Simplified physics-based precipitation downscaling for glacierized mountain regions
Johannes Horak, Marlis Hofer, Fabien Maussion, Ethan Gutmann, Alexander Gohm and Mathias W. Rotach
Gutmann, E., Barstad, I., Clark, M., Arnold, J., & Rasmussen, R. (2016). The intermediate complexity atmospheric research model (ICAR). Journal of Hydrometeorology, 17(3), 957-973.
Horak, J., Hofer, M., Maussion, F., Gutmann, E., Gohm, A., and Rotach, M. W.: Assessing the Added Value of the Intermediate Complexity Atmospheric Research Model (ICAR) for Precipitation in Complex Topography, Hydrol. Earth Syst. Sci. Discuss., https://doi.org/10.5194/hess-2018-612, in review, 2018.
Precipitation downscaling in complex topography with ICAR evaluated with a weather-pattern based approach, (ICAM 2019) – Motivation for the idealized simulations and studies presented at IMC 2019.
An evaluation of linear theory based downscaling with ICAR in complex topography (IMC 2019) – Idealized simulations motivated by issues presented in the ICAM 2019 poster.
Three recommendations to improve simulations with the Intermediate Complexity Atmospheric Research (ICAR) model (EGU 2020, online) – Results of the more systematic and broader approach to the idealized simulations from the IMC 2019 poster showcasing three central improvements.agm_poster_200dpi