Litcius/Paper detail

Implementation of Scale-Dependent Background-Error Covariance Localization in the Canadian Global Deterministic Prediction System

Jean‐François Caron, Mark Buehner

2022Weather and Forecasting18 citationsDOIOpen Access PDF

Abstract

Abstract The approach of applying different amounts of horizontal localization to different ranges of background-error covariance horizontal scales as proposed by Buehner and Shlyaeva was recently implemented in the four-dimensional ensemble–variational (4DEnVar) data assimilation scheme of the global deterministic prediction system (GDPS) at Environment and Climate Change Canada operations. To maximize the benefits from this approach to reduce the sampling noise in the ensemble-derived background-error covariances, it was necessary to adopt a new weighting between the climatological and flow-dependent covariances that increases significantly the role of the latter. Thus, in December 2021 the GDPS became the first operational global deterministic medium-range weather forecasting system to rely completely on flow-dependent covariances in the troposphere and the lower stratosphere. The experiments that led to the adoption of these two related changes and their impacts on the forecasts up to 7 days for various regions of the globe during the boreal summer of 2019 and winter of 2020 are presented here. It is also illustrated that relying more on ensemble-derived covariances amplifies the positive impacts on the GDPS when the background ensemble generation strategy is improved.

Topics & Concepts

Data assimilationCovarianceWeightingEnvironmental scienceMeteorologyScale (ratio)Computer scienceNumerical weather predictionTroposphereRange (aeronautics)Ensemble forecastingStratosphereClimatologyStatisticsMathematicsGeographyComposite materialMedicineGeologyCartographyRadiologyMaterials scienceMeteorological Phenomena and SimulationsClimate variability and modelsAtmospheric and Environmental Gas Dynamics