Utilizing CryoSat-2 Sea Ice Thickness to Initialize a Coupled Ice-Ocean Modeling System
Journal Article - Open Access
NAVAL RESEARCH LAB STENNIS DETACHMENT STENNIS SPACE CENTER MS STENNIS SPACE CENTER
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Two CryoSat-2 sea ice thickness products derived with independent algorithms are used to initialize a coupled ice-ocean modeling system in which a series of reanalysis studies are performed for the period of March 15, 2014September 30, 2015. Comparisons against moored upward looking sonar, drifting ice mass balance buoy, and NASA Operation Ice Bridge ice thickness data show that the modeling system exhibits greatly reduced bias using the satellite-derived ice thickness data versus the operational model run without these data. The model initialized with CryoSat-2 ice thickness exhibits skill in simulating ice thickness from the initial period to up to 6 months. We find that the largest improvements in ice thickness occur over multi-year ice. Based on the data periods examined here, we find that for the 18-month study period, when compared with upward looking sonar measurements, the CryoSat-2 reanalyses show significant improvement in bias 0.470.75 and RMSE 0.891.04 versus the control run without these data 1.44 and 1.60, respectively. A nice drift comparison reveals little change in ice velocity statistics for the Pan Arctic region however some improvement is seen during the summerautumn months in 2014 for the BeringBeaufortChukchi and GreenlandNorwegian Seas. These promising results suggest that such a technique should be used to reinitialize operational sea ice modeling systems.
- Physical and Dynamic Oceanography
- Snow, Ice and Permafrost