Assimilating sea ice concentration and SMOS sea ice thickness using a local SEIK filter August 18,...
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Transcript of Assimilating sea ice concentration and SMOS sea ice thickness using a local SEIK filter August 18,...
![Page 1: Assimilating sea ice concentration and SMOS sea ice thickness using a local SEIK filter August 18, 2014 Qinghua Yang, Svetlana N. Losa, Martin Losch, Xiangshan.](https://reader036.fdocuments.net/reader036/viewer/2022062523/5a4d1b037f8b9ab05998796a/html5/thumbnails/1.jpg)
Assimilating sea ice concentration and SMOS sea ice thickness using
a local SEIK filter
August 18, 2014
Qinghua Yang, Svetlana N. Losa, Martin Losch, Xiangshan Tian-Kunze, Lars Nerger, Jiping Liu,
Lars Kaleschke and Zhanhai Zhang
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Content
• Introduction• Model and Data assimilation (DA) • Sea ice concentration DA in summer• Sea ice thickness DA in cold season• Summary & outlook
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1. Introduction• Arctic sea ice is in rapid decline in summer (IPCC, 2013)
• Arctic marine opportunities and risks: sea ice forecasts
• Factors affecting sea ice forecasts
Model biases Atmospheric forcing Sea ice data assimilation (DA)
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Near real-time sea ice observations(Arctic ocean scale)
• in summer Sea ice concentration (NSIDC-SSMIS, OSISAF-SSM/I, UB-
AMSR2)Sea ice drift (OSISAF-AVHRR; limited numbers)
• in cold season Sea ice concentration (NSIDC-SSMIS, OSISAF-SSM/I, UB-
AMSR2)Sea ice drift (OSISAF-AMSR2/SSMI/ASCAT/AVHRR,
IFREMER-SSMI/AMSR2) Sea ice thickness (UH-SMOS; the first operational thickness)
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SMOS sea ice thickness data• Derived from ESA-Soil
Moisture and Ocean Salinity (SMOS) brightness temperatures
• The first daily near-real time sea ice thickness data;
• Only valid from October to April
• Maximum retrievable thickness: 0-1 m
• Uncertainty provided http://www.icdc.zmaw.de/
Ice thickness Thickness uncertainty
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Sea ice data assimilation (DA)• Sea ice concentration DA (Lisæter et al., 2003; Lindsay and Zhang, 2006; Stark et al., 2008; Wang et al., 2013)
large ice concentration improvement small ice thickness improvementQuestion-1: Sea ice concentration DA with LSEIK?
• Sea ice thickness DA (Lisæter et al., 2007: assimilating synthetic ice thickness)Question-2: SMOS ice thickness DA with LSEIK?
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2.1 Model configuration
• MITgcm ice-ocean model with an optimized Arctic regional configuration (Nguyen et al., 2011)
• ~ 18km horizontal resolution
• Forcing: Japan Meteorological Agency (JMA) analysis (‘hindcast’)
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2.2 Data assimilation methodology
• Ensemble Kalman filter (local SEIK) in Parallel Data Assimilation Framework (PDAF, http://pdaf.awi.de).
• 24-hour forecast/analysis cycles • Ensemble size 15• State vector (sea ice concentration + thickness) • Assumed data errors• ‘Forgetting factor’: inflate the ensemble error covariance• Localization: 126 km radius (~ 7 grid points), weight on data errors
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3. Sea ice concentration DA in summer
• Study period: June 1 to August 31, 2010. • LSEIK-1: NSIDC SSMIS ice concentration
(RMS=0.30, “relative weight” error) • Ice thickness update: by the concentration observations
and background error covariance.• Independent data for comparison:
OSISAF sea ice concentration (http://www.osi-saf.org/) BGEP sea ice draft (http://www.whoi.edu/beaufortgyre) Ice mass-balance buoys (IMBs; http://IMB.crrel.usace.army.mil)
(Yang et al., Ann. Glaciol., 2014)
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RMSE evolution of sea ice concentration
(Yang et al., Ann. Glaciol., 2014)
NSIDC Independent OSISAF
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BGEP_2009A BGEP_2009D
IMB_2010A
IMB_2010B
(Yang et al., Ann. Glaciol., 2014)
Comparison with in-situ sea ice thickness
IMB_2010A
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4. Sea ice data assimilation in autumn-winter transition
• Study Period: November 1, 2011 to January 31, 2012 (A freeze-up period)• LSEIK-1: SSMIS concentration (RMS=0.30); Same as summer LSEIK-2: SSMIS concentration (RMS=0.30) + SMOS thickness (0-1 m; provided uncertainty)• In LSEIK-2, both ice concentration and thickness updates are influenced by the assimilated two data sets• Independent data for comparison
(Yang et al., JGR-Oceans, 2014, submitted)
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(Yang et al., JGR-Oceans, 2014, submitted)
RMSE evolution of sea ice concentration
NSIDC
Indepedent OSISAF
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SMOS thickness
(Yang et al., JGR-Oceans, 2014, submitted)
RMSE evolution of sea ice thickness
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LSEIK-1 LSEIK-2
Mean deviation
RMS deviation
(Yang et al., JGR-Oceans, 2014, submitted)
Impact on mean sea ice thickness forecasts
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BGEP_2011a BGEP_2011b
BGEP_2011d IMB_2011K
BGEP_2011b
(Yang et al., JGR-Oceans, 2014, submitted)
Comparison with in-situ sea ice thickness
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Summary
•In summer, the ice concentration has been largely improved by the concentration
assimilation, the ice thickness forecasts can also be improved.
•In the cold season, the impact of assimilating only sea ice concentration is much smaller than
in summer.The SMOS ice thickness assimilation leads to much better thickness
forecasts, and better concentration forecasts. The SMOS ice thickness assimilation can also improve long-term (>5
days) sea ice forecasts.
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Outlook
•Data assimilation of sea ice drift, SST and snow thickness observations
•Arctic sea ice data assimilation and ensemble forecasts using TIGGE ensemble forcing data (http://tigge.ecmwf.int/)
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