@article{childs_qureshi_raman_alapaty_ellis_boyles_niyogi_2006, title={Simulation of convective initiation during IHOP_2002 using the flux-adjusting surface data assimilation system (FASDAS)}, volume={134}, ISSN={["1520-0493"]}, DOI={10.1175/MWR3064.1}, abstractNote={Abstract The Flux-Adjusting Surface Data Assimilation System (FASDAS) uses the surface observational analysis to directly assimilate surface layer temperature and water vapor mixing ratio and to indirectly assimilate soil moisture and soil temperature in numerical model predictions. Both soil moisture and soil temperature are important variables in the development of deep convection. In this study, FASDAS coupled within the fifth-generation Pennsylvania State University–NCAR Mesoscale Model (MM5) was used to study convective initiation over the International H2O Project (IHOP_2002) region, utilizing the analyzed surface observations collected during IHOP_2002. Two 72-h numerical simulations were performed. A control simulation was run that assimilated all available IHOP_2002 measurements into the standard MM5 four-dimensional data assimilation. An experimental simulation was also performed that assimilated all available IHOP_2002 measurements into the FASDAS version of the MM5, where surface observations were used for the FASDAS coupling. Results from this case study suggest that the use of FASDAS in the experimental simulation led to the generation of greater amounts of precipitation over a more widespread area as compared to the standard MM5 FDDA used in the control simulation. This improved performance is attributed to better simulation of surface heat fluxes and their gradients.}, number={1}, journal={MONTHLY WEATHER REVIEW}, author={Childs, PP and Qureshi, AL and Raman, S and Alapaty, K and Ellis, R and Boyles, R and Niyogi, D}, year={2006}, month={Jan}, pages={134–148} }