The old adage that everyone complains about the weather, but no one does anything about it may soon fall by the wayside, thanks to the quality of data from NASA's new "thermometer in the sky" -- a suite of three advanced weather instruments aboard the Aqua spacecraft.
First images from the Atmospheric Infrared Sounder spectrometer and its two companion instruments, the Advanced Microwave Sounding Unit and the Humidity Sounder for Brazil, are exceeding the expectations of the world meteorological community. The results, project scientists say, will be substantially improved short-term weather-prediction accuracy and tracking of severe weather events like hurricanes, as well as advances in climate research.
"The three sounding instruments of the Atmospheric Infrared Sounder experiment system will comprehensively capture a continuous, detailed picture of Earth's atmosphere for use in global weather prediction and climate studies," said Dr. Moustafa Chahine, experiment science-team leader at NASA's Jet Propulsion Laboratory, Pasadena, Calif. "The instruments are in excellent health and are ready to serve NASA, the National Oceanic and Atmospheric Administration -- or NOAA, and the broader climate research community."
The first-light images may be found at:
The sounding-package experiment, with its visible, infrared and microwave detectors, provides a three-dimensional look at Earth's weather. Working in tandem, the three instruments can make simultaneous observations from space all the way to the Earth's surface, even in the presence of heavy clouds. With more than 2,000 channels sensing different regions of the atmosphere, the system creates a global, 3-D map of atmospheric temperature and humidity and provides information on clouds, greenhouse gases and many other atmospheric phenomena.
Chahine said the key to increasing the useful range of weather forecasts from the current two-to-three days to five days is to observe today's weather with much higher accuracy.
"The accuracy of computer models is dependent upon the quality of today's weather information," he said. "Our experiment will effectively multiply by 100 our existing global armada of 4,000 weather balloons, giving us global coverage over land and sea from space with the same data quality as ground-launched balloons. This additional data will dramatically reduce errors that have traditionally limited the range of current weather forecast models."
Claire Parkinson, Aqua project scientist at NASA's Goddard Space Flight Center, Greenbelt, Md., said the impact on world commerce from improved weather and climate prediction may be enormous. "From the data measured by these three instruments, we can better understand the global water cycle and its implications for managing fresh water resources. Improved temperature predictions will help commerce move merchandise and fuel where needed to meet cold- or warm-weather demands. Other industries that are strongly dependent on weather will also benefit, including aviation, transportation and agriculture."
The experiment recently completed calibration and is now transmitting continuous, uninterrupted data to the project science team and NOAA. Instrument validation will continue through next June, as NOAA evaluates the new data set, learns how to integrate it and gains confidence in its accuracy.
Following instrument validation, the data will be integrated into existing weather prediction models by NOAA's National Centers for Environmental Prediction and six of the world's leading weather-prediction centers. The data will also will be distributed to the World Meteorological Organization in Switzerland, where it will be made available to 105 countries.
Aqua's planned six-year mission will collect data from the six instruments aboard on global temperature variations, cycling of water, global precipitation, evaporation, changes in ocean circulation and how clouds and surface-water processes affect climate. The information will help scientists better understand how global ecosystems change and how they respond to and affect global environmental change.
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