Publications

McNorton, J; Agusti-Panareda, A; Arduini, G; Balsamo, G; Bousserez, N; Boussetta, S; Chericoni, M; Choulga, M; Engelen, R; Guevara, M (2023). An Urban Scheme for the ECMWF Integrated Forecasting System: Global Forecasts and Residential CO2 Emissions. JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS, 15(3), e2022MS003286.

Abstract
The impact of urbanization on local weather patterns affects over half the global population. Global numerical weather prediction systems have reached a resolution at which urban conurbations can be spatially resolved, justifying their representation within land surface parameterizations with the aim of improving local predictions. Additionally, real-time atmospheric monitoring of trace gas emissions can utilize weather variables relevant for urban areas. We investigated whether a simple single-layer urban canopy scheme can be used within a global forecast model to jointly improve predictions of near-surface weather variables and residential CO2 emissions. The scheme has been implemented in the Integrated Forecast System used operationally at the European Centre for Medium-Range Weather Forecasts running at similar to 9 km horizontal resolution. First, we selected a suitable urban land cover map (ECOCLIMAP-SG) based on comparisons with regional data and land surface temperature MODIS retrievals. The urban scheme is verified by providing improved 2 m temperature (similar to 10%) and 10 m wind (similar to 17%) RMSE values for both summer and winter months around urban environments. The influence of the scheme was most noticeable at night. Additionally, we have implemented a simple temperature-dependent residential emissions model to calculate real-time CO2 heating emissions. These were validated against existing offline products, national reporting and by comparing atmospheric simulations with total column CO2 observations. The results show an improved temporal variability of emissions, which arise from synoptic scale temperature changes. Given the improved predictability from the urban scheme for both weather and emissions, it will be operationally implemented in an upcoming model cycle.

DOI:
10.1029/2022MS003286

ISSN:
1942-2466