Overview of Super Typhoon Bavi
Super Typhoon Bavi rapidly intensified to Category 5 status on 4 July 2026, reaching peak sustained winds of 290 km/h (180 mph) with an expansive gale-force wind field Source 3. Continuous monitoring by NOAA OSPO and NASA provides real-time Dvorak fixes and multi-spectral satellite imagery.
Path and Timeline
Bavi formed over the western Pacific and crossed Rota in the Northern Mariana Islands on 1 July before striking Guam Source 7. The storm is currently moving northwestward through the Philippine Sea toward the East China Sea and is forecast to affect Taiwan and southeastern China over the coming weekend.
Regional Impacts and Risks
The typhoon caused widespread structural damage and power outages across Rota and Guam Source 5. Its large wind field is projected to impact southern Taiwan and Okinawa, while torrential rain and flooding are expected in eastern, central, and northern China upon landfall.
Monitoring and Tracking Resources
Key tracking tools include NOAA’s OSPO Bavi page for satellite loops, Zoom Earth for interactive wind-field maps, and the New York Times interactive path tracker Source 1, Source 2, Source 10.
FAQ
What is the current status of Typhoon Bavi? Super Typhoon Bavi is moving northwest across the Philippine Sea and expected to weaken gradually before impacting Taiwan and China.
Which areas were hardest hit by Bavi? Rota experienced a direct landfall, while Guam suffered widespread damage from high winds and heavy rain.
How strong did Bavi become? Bavi reached Category 5 intensity with peak winds of 290 km/h (180 mph) and maintained a very large wind field.
When is Bavi expected to reach Taiwan or China? Forecasts indicate potential impacts to Taiwan mid-week and landfall in southeastern China over the weekend.
Where can I follow live satellite imagery of Bavi? NOAA’s OSPO storm page and Zoom Earth offer continuously updated visible, infrared, and near-infrared loops.
Is Bavi still intensifying? No—the system is now expected to weaken steadily over cooler waters and increasing wind shear.
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