NASA's AIRS Examines Hurricane Matthew's Cloud Top Temperatures
At 11:29 p.m. PDT on Oct. 6 (2:29 a.m. EDT on Oct. 7), NASA's Atmospheric Infrared Sounder (AIRS) instrument on NASA's Aqua satellite produced this false-color infrared image of Matthew as the storm moved up Florida's central coast.
NASA's AIRS Instrument Tracks Transport of Sulfur Dioxide from Chilean Volcanic Eruption (Animation)
This frame from a movie shows alternating day and nighttime views of the plume of sulfur dioxide gas emitted by Calbuco, as observed by NASA's AIRS instrument onbpard NASA's Aqua spacecraft, from April 22 to May 4, 2015.
2013 Yosemite Fire Assessed by NASA Satellite Data
In this image from NASA's Aqua satellite, the red areas seen by the MODIS instrument revealed that live fuel moisture had excessively dried up by more than 50 percent prior to the Rim Fire in August 2013.
NASA Satellite Spots Severe Weather Outbreak in South
NASA's Aqua spacecraft passed over central and southern United States on April 27-29, 2014 capturing this false-color infrared image of the slow-moving low-pressure system that spawned the strong supercell thunderstorms.
Satellite images obtained from NASA's Atmospheric Infrared Sounder (AIRS) instrument aboard NASA's Aqua spacecraft provide a glimpse into one of the most powerful storms ever recorded on Earth, Typhoon Haiyan.
NASA's AIRS Instrument Sees Spread of Pollution from Western Wildfires
This frame from a movie was produced with data from NASA's Aqua spacecraft showing the spread of carbon monoxide pollution across North America from fires in the Western U.S., including the Beaver Creek Fire in Idaho and the Rim Fire in California.
NASA's CloudSat satellite flew over Typhoon Utor in the West Pacific on Aug. 11, 2013 at 0518 UTC, passing within about 6.2 miles (10 kilometers) from the center of the storm, and revealing the structure of the storm's eye and eyewall.
Carbon Dioxide in Earth's Mid-Troposphere, April 2013 Monthly Average
This map created with data from the AIRS on NASA's Aqua satellite shows the concentration of carbon dioxide in Earth's mid-troposphere, located roughly between 3 to 6 miles (5 to 9 kilometers) in altitude.
Zonally Averaged Carbon Dioxide Concentration from Earth's Mid-Troposphere at Different Latitudes, 2002 to 2013
This plot shows the concentration of carbon dioxide in Earth's mid-troposphere at various latitudes as measured by NASA's Aqua satellite. The colored lines represent different latitude bands that circle Earth, called 'zones'.
Concentration of Atmospheric Carbon Dioxide from Earth's Mid-Troposphere, 2002 to 2013
This graph made with data from the AIRS instrument on NASA's Aqua satellite shows the concentration of carbon dioxide in Earth's mid-troposphere, located roughly between 3 to 6 miles (5 to 9 kilometers) in altitude.
Satellites See Double Jeopardy for Socal Fire Season
Extensive and persistent rains between Jan. 24 and Jan. 27, 2013, significantly increased soil moisture and enhanced vegetation growth in Southern California based on data from NASA's Aqua spacecraft and ISRO's Oceansat-2 satellite.
NASA's Aqua Spacecraft Captures Start of West Coast Atmospheric River Event
NASA's Aqua spacecraft captured this infrared image of the first of a series of storms approaching the Pacific Northwest at 2141 UTC (1:41 p.m. PST) on Nov. 28, 2012, marking the beginning of an 'atmospheric river' event.
Early Tuesday, Oct. 30, 2012, Hurricane Sandy continued inland, moving to the northwest over Pennsylvania. Swaths of infrared measurements taken over two orbits of NASA's Aqua satellite by the Atmospheric Infrared Sounder are displayed here.
A Slow-moving Isaac Brings Flooding to Gulf States
Strong tropical storm Isaac continues to create havoc across the Gulf Coast, from eastern Texas to Florida. This infrared image from NASA's Aqua spacecraft, was acquired at 2:41 p.m. CDT on Aug. 29, 2012.
NASA's Aquarius instrument on the Aquarius/SAC-D observatory gives an unprecedented look at a key factor involved in the formation of an oceanic wave feature in the tropical Pacific and Atlantic Oceans that influences global climate patterns.
This infrared image of Hurricane Irene from the AIRS instrument on NASA's Aqua spacecraft, was taken at 2:47 a.m. EDT on Aug. 28. The storm's coldest cloud top temperatures and intense rains are shown in purples and blues.