The satellite's high-resolution imagery provides optimal viewing of severe weather events, including thunderstorms, tropical storms, and hurricanes. According to NOAA’s Hurricane Research Division, every three to five days from late Easy to use weather radar at your fingertips!
On June 16, 2020, the GOES-East satellite captured this GeoColor imagery of an expansive plume of dust from the Sahara Desert traveling westward across the Atlantic Ocean.
The dust is expected to reach the Caribbean later this week, and may even make it to parts of the United States next week.The dry, dusty air associated with the SAL has been known to cause hazy skies over the areas where it blows, as well as The GOES-East geostationary satellite, also known as GOES-16, keeps watch over most of North America, including the continental United States and Mexico, as well as Central and South America, the Caribbean, and the Atlantic Ocean to the west coast of Africa. A plume of Saharan dust from Africa made it all the way to the Texas Gulf Coast early this week, making for hazy skies as well as vivid sunrises and sunsets. Satellite imagery shows the Saharan dust -- the muddy, off-white color -- blanketing the Gulf of Mexico early Thursday morning.An area of higher pressure over the Southeast will allow the Saharan dust layer to move into much of the Gulf Coast region over the next couple of days.Forecast models show a lighter amount of dust moving into the Gulf Coast states on Thursday morning. Most of the dust is staying suspended between 15-20,000+ feet in the atmosphere. US Dept of Commerce National Oceanic and Atmospheric Administration National Weather Service San Juan, PR 4000 Carretera 190 Carolina, PR 00979 787-253-4586 This model combines the forecasted development and movement of the Saharan Air Layer with the GFS precipitation rate and pressure contours to depict the movement of the layer.
As long as the Saharan dust is around, the National Hurricane Center Vertical wind shear is the change of wind speed and direction with height. The Saharan Air Layer (SAL) is an extremely hot, dry and sometimes dust-laden layer of the atmosphere that often overlies the cooler, more-humid surface air of the Atlantic Ocean. "The dust is the visible part of the reduced tropical development potential area," explains Myers.
For a hurricane to form, it needs little to no wind shear and a very moist atmosphere. On June 16, 2020, the GOES-East satellite captured this GeoColor imagery of an expansive plume of dust from the Sahara Desert traveling westward across the Atlantic Ocean.
Your localized Sun & Sand weather forecast, from AccuWeather, provides you with the tailored weather forecast that you need to plan your day's activities The Saharan Air Layer, also known as Saharan Dust, is made of sand, dirt, and other dust that is lifted into the atmosphere from the vast desert area that covers most of North Africa. According to NOAA’s Hurricane Research Division, every three to five days from late This isn’t a storm at all. "While it's normal for Saharan dust to reach the US every hurricane season, this event is unprecedented in thickness and coverage," Mauldin says. "We knew we were going to be in an extraordinary situation. "Usually by the time dust from the Sahara has traveled this far, much of it has been dispersed and/or deposited to the ocean so that typically this long-range transport to the Americas would involve much lower concentrations," Claire Ryder, NERC Independent Research Fellow at the University of Reading, told CNN Weather.The initial dust outbreak was driven by a few smaller storm systems over central and west Africa.
It's one of the most significant Saharan dust events in … This dust is carried in the African Waves which push westward into the Atlantic Ocean.
Please select one of the following: A huge plume of dust and sand, blown by the wind from the Sahara Desert, has finally reached the U.S. mainland.. Sorry, the location you searched for was not found.