The National Hurricane Center said in its latest consultation that Gabriel was a tropical storm in the Salgaso Sea.
Gabrielle is the seventh storm formed in the Atlantic Ocean in 2025. Follow the update here.
Predict wind speed and direction
Tracking rainfall in Gabriel
When the storm is close enough to land, signals from the U.S. radar network will begin to rebound from rainfall within the tropical cyclone, making it easier to find the stronger parts of the storm and the heaviest rainfall. During a hurricane, the center of the storm will be an area on the radar radar, with rain known as the eyes, completely surrounded by wind and rain called the eye wall. What spirals out from the center are rain belts of varying strengths.
What are the risks of tearing the current?
The tearing current, even from distant storms, is the third highest cause of death related to hurricanes, according to the Meteorological Services Agency, which floods with excessive rain and storm currents. This year, the Hurricane Center has begun providing RIP's current forecast.
Tracking power outages
Gabrielle caused a destructive wind along the storm's path caused a power outage.
No power to share
What does the storm above look like?
Satellite images can help determine the intensity, size and cohesion of the storm. The stronger the storm, the more likely it is to form the central eye. When the eyes look symmetrical, this usually means that the storm won't encounter anything that weakens it.
The Atlantic hurricane season begins on June 1 and lasts until November 30.
In late May, the National Oceanic and Atmospheric Administration, the parent company of the National Weather Administration, predicted that it would be an above-average season with 13 to 19 named “Storms.” In early August, NOAA's revised forecast predicted 18 of the season called Storms and said up to nine could become hurricanes.
Last year, 18 were called “Storms”, and 11 of them turned into hurricanes. Five of these hurricanes became what the Hurricane Center calls “main” or what the so-called categories 3, 4 or 5 on the Safir-Simson scale.
Hurricane Berill was one of two categories of five hurricanes last year, setting a record of the earliest storm development in a season. By comparison, this year is one of the slowest seasons in 20 years.
Like other powerful storms last year, Berill’s rapid intensity is a result of above-average ocean temperatures. However, this year, in major areas where storms usually form, ocean heat content (a measure of ocean thermal energy that can burn storms) averaged slightly below average in June.
Experts believe that a major hurricane may make landfall in the United States this season. Climate experts warn that strong storms like this are more likely to occur and may intensify faster in a warm world.
Last year was also the most expensive hurricane in the United States. Hurricanes Helen and Milton caused about $113 billion in damages and more than 250 deaths. The Trump administration said in May that it will no longer maintain a database of the so-called billion-dollar disaster.
The Trump administration has cut the number of staff at many agencies that have traditionally been responsible for planning and responding to natural disasters, including NOAA, Meteorological Services and the Federal Emergency Administration.
Climate change also affects the amount of rain that storms can produce. In a warm world, the air can retain more moisture, which means designated storms can accommodate and generate more rain, such as what Hurricane Harvey did in Texas in 2017, when certain areas received more than 40 inches of rain in less than 48 hours.
The researchers also found that storms have slowed down over the past few decades, extending in the region for longer periods of time.
Source and Notes
Tracking Map Tracking data comes from the National Hurricane Center. The map shows a probability of at least 5%. Forecasting up to five days, the time range begins at three hours before reporting the time when the storm arrives at its latest location. The wind speed probability data is north of 60.25 degrees north latitude 60.25 degrees.
Strength chart The best tracks and predicted paths are from the National Hurricane Center.
Wind Arrival Table Arrival time was generated based on the New York Times analysis of National Hurricane Center data. Geographically use data from the U.S. Census Bureau and Natural Earth. The time zone is based on Google. The table shows that for some winds, people who may have such winds, predicted continuous, destructive air volume is 58 mph or above. If there is a destructive wind to arrive at the location, then they are no more than 10% chance of reaching before the “earliest reasonable” time, and they will reach a 50% chance of reaching before the “most likely” time.
RIP current diagram RIP current data comes from the National Hurricane Center. The RIP current risk shown is not always associated with active tropical cyclones.
Satellite Map Images are from the National Oceanic and Atmospheric Administration and the Japan Meteorological Administration through the collaborative institute of atmospheric research.
Precipitation map Data on forecast or observed rainfall for multiple days are from the National Weather Service. The 1-day forecast comes from the National Oceanic and Atmospheric Administration.
Note: All bases are built using sunlight (urban areas); natural earth (roads, labels, terrain)