LAUSR

Abstract Urban areas, home to over half of the world's population, are at the forefront of climate change impacts and adaptation issues. Planning sustainable cities for the future requires not only a clear understanding of how climate change will influence urban areas but also how urban areas influence the local climate. This paper validates the Surface Urban Energy and Water Balance Scheme (SUEWS) model at an urban and a suburban site in Portugal, through five months of simulations, with forcing data from the Weather Research and Forecasting Model (WRF). SUEWS is tested against direct flux measurements carried out at the two study areas. The surface energy fluxes are also analysed in terms of the land cover characteristics of each study area, to understand the influence of the surface on the energy balance. At both sites SUEWS is able to simulate the turbulent sensible and latent heat fluxes and reproduces the diurnal cycle of the turbulent fluxes, but shows a consistent overestimation of the sensible heat flux. In terms of the latent heat flux, underestimation at the urban site and overestimation at the suburban site are evident. These results enable the use of WRF-SUEWS for emerging applications, such as, assessment of urban planning measures or assessment of urban climate under climate change scenarios.