|
|
Snow Covers Northeastern Uni
…
| Title |
Snow Covers Northeastern United States on February 20, 2003 |
| Abstract |
Snow cover left from a storm front that came through from February 16 to February 17, 2003. |
| Completed |
2003-02-21 |
|
Snow Covers Northeastern Uni
…
| Title |
Snow Covers Northeastern United States on February 20, 2003 |
| Abstract |
Snow cover left from a storm front that came through from February 16 to February 17, 2003. |
| Completed |
2003-02-21 |
|
Snow Covers Northeastern Uni
…
| Title |
Snow Covers Northeastern United States on February 20, 2003 |
| Abstract |
Snow cover left from a storm front that came through from February 16 to February 17, 2003. |
| Completed |
2003-02-21 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier has gradually receded, finally coming to rest at a certain point for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of and extension to animation ID #3374. In this version, a pause is added on the approach to the Jakobshavn glacier in order to highlight the meltwater lakes visible on the Greenland ice sheet. In addition, semi-transparent overlays and text indicate different regions of the glacier before the calving lines are shown. After the calving front retreat, an additional segment shows a zoom to a global view. During the pull out, historic calving front locations are shown followed by a color overlay showing regions of increase and decrease in the Greenland ice sheet. |
| Completed |
2007-07-20 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier has gradually receded, finally coming to rest at a certain point for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of and extension to animation ID #3374. In this version, a pause is added on the approach to the Jakobshavn glacier in order to highlight the meltwater lakes visible on the Greenland ice sheet. In addition, semi-transparent overlays and text indicate different regions of the glacier before the calving lines are shown. After the calving front retreat, an additional segment shows a zoom to a global view. During the pull out, historic calving front locations are shown followed by a color overlay showing regions of increase and decrease in the Greenland ice sheet. |
| Completed |
2007-07-20 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier has gradually receded, finally coming to rest at a certain point for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of and extension to animation ID #3374. In this version, a pause is added on the approach to the Jakobshavn glacier in order to highlight the meltwater lakes visible on the Greenland ice sheet. In addition, semi-transparent overlays and text indicate different regions of the glacier before the calving lines are shown. After the calving front retreat, an additional segment shows a zoom to a global view. During the pull out, historic calving front locations are shown followed by a color overlay showing regions of increase and decrease in the Greenland ice sheet. |
| Completed |
2007-07-20 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier has gradually receded, finally coming to rest at a certain point for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of and extension to animation ID #3374. In this version, a pause is added on the approach to the Jakobshavn glacier in order to highlight the meltwater lakes visible on the Greenland ice sheet. In addition, semi-transparent overlays and text indicate different regions of the glacier before the calving lines are shown. After the calving front retreat, an additional segment shows a zoom to a global view. During the pull out, historic calving front locations are shown followed by a color overlay showing regions of increase and decrease in the Greenland ice sheet. |
| Completed |
2007-07-20 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier has gradually receded, finally coming to rest at a certain point for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of and extension to animation ID #3374. In this version, a pause is added on the approach to the Jakobshavn glacier in order to highlight the meltwater lakes visible on the Greenland ice sheet. In addition, semi-transparent overlays and text indicate different regions of the glacier before the calving lines are shown. After the calving front retreat, an additional segment shows a zoom to a global view. During the pull out, historic calving front locations are shown followed by a color overlay showing regions of increase and decrease in the Greenland ice sheet. |
| Completed |
2007-07-20 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier has gradually receded, finally coming to rest at a certain point for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of and extension to animation ID #3374. In this version, a pause is added on the approach to the Jakobshavn glacier in order to highlight the meltwater lakes visible on the Greenland ice sheet. In addition, semi-transparent overlays and text indicate different regions of the glacier before the calving lines are shown. After the calving front retreat, an additional segment shows a zoom to a global view. During the pull out, historic calving front locations are shown followed by a color overlay showing regions of increase and decrease in the Greenland ice sheet. |
