Constantly scanning the Earth’s surface, the GPM Microwave Imager (GMI) allows scientists to both track tropical cyclones and forecast their progression. Used by NOAA’s National Hurricane Center (NHC), the Joint Typhoon Warning Center (JTWC), and tropical cyclone centers in Japan, India, Australia and other countries, detailed microwave information provides data on the location, pattern and intensity of rainfall.
Complimenting the GMI is GPM’s Dual-requency Precipitation Radar (DPR), which turns two dimensional images into 3D by providing data on vertical rainfall structure. Scientists use DPR data to verify their tropical cyclone computer models. With the Ku-band and Ka-band, the DPR also measures light rainfall and falling snow, which account for a significant fraction of precipitation especially in middle and high latitudes. They also use the data to understand the distribution and movement of latent heat throughout the storm, particularly in the development of hot towers in the wall of clouds around the eye, which have been linked to rapid intensification. Together, GPM’s GMI and DPR data help scientists establish key characteristics of where, how and why rain falls in tropical cyclones as well as to better understand storm structure, intensity and the environmental conditions that cause them.
The GPM Mission observes tropical cyclone tracking and forecasting capabilities into the middle and high latitudes, covering the area from 65° S to 65°N — from about the Antarctic Circle to the Arctic Circle. This orbit provides new insight into how and why some tropical cyclones intensify and others weaken as they move from tropical to mid-latitude systems. The sensors onboard other satellites within the GPM constellation along with GPM Core Observatory sensors provide the detailed and global observations needed to estimate, monitor and forecast extreme rainfall that may trigger natural hazards, such as flooding or landslides.
TRMM Satellite image of Tropical Cyclone Yasi on February 1st to 3rd, 2011 (left to right) as it made landfall over Queensland, Australia. TRMM’s PR and TMI instruments observed Cyclone Yasi as it developed from a Category 3 tropical cyclone on Feb. 1st (left), to a Category 5 event when it made landfall with wind gusts reported at up to 186 mph on Feb. 2nd (middle), and then finally as it began to dissipate on Feb. 3rd (right).
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At 1 PM EDT (1700 UTC) on September 5, 2017, the radar on the Global Precipitation Measuring Mission (GPM) satellite captured this 3D view of the heat engine inside of category-5 Hurricane Irma. Under the central ring of clouds that circles the eye, water that had evaporated from the ocean surface condenses, releases heat, and powers the circling winds of the hurricane. The radar on the GPM satellite is able to estimate how much water is falling as precipitation inside of the hurricane, which serves as a guide to how much energy is being released inside the hurricane's central "heat...
The Global Precipitation Measurement (GPM) Core Observatory captured these images of Hurricane Harvey at 11:45 UTC and 21:25 UTC on the 27th of August nearly two days after the storm made landfall as it was meandering slowly southeast at just 2 mph (~4 kph) near Victoria, Texas west of Houston. The image shows rain rates derived from GPM's GMI microwave imager (outer swath) and dual-frequency precipitation radar or DPR (inner swath) overlaid on enhanced visible/infrared data from the GOES-East satellite. Harvey's cyclonic circulation is still quite evident in the visible/infrared clouds, but...
NASA researchers now can use a combination of satellite observations to re-create multi-dimensional pictures of hurricanes and other major storms in order to study complex atmospheric interactions. In this video, they applied those techniques to Hurricane Matthew. When it occurred in the fall of 2016, Matthew was the first Category 5 Atlantic hurricane in almost ten years. Its torrential rains and winds caused significant damage and loss of life as it coursed through the Caribbean and up along the southern U.S. coast. Music: "Buoys," Donn Wilkerson, Killer Tracks; "Late Night Drive," Donn...
Tropical cyclone Debbie formed in the Coral Sea northeast of Australia om March 24, 2017. Debbie intensified and had hurricane force wind speeds within a day of formation. While headed toward northeastern Australia Debbie reached it's maximum sustained wind speeds estimated at over 100 kts (115 mph) on March 27, 2017 (UTC). Tropical cyclone Debbie came ashore on March 28th and brought destructive winds and extremely heavy rain to northeastern Australia. It was reported that heavy rainfall caused flash flooding that cut off a coastal town and covered several roads in Queensland.
UPDATE 10/6/16: NASA's Global Precipitation Measurement mission or GPM core observatory satellite flew over Hurricane Matthew several times as the category 4 storm headed toward Florida. The GPM Core Observatory carries two instruments that show the location and intensity of rain and snow, which defines a crucial part of the storm structure – and how it will behave. The GPM Microwave Imager sees through the tops of clouds to observe how much and where precipitation occurs, and the Dual-frequency Precipitation Radar observes precise details of precipitation in 3-dimensions.