|
|
Antarctic Ozone from TOMS: A
…
| Title |
Antarctic Ozone from TOMS: August 15, 2002, to September 29, 2002 |
| Abstract |
Scientists from NASA and the National Oceanic and Atmospheric Administration (NOAA) have confirmed the ozone hole over the Antarctic this September is not only much smaller than it was in 2000 and 2001, but has split into two separate "holes" |
| Completed |
2002-09-26 |
|
Antarctic Ozone from TOMS: A
…
| Title |
Antarctic Ozone from TOMS: August 15, 2002, to September 29, 2002 |
| Abstract |
Scientists from NASA and the National Oceanic and Atmospheric Administration (NOAA) have confirmed the ozone hole over the Antarctic this September is not only much smaller than it was in 2000 and 2001, but has split into two separate "holes" |
| Completed |
2002-09-26 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
China Dust Storm seen by Ear
…
| Title |
China Dust Storm seen by Earth Probe/TOMS in April of 2001 |
| Abstract |
A thick shroud of dust appears over China on April 6 and 7, 2001. The densest portion of the aerosol pollution travels east over China, Russia, Japan, the Pacific Ocean, Canada, and the United States. |
| Completed |
2003-12-01 |
|
Arctic Ozone from TOMS: Sept
…
| Title |
Arctic Ozone from TOMS: September 1, 1999 through November 30, 1999 |
| Completed |
1999-12-28 |
|
Aerosols from Earth Probe TO
…
| Title |
Aerosols from Earth Probe TOMS: Still of U.S. and Mexico taken at 5/9/98 |
| Completed |
1998-12-07 |
|
Aerosols from Earth Probe TO
…
| Title |
Aerosols from Earth Probe TOMS: Still of U.S. and Mexico taken at 5/14/98 |
| Completed |
1998-12-07 |
|
TOMS Ozone Holds Key to Ozon
…
| Title |
TOMS Ozone Holds Key to Ozone Trends |
| Abstract |
Chemicals and transport process have led to changes in the stratospheric ozone. Scientists need measurments of many different chemical species to puzzle out the observed changes. Aura data will improve our capability to predict ozone changes and help untangle the roles of transport and chemistry in determining ozone trends. This sequence starts with the actual size of our thin fragile part of our atmosphere that carries ozone. Then, the atmosphere is magnified. Inside, is a dynamic and active system of chemicals that moves ozone throughout our atmosphere. |
| Completed |
2004-05-13 |
|
TOMS Ozone Holds Key to Ozon
…
| Title |
TOMS Ozone Holds Key to Ozone Trends |
| Abstract |
Chemicals and transport process have led to changes in the stratospheric ozone. Scientists need measurments of many different chemical species to puzzle out the observed changes. Aura data will improve our capability to predict ozone changes and help untangle the roles of transport and chemistry in determining ozone trends. This sequence starts with the actual size of our thin fragile part of our atmosphere that carries ozone. Then, the atmosphere is magnified. Inside, is a dynamic and active system of chemicals that moves ozone throughout our atmosphere. |
| Completed |
2004-05-13 |
|
TOMS Ozone Holds Key to Ozon
…
| Title |
TOMS Ozone Holds Key to Ozone Trends |
| Abstract |
Chemicals and transport process have led to changes in the stratospheric ozone. Scientists need measurments of many different chemical species to puzzle out the observed changes. Aura data will improve our capability to predict ozone changes and help untangle the roles of transport and chemistry in determining ozone trends. This sequence starts with the actual size of our thin fragile part of our atmosphere that carries ozone. Then, the atmosphere is magnified. Inside, is a dynamic and active system of chemicals that moves ozone throughout our atmosphere. |
| Completed |
2004-05-13 |
|
TOMS Ozone Holds Key to Ozon
…
| Title |
TOMS Ozone Holds Key to Ozone Trends |
| Abstract |
Chemicals and transport process have led to changes in the stratospheric ozone. Scientists need measurments of many different chemical species to puzzle out the observed changes. Aura data will improve our capability to predict ozone changes and help untangle the roles of transport and chemistry in determining ozone trends. This sequence starts with the actual size of our thin fragile part of our atmosphere that carries ozone. Then, the atmosphere is magnified. Inside, is a dynamic and active system of chemicals that moves ozone throughout our atmosphere. |
| Completed |
2004-05-13 |
|
Aerosols from Nimbus TOMS: G
…
| Title |
Aerosols from Nimbus TOMS: Global 1979 - 1992 Oct 1-15 Averages |
| Completed |
1998-12-07 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
California Fires MODIS image
…
| Title |
California Fires MODIS imagery and TOMS Aerosols from October 2003 |
| Abstract |
This animation sequences through the MODIS imagery of the devastating Californian fires from October 23, 2003 through October 29, 2003. Then the animation resets to October 23, 2003 and zooms out to see the TOMS aerosol sequence. It clearly shows that the California fires had an impact on air quality as far east as Maine. |
| Completed |
2003-11-24 |
|
TOMS Ozone at the South Pole
…
| Title |
TOMS Ozone at the South Pole: October Averages from 1979 through 2000 |
| Abstract |
The year 2000's Antarctic ozone hole is the largest ever observed. Scientists continue to investigate the phenomenon, and are somewhat surprised by its scale. Using data from NASA's Total Ozone Mapping Spectrometer (TOMS) instrument onboard the Earth Probe satellite, researchers can evaluate and compare current conditions over the south pole to readings taken by other instruments in years past. Continued monitoring of polar ozone levels helps researchers gain a better understanding of how the planet's climate may be changing. The following animation shows how ozone loss at the south pole has grown since the mid-80s. Early readings over Antarctica indicate little or no ozone depletion beyond naturally predicted levels. But as the 80s and 90s progress, a clear change in atmospheric chemistry takes place at the bottom of the world. The hole starts small in the late 80s and spreads as subsequent winter cycles break apart ozone molecules. |
