RT info:eu-repo/semantics/article
T1 Snowfall events in the Cantabrian Mountains of northwestern Spain: WRF multiphysics ensemble assessment based on ground and multi-satellite observations
A1 Melón-Nava, Adrián
A1 Merino Suances, Andrés
A1 Sánchez Gómez, José Luis
A1 Santos-González, Javier
A1 Gómez-Villar, Amelia
A1 García Ortega, Eduardo
A2 Fisica Aplicada
K1 Física
K1 Geografía
K1 Geología
K1 WRF model
K1 Physics parameterization
K1 Snow precipitation
K1 Cantabrian Mountains
K1 Webcams
AB [EN] Snowfall in elevated areas of the mid-latitudes has a strong impact on infrastructure, freshwater availability, and the climate system. The Cantabrian Mountains of the northwestern Iberian Peninsula are very vulnerable to climate change because of their moderate altitudes, which limits their snowfall. Monitoring snow events is essential for the evaluation of weather and climate prediction models. However, measurement networks are scarce in mountainous areas and have great uncertainties because of blizzards. In this study, a multiphysics ensemble of the Weather Research and Forecasting (WRF) model was designed using three microphysics and two planetary boundary layer (PBL) schemes to simulate nine snowfall events in the Cantabrian Mountains during autumn and winter 2021–2022. The WRF was validated using several snow characteristics, such as liquid water equivalent, snow cover, and snow depth. Liquid water equivalent was evaluated using snow-gauge networks and satellite products in an assessment of snow cover. In addition, a monitoring network of webcams and snow poles was implemented, improving the low density of snow observations in the mountains. The results showed good model performance for detection of snow cover and slight overestimation of liquid water equivalent and snow thickness, which may have been caused by under-catchment that is generally an effect of wind on the measurement systems and by snow compaction, respectively. Morrison microphysics and Mellor-Yamada-Nakanishi-Niino (MYNN PBL) yielded better results for liquid water equivalent at higher altitudes and output greater snow cover. The results help determine the best configurations for snow modelling in the study area to develop future studies of the spatiotemporal patterns of snow distribution.
PB Elsevier
SN 0169-8095
LK http://hdl.handle.net/10612/15878
UL http://hdl.handle.net/10612/15878
NO Melón-Nava, A., Merino, A., Sánchez, J. L., Santos-González, J., Gómez-Villar, A., & García-Ortega, E. (2023). Snowfall events in the Cantabrian Mountains of northwestern Spain: WRF multiphysics ensemble assessment based on ground and multi-satellite observations. Atmospheric Research, 106719, 106719. https://doi.org/10.1016/j.atmosres.2023.106719
DS BULERIA. Repositorio Institucional de la Universidad de León
RD Jul 12, 2024