Counter-Rotating Vortices during Northern California's 2021 Dixie Fire

Publication Date

12-1-2025

Document Type

Article

Publication Title

Monthly Weather Review

Volume

153

Issue

12

DOI

10.1175/MWR-D-24-0254.1

First Page

2727

Last Page

2746

Abstract

Scanning Ka-band Doppler radar observations reveal the development and intensification of a counterrotating vortex pair (CVP) embedded in an advancing fire front during California’s Dixie Fire in August 2021. The observations show that an initially isolated plume associated with a new spot fire develops flow splitting and a fire-generated inflow wind on the plume’s lee side. This inflow retards the fire progression and enhances the lateral wind shear along the plume flanks. The lateral shear evolves into quasi-symmetric cyclonic and anticyclonic vortices with winds . 40 m s21. This CVP spreads perpendicular to the wind direction, yielding a “y-shaped” fire perimeter, with fire intensity and direction of spread strongly linked to the vortices. Detailed snapshots of the vortices reveal associated radar “hook echoes” and orbiting subvortices of tornado-like intensity. Some vortices remain attached to the fire, while others shed downstream. Additional lidar observations show the structure and development of the fire’s inflow. We discuss the observed vortex evolution in the context of existing conceptualizations for CVPs in wildland fire, including their preferential occurrence on lee slopes and their role in generating lateral fire spread.

Funding Number

AGS-2114251

Funding Sponsor

National Science Foundation

Keywords

Tornadoes, Vortices, Wildfires

Department

Meteorology and Climate Science

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