Michael Bell scite author profile

ABSTRACT:A detailed description of the data assimilation scheme used in the Forecasting Ocean Assimilation Model (FOAM) operational ocean forecasting system is presented. The theoretical basis for the scheme is an improved version of the analysis correction scheme, which includes information from previously assimilated data. The scheme requires the a priori specification of error covariance information for the background model field and the observations. The way in which these error covariances have been estimated is described and some examples are given. The FOAM system assimilates sea surface temperature, sea-level anomaly, temperature profile, salinity profile and sea-ice concentration data. Aspects of the scheme that are specific to each of these observation types are described.Two sets of experiments demonstrating the impact of the data assimilation are presented. The first set are in an idealized identical-twin setting, using the 1 9°-resolution North Atlantic FOAM configuration in which the state of the true ocean is assumed to be known. These experiments show that the analyses and forecasts are improved by assimilating the altimeter sea-level-anomaly data. The second set of experiments comprise data impact studies in a realistic hindcast setting. These experiments show a positive impact on the analyses from the Argo temperature-and salinity-profile data.  Crown

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Assimilation of data into an ocean model with systematic errors near the equator

Bell

Martin

Nichols

2004

Quart J Royal Meteoro Soc

108

102

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SUMMARYAssimilation of thermal data into an ocean model near the equator often results in a dynamically unbalanced state with unrealistic deep overturning circulations. The way in which these circulations arise from errors in the model or its forcing and the equatorial dynamics is discussed. A scheme is proposed to calculate a state with a better balance by using the observational increments to the model to update slowly evolving bias fields. These bias fields augment the model state and affect the model's pressure gradients. The properties of the augmented shallow-water equations are examined. When forced by steady incorrect wind stresses, solutions of the augmented equations assimilating full fields of surface height data converge to the correct surface height and vertical velocity fields.

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Will high-resolution global ocean models benefit coupled predictions on short-range to climate timescales?

et al. 2017

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Assessment of the FOAM global data assimilation system for real-time operational ocean forecasting

Bell

Forbes

Hines

2000

Journal of Marine Systems

112

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An introduction to GODAE OceanView

Bell

Schiller

Traon

et al. 2015

Journal of Operational Oceanography

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Michael Bell

Data assimilation in the FOAM operational short‐range ocean forecasting system: a description of the scheme and its impact

Assimilation of data into an ocean model with systematic errors near the equator

Will high-resolution global ocean models benefit coupled predictions on short-range to climate timescales?

Assessment of the FOAM global data assimilation system for real-time operational ocean forecasting

An introduction to GODAE OceanView

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