Using digital terrain analysis modeling techniques for the parameterization of a hydrologic model

A soil-vegetation-atmosphere-transfer scheme, which solves the coupled system of the Surface Energy and Water Balance (SEWAB) equations considering partly vegetated surfaces, is presented. In terms of complexity, SEWAB is similar to many other land±surface schemes with respect to the calculation of

Shape-based modelling is a general approach to surface representation, which has a great importance in the specific context of the Antarctic sea floor reconstruction, where measurements can involve critical operations. Here, a method is proposed where shape-based surface reconstruction is achieved p

The space and time resolutions used for the input variables of a distributed hydrological model have a sufficient impact on the model results. This resolution depends on the required accuracy, experimental site and the processes and variables taken into account in the hydrological model. The influen

## Abstract Model tests of blowing snow redistribution and sublimation by wind were performed for three winters over a small mountainous sub‐Arctic catchment located in the Yukon Territory, Canada, using a physically based blowing snow model. Snow transport fluxes were distributed over multiple hyd

## Abstract A convection parameterization scheme recently incorporated into the Meteorological Office 10‐level model is described. A one‐dimensional cloud model incorporating entrainment and detrainment, together with a simple representation of cloud microphysics, is used to provide heat and moistu