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Main Authors: Gucci, Federica, Zonato, Andrea, Falocchi, Marco, Zardi, Dino, Giovannini, Lorenzo
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.08366
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_version_ 1866914379979554816
author Gucci, Federica
Zonato, Andrea
Falocchi, Marco
Zardi, Dino
Giovannini, Lorenzo
author_facet Gucci, Federica
Zonato, Andrea
Falocchi, Marco
Zardi, Dino
Giovannini, Lorenzo
contents The characteristics of the nocturnal drainage wind flowing from the tributary Isarco Valley into the Bolzano basin, in the Italian Alps, during wintertime are investigated. Analyses are performed by combining measurements from an intensive field campaign and the output of four high-resolution numerical simulations, run with the Weather Research and Forecasting (WRF) model using different planetary boundary-layer (PBL) schemes. Two episodes are identified, based on the vertical temperature stratification in the basin and the evolution of the drainage flow at the valley exit. Numerical results show that the drainage flow behaves as a valley-exit wind, whose main structure at the exit of the valley is well captured by the model independently of the PBL scheme. However, the model struggles to correctly reproduce the temperature stratification in the basin, with better results when a PBL scheme including, among others, a prognostic equation for the temperature variance and a counter-gradient term is used. This has an impact on the simulation of the onset and duration of the valley-exit wind, which are sensitive to the temperature contrasts between the valley and the basin. Overall, the model is able to reproduce the different behavior of the drainage wind at the exit of the valley in the two case studies. It is found that the presence of a cold air pool in the basin favors an upward trajectory of the flow at the exit of the valley, resulting in unperturbed calm wind conditions in the lower levels. On the other hand, with weak temperature stratification, the drainage flow closely follows the topography, resulting in strong winds also near the surface.
format Preprint
id arxiv_https___arxiv_org_abs_2603_08366
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Observations and numerical simulations of a valley-exit wind in the Alpine Bolzano basin
Gucci, Federica
Zonato, Andrea
Falocchi, Marco
Zardi, Dino
Giovannini, Lorenzo
Atmospheric and Oceanic Physics
The characteristics of the nocturnal drainage wind flowing from the tributary Isarco Valley into the Bolzano basin, in the Italian Alps, during wintertime are investigated. Analyses are performed by combining measurements from an intensive field campaign and the output of four high-resolution numerical simulations, run with the Weather Research and Forecasting (WRF) model using different planetary boundary-layer (PBL) schemes. Two episodes are identified, based on the vertical temperature stratification in the basin and the evolution of the drainage flow at the valley exit. Numerical results show that the drainage flow behaves as a valley-exit wind, whose main structure at the exit of the valley is well captured by the model independently of the PBL scheme. However, the model struggles to correctly reproduce the temperature stratification in the basin, with better results when a PBL scheme including, among others, a prognostic equation for the temperature variance and a counter-gradient term is used. This has an impact on the simulation of the onset and duration of the valley-exit wind, which are sensitive to the temperature contrasts between the valley and the basin. Overall, the model is able to reproduce the different behavior of the drainage wind at the exit of the valley in the two case studies. It is found that the presence of a cold air pool in the basin favors an upward trajectory of the flow at the exit of the valley, resulting in unperturbed calm wind conditions in the lower levels. On the other hand, with weak temperature stratification, the drainage flow closely follows the topography, resulting in strong winds also near the surface.
title Observations and numerical simulations of a valley-exit wind in the Alpine Bolzano basin
topic Atmospheric and Oceanic Physics
url https://arxiv.org/abs/2603.08366