: Refreezing in the firn of the Greenland ice sheet: Spatiotemporal variability and implications for ice sheet mass balance 01/01/2019 31/12/2019 City University of New York City University of New York (CUNY), dept. ARMAP/NSF
Collaborative Research: Refreezing in the firn of the Greenland ice sheet: Spatiotemporal variability and implications for ice sheet mass balance 01/01/2019 31/12/2019 City University of New York City University of New York (CUNY), dept. ARMAP/NSF
Collaborative Research: Refreezing in the firn of the Greenland ice sheet: Spatiotemporal variability and implications for ice sheet mass balance 01/01/2019 31/12/2019 City University of New York City University of New York (CUNY), dept. ARMAP/NSF
Close