Hurricanes and severe storms exacerbate inequalities. Ahead of a Sept. 21 webinar on the subject, Stanford experts discussed how to ensure equity in planning and response for such extreme weather events, economic benefits of nature-based storm defenses, and related issues. (Source: Stanford Woods Institute for the Environment)
Research led by Stanford Earth's Morgan O'Neill shows supercell storm tops may act like mountains that obstruct winds, transforming their flow into violent turbulence that mixes near-surface air with the stratosphere above.
The most devastating tornadoes are often preceded by a cloudy plume of ice and water vapor billowing above a severe thunderstorm. New research reveals the mechanism for these plumes could be tied to “hydraulic jumps” – a phenomenon Leonardo Da Vinci observed more than 500 years ago.