On the Benefit of Current and Future ALPS Data for Improving Arctic Coupled Ocean-Sea Ice State Estimation

Autonomous and Lagrangian platforms and sensors (ALPS) have revolutionized the way the subsurface ocean is observed. The synergy between ALPS-based observations and coupled ocean-sea ice state and parameter estimation as practiced in the Arctic Subpolar gyre sTate Estimate (ASTE) project is illustra...

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Bibliographic Details
Published inOceanography (Washington, D.C.) Vol. 30; no. 2; pp. 69 - 73
Main Authors Nguyen, An T., Ocaña, Victor, Garg, Vikram, Heimbach, Patrick, Toole, John M., Krishfield, Richard A., Lee, Craig M., Rainville, Luc
Format Journal Article
LanguageEnglish
Published Rockville The Oceanography Society 01.06.2017
Oceanography Society
Subjects
Adjoints
Deployment
Drifters
Floats
Frameworks
Ice
Observational research
Ocean circulation
Ocean currents
Oceans
Polar environments
Profilers
Profiles
Salinity
Sea ice
Sea water
Seas
State estimation
TECHNOLOGY REPORT
Vertical profiles
Water column
Water depth
Arctic region
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Summary:Autonomous and Lagrangian platforms and sensors (ALPS) have revolutionized the way the subsurface ocean is observed. The synergy between ALPS-based observations and coupled ocean-sea ice state and parameter estimation as practiced in the Arctic Subpolar gyre sTate Estimate (ASTE) project is illustrated through several examples. In the western Arctic, Ice-Tethered Profilers have been providing important hydrographic constraints of the water column down to 800 m depth since 2004. ASTE takes advantage of these detailed constraints to infer vertical profiles of diapycnal mixing rates in the central Canada Basin. The state estimation framework is also used to explore the potential utility of Argo-type floats in regions with sparse data coverage, such as the eastern Arctic and the seasonal ice zones. Finally, the framework is applied to identify potential deployment sites that optimize the impact of float measurements on bulk oceanographic quantities of interest.
ISSN:1042-8275
2377-617X
DOI:10.5670/oceanog.2017.223