The relevance of Mean-State Critical Levels for the intensification of downslope winds in a coastal mountainous environment
Duine, G., Carvalho, L. M. V., Jones, C., Thompson, C., Brown, W. O.J., et al. (2025). The relevance of Mean-State Critical Levels for the intensification of downslope winds in a coastal mountainous environment. Weather and Forecasting, doi:https://doi.org/10.1175/WAF-D-24-0084.1
| Title | The relevance of Mean-State Critical Levels for the intensification of downslope winds in a coastal mountainous environment |
|---|---|
| Genre | Article |
| Author(s) | G. Duine, L. M. V. Carvalho, C. Jones, C. Thompson, William O.J. Brown, J. Dumas, D. Gomberg, T. Hall, R. Kittell |
| Abstract | In wildfire-prone coastal Santa Barbara, California, downslope winds observed on the southern slopes of the east–west-oriented Santa Ynez Mountains are known as Sundowner winds (or Sundowners). One important feature of Sundowners is the remarkable spatial and temporal variability in lee-slope jet characteristics. Besides the intensity of the flow approaching the mountain range, the acceleration of the lee-slope jet can be influenced by reflected gravity waves associated with one or more of the following mechanisms: a self-induced critical level, an inversion close to mountaintop, and the presence of a mean-state critical level (MSCL). The relative contribution of these mechanisms to the enhancement of Sundowners is yet unknown. This study uses 32-yr simulations (hourly, 1-km grid spacing) complemented with observations collected during the Sundowner Winds Experiment (SWEX) to better quantify the relative contribution of these mechanisms and to quantify the importance of MSCLs. We show that when an MSCL is present below 5 km, less atmospheric forcing is necessary to attain similar lee-slope jet strengths compared to when MSCLs are absent or above 5 km. This was evidenced from simulations and verified with observations. Although MSCLs during Sundowners occur year-round, their relative frequency increases in summer, when temperatures are high and fuels are dry, enhancing wildfire risk. Properly identifying these processes contributes to improved understanding and predictability of Sundowners and many other hazardous downslope windstorms in coastal environments. |
| Publication Title | Weather and Forecasting |
| Publication Date | Feb 1, 2025 |
| Publisher's Version of Record | https://doi.org/10.1175/WAF-D-24-0084.1 |
| OpenSky Citable URL | https://n2t.net/ark:/85065/d7b56q55 |
| OpenSky Listing | View on OpenSky |
| EOL Affiliations | ISF, APG |