While NASA climate scientists were reviewing radiation data emanating from the tropics simply to test existing notions, they uncovered a phenomenon no one expected. They found that progressively more thermal radiation has been escaping the atmosphere above the tropics and progressively less sunlight has been reflecting off of the clouds.
Combining the assets of NASA and the EPA with NOAA's weather information is at the heart of a new NASA project called IDEA: Infusing Satellite Data into Environmental Air Quality Applications. IDEA will improve forecasters' ability to track regional pollution and make air quality forecasts.
International scientists with diverse backgrounds work together to better understand movement of carbon between the Earth's forests and atmosphere.
A new study confirms a long-held theory that large solar storms rain electrically charged particles down on Earth's atmosphere and deplete the upper-level ozone for weeks to months thereafter. New evidence from NASA and NOAA satellites is helping scientists better understand how man and nature both play a role in ozone loss.
The Vulcan Project maps when and where Americans burn fossil fuels.
Aqua carries six state-of-the-art instruments to observe the Earth's oceans, atmosphere, land, ice and snow covers, and vegetation, providing high measurement accuracy, spatial detail, and temporal frequency. This comprehensive approach enables scientists to study interactions among the many elements of the Earth system.
Clouds play a crucial role in regulating the balance of energy received by and emitted from the Earth, but scientists aren?t sure exactly what this role is.
Using satellite observations of sea ice and clouds, scientists discover that Earth’s poles are still effective reflectors for incoming sunlight.
Questions from visitors to the Earth Observatory and answers from scientists.
In early 1991, Mt. Pinatubo, a volcano north of Manila on the Philippine island of Luzon, had been dormant for more than 500 years. Few geologists would have guessed that it would produce one of the world's most explosive eruptions in the twentieth century.
On July 15, 2004 at 3:02 a.m., NASA launched the Aura satellite, the third flagship in a series of Earth-observing satellites designed to view Earth as a whole system, observe the net results of complex interactions within the climate system, and understand how the planet is changing in response to natural and human influences.
Biomass burning is the burning of living and dead vegetation, including both human-initiated burning for land clearing, and burning induced by lightning and other natural sources. Researchers with the Biomass Burning Project at NASA Langley Research Center are seeking to understand the impact that biomass burning has on the Earth's atmosphere and climate.
Recent studies indicate that clouds absorb significantly more shortwave radiation than previously thought.
12 months of high-resolution global true color satellite imagery.
The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO) satellite mission helps scientists answer significant questions about climatic processes by providing new information on clouds and aerosols.
Paradoxically, an increase in global temperature may both increase and decrease atmospheric carbon dioxide. The key is timing.
Clouds are one of the most obvious and influential features of Earth’s climate system. They are also one of its most variable components. The natural diversity and variability of clouds has intrigued and challenged researchers for centuries.
Daniel Rosenfeld and a team of scientists from the Hebrew University of Israel recently discovered that aerosol particles from factories and power plants increase the number of droplets in clouds they pollute. In doing so, the pollutants create brighter clouds that retain their water and do not produce rain.
Ozone has proven to be among the most difficult air pollutants to control. To control ozone requires understanding its complex chemistry and how the chemical travels from one locality to another. Chemistry in the Sunlight explains basic aspects of ozone formation and provides a sample set of chemical reactions involved in ozone production.
When the crew of the Cheyenne set out to break the round-the-world sailing record in March 2004, they would never have guessed what an unusual storm they would meet along the way.
Astronauts onboard the International Space Station capture nighttime photographs of city lights, spectacular evidence of humanity's existence, our distribution, and our ability to change our environment.
The study of clouds, where they occur, and their characteristics, plays a key role in the understanding of climate change. Low, thick clouds reflect solar radiation and cool the Earth's surface. High, thin clouds transmit incoming solar radiation and also trap some of the outgoing infrared radiation emitted by the Earth, warming the surface.
New NASA research shows that smoke from fires in the Amazon Basin inhibits clouds and exerts a warming influence on Earth's surface.
Scientists have detected a nearly invisible cloud layer that may explain dryness in the stratosphere.
In 1998, atmospheric scientists discovered a significant change in cloud vertical structure triggered by the strongest El Niño on record.
By analyzing data from the MISR instrument, scientists discover that a unique type of cloud formation is much more prevalent than previously believed.
Researchers map ozone's global distribution using data from the Global Tropospheric Experiment.