The ideal candidate has a strong cross-disciplinary scientific background, with solid bases in physics, maths, and especially in heat transfer and climate science. She/he has confidence in numerical simulation and data analysis. Programming skills and knowledge of fundamentals of statistics and probabilistic and possibilistic methods are an asset.
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Climate change strongly impacts the climate of cities, especially during heatwaves where there are synergies between synoptic conditions and local climate. Lack of understanding of the dynamics of evapotranspiration by vegetation and turbulent latent heat balance before heatwaves often leads to under-prediction of such events. This project will connect plant water use and stomatal conductance models differentiated by vegetation-soil systems with land surface models to provide new insight into the impacts of the built environment on moisture fluxes that influence heatwave intensity. Then it will investigate the climate impacts of the dynamic response of greenery in extreme heat conditions.
Climate Change Research Centre