| Completed |
2000-10-03 |
|
TOMS Ozone at the South Pole
…
| Title |
TOMS Ozone at the South Pole: October Averages from 1979 through 2000 |
| Abstract |
The year 2000's Antarctic ozone hole is the largest ever observed. Scientists continue to investigate the phenomenon, and are somewhat surprised by its scale. Using data from NASA's Total Ozone Mapping Spectrometer (TOMS) instrument onboard the Earth Probe satellite, researchers can evaluate and compare current conditions over the south pole to readings taken by other instruments in years past. Continued monitoring of polar ozone levels helps researchers gain a better understanding of how the planet's climate may be changing. The following animation shows how ozone loss at the south pole has grown since the mid-80s. Early readings over Antarctica indicate little or no ozone depletion beyond naturally predicted levels. But as the 80s and 90s progress, a clear change in atmospheric chemistry takes place at the bottom of the world. The hole starts small in the late 80s and spreads as subsequent winter cycles break apart ozone molecules. |
| Completed |
2000-10-03 |
|
TOMS Ozone at the South Pole
…
| Title |
TOMS Ozone at the South Pole: October Averages from 1979 through 2000 |
| Abstract |
The year 2000's Antarctic ozone hole is the largest ever observed. Scientists continue to investigate the phenomenon, and are somewhat surprised by its scale. Using data from NASA's Total Ozone Mapping Spectrometer (TOMS) instrument onboard the Earth Probe satellite, researchers can evaluate and compare current conditions over the south pole to readings taken by other instruments in years past. Continued monitoring of polar ozone levels helps researchers gain a better understanding of how the planet's climate may be changing. The following animation shows how ozone loss at the south pole has grown since the mid-80s. Early readings over Antarctica indicate little or no ozone depletion beyond naturally predicted levels. But as the 80s and 90s progress, a clear change in atmospheric chemistry takes place at the bottom of the world. The hole starts small in the late 80s and spreads as subsequent winter cycles break apart ozone molecules. |
| Completed |
2000-10-03 |
|
TOMS Ozone at the South Pole
…
| Title |
TOMS Ozone at the South Pole: October Averages from 1979 through 2000 |
| Abstract |
The year 2000's Antarctic ozone hole is the largest ever observed. Scientists continue to investigate the phenomenon, and are somewhat surprised by its scale. Using data from NASA's Total Ozone Mapping Spectrometer (TOMS) instrument onboard the Earth Probe satellite, researchers can evaluate and compare current conditions over the south pole to readings taken by other instruments in years past. Continued monitoring of polar ozone levels helps researchers gain a better understanding of how the planet's climate may be changing. The following animation shows how ozone loss at the south pole has grown since the mid-80s. Early readings over Antarctica indicate little or no ozone depletion beyond naturally predicted levels. But as the 80s and 90s progress, a clear change in atmospheric chemistry takes place at the bottom of the world. The hole starts small in the late 80s and spreads as subsequent winter cycles break apart ozone molecules. |
| Completed |
2000-10-03 |
|
TOMS Ozone at the South Pole
…
| Title |
TOMS Ozone at the South Pole: October Averages from 1979 through 2000 |
| Abstract |
The year 2000's Antarctic ozone hole is the largest ever observed. Scientists continue to investigate the phenomenon, and are somewhat surprised by its scale. Using data from NASA's Total Ozone Mapping Spectrometer (TOMS) instrument onboard the Earth Probe satellite, researchers can evaluate and compare current conditions over the south pole to readings taken by other instruments in years past. Continued monitoring of polar ozone levels helps researchers gain a better understanding of how the planet's climate may be changing. The following animation shows how ozone loss at the south pole has grown since the mid-80s. Early readings over Antarctica indicate little or no ozone depletion beyond naturally predicted levels. But as the 80s and 90s progress, a clear change in atmospheric chemistry takes place at the bottom of the world. The hole starts small in the late 80s and spreads as subsequent winter cycles break apart ozone molecules. |
| Completed |
2000-10-03 |
|
TOMS Ozone at the South Pole
…
| Title |
TOMS Ozone at the South Pole: October Averages from 1979 through 2000 |
| Abstract |
The year 2000's Antarctic ozone hole is the largest ever observed. Scientists continue to investigate the phenomenon, and are somewhat surprised by its scale. Using data from NASA's Total Ozone Mapping Spectrometer (TOMS) instrument onboard the Earth Probe satellite, researchers can evaluate and compare current conditions over the south pole to readings taken by other instruments in years past. Continued monitoring of polar ozone levels helps researchers gain a better understanding of how the planet's climate may be changing. The following animation shows how ozone loss at the south pole has grown since the mid-80s. Early readings over Antarctica indicate little or no ozone depletion beyond naturally predicted levels. But as the 80s and 90s progress, a clear change in atmospheric chemistry takes place at the bottom of the world. The hole starts small in the late 80s and spreads as subsequent winter cycles break apart ozone molecules. |
| Completed |
2000-10-03 |
|
|
