The December 2021 Marshall Fire: Predictability and Gust Forecasts from Operational Models

We analyzed meteorological conditions that occurred during the December 2021 Boulder, Colorado, downslope windstorm. This event is of particular interest due to the ignition and spread of the Marshall Fire, which quickly became the most destructive wildfire in Colorado history. Observations indicated a rapid onset of fast winds with gusts as high as 51 m/s that generally remained confined to the east-facing slopes and foothills of the Rockies, similar to previous Boulder windstorms. After about 12 h, the windstorm shifted into a second, less intense phase. Midtropospheric winds above northwestern Colorado weakened prior to the onset of strong surface winds and the event strength started waning as stronger winds moved back into the area. Forecasts from NOAA high-resolution operational models initialized more than a few hours prior to windstorm onset did not simulate the start time, development rate and/or maximum strength of the windstorm correctly, and day-ahead runs even failed to develop strong downslope windstorms at all. Idealized modeling confirmed that predictability was limited by errors on the synoptic scale affecting the midtropospheric wind conditions representing the Boulder windstorm's inflow environment. Gust forecasts for this event were critically evaluated.

Automated summary

This article analyzed the meteorological conditions of a downslope windstorm in Boulder, Colorado in December 2021, focusing on the Marshall Fire's ignition and spread. Observations showed rapidly increasing wind speeds with gusts up to 51 m/s, while the forecasts from operational models had some inaccuracies.