Estimation of systematic error in an equatorial ocean model using data assimilation

Abstract

Assimilation of temperature observations into an ocean model near the equator often results in a dynamically unbalanced state with unrealistic overturning circulations. The way in which these circulations arise from systematic errors in the model or its forcing is discussed. A scheme is proposed, based on the theory of state augmentation, which uses the departures of the model state from the observations to update slowly evolving bias fields. Results are summarized from an experiment applying this bias correction scheme to an ocean general circulation model. They show that the method produces more balanced analyses and a better fit to the temperature observations. © Crown copyright 2002. Reproduced with the permission of Her Majesty's Stationery Office. Published by John Wiley and Sons, Ltd.