| Completed |
2007-07-20 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier has gradually receded, finally coming to rest at a certain point for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of and extension to animation ID #3374. In this version, a pause is added on the approach to the Jakobshavn glacier in order to highlight the meltwater lakes visible on the Greenland ice sheet. In addition, semi-transparent overlays and text indicate different regions of the glacier before the calving lines are shown. After the calving front retreat, an additional segment shows a zoom to a global view. During the pull out, historic calving front locations are shown followed by a color overlay showing regions of increase and decrease in the Greenland ice sheet. |
| Completed |
2007-07-20 |
|
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 |
|
Hurricane Charley Progressio
…
| Title |
Hurricane Charley Progression |
| Abstract |
SeaWiFS tracks Hurricane Charley from August 9, 2004 to August 15, 2004. This animation zooms down to the Caribbean Sea where Hurricane Charley was first classified as a Tropical Depression. It ends in the Gulf of Maine where it lost its status as a Tropical Depression. It shows the SeaWiFS image from each day with the track of the eye of the storm overlaid on top of each image. Green denotes Tropical Depression status. Gold denotes Tropical Storm status. Red is Hurricane 1 on the Saffir Simpson scale. Orange is Hurricane 3 on the Saffir Simpson scale. Purple is Hurricane 4 on the Saffir Simpson scale. |
| Completed |
2004-09-02 |
|
Hurricane Charley Progressio
…
| Title |
Hurricane Charley Progression |
| Abstract |
SeaWiFS tracks Hurricane Charley from August 9, 2004 to August 15, 2004. This animation zooms down to the Caribbean Sea where Hurricane Charley was first classified as a Tropical Depression. It ends in the Gulf of Maine where it lost its status as a Tropical Depression. It shows the SeaWiFS image from each day with the track of the eye of the storm overlaid on top of each image. Green denotes Tropical Depression status. Gold denotes Tropical Storm status. Red is Hurricane 1 on the Saffir Simpson scale. Orange is Hurricane 3 on the Saffir Simpson scale. Purple is Hurricane 4 on the Saffir Simpson scale. |
| Completed |
2004-09-02 |
|
Hurricane Charley Progressio
…
| Title |
Hurricane Charley Progression |
| Abstract |
SeaWiFS tracks Hurricane Charley from August 9, 2004 to August 15, 2004. This animation zooms down to the Caribbean Sea where Hurricane Charley was first classified as a Tropical Depression. It ends in the Gulf of Maine where it lost its status as a Tropical Depression. It shows the SeaWiFS image from each day with the track of the eye of the storm overlaid on top of each image. Green denotes Tropical Depression status. Gold denotes Tropical Storm status. Red is Hurricane 1 on the Saffir Simpson scale. Orange is Hurricane 3 on the Saffir Simpson scale. Purple is Hurricane 4 on the Saffir Simpson scale. |
| Completed |
2004-09-02 |
|
Hurricane Charley Progressio
…
| Title |
Hurricane Charley Progression |
| Abstract |
SeaWiFS tracks Hurricane Charley from August 9, 2004 to August 15, 2004. This animation zooms down to the Caribbean Sea where Hurricane Charley was first classified as a Tropical Depression. It ends in the Gulf of Maine where it lost its status as a Tropical Depression. It shows the SeaWiFS image from each day with the track of the eye of the storm overlaid on top of each image. Green denotes Tropical Depression status. Gold denotes Tropical Storm status. Red is Hurricane 1 on the Saffir Simpson scale. Orange is Hurricane 3 on the Saffir Simpson scale. Purple is Hurricane 4 on the Saffir Simpson scale. |
| Completed |
2004-09-02 |
|
Hurricane Charley Progressio
…
| Title |
Hurricane Charley Progression |
| Abstract |
SeaWiFS tracks Hurricane Charley from August 9, 2004 to August 15, 2004. This animation zooms down to the Caribbean Sea where Hurricane Charley was first classified as a Tropical Depression. It ends in the Gulf of Maine where it lost its status as a Tropical Depression. It shows the SeaWiFS image from each day with the track of the eye of the storm overlaid on top of each image. Green denotes Tropical Depression status. Gold denotes Tropical Storm status. Red is Hurricane 1 on the Saffir Simpson scale. Orange is Hurricane 3 on the Saffir Simpson scale. Purple is Hurricane 4 on the Saffir Simpson scale. |
| Completed |
2004-09-02 |
|
Hurricane Charley Progressio
…
| Title |
Hurricane Charley Progression |
| Abstract |
SeaWiFS tracks Hurricane Charley from August 9, 2004 to August 15, 2004. This animation zooms down to the Caribbean Sea where Hurricane Charley was first classified as a Tropical Depression. It ends in the Gulf of Maine where it lost its status as a Tropical Depression. It shows the SeaWiFS image from each day with the track of the eye of the storm overlaid on top of each image. Green denotes Tropical Depression status. Gold denotes Tropical Storm status. Red is Hurricane 1 on the Saffir Simpson scale. Orange is Hurricane 3 on the Saffir Simpson scale. Purple is Hurricane 4 on the Saffir Simpson scale. |
| Completed |
2004-09-02 |
|
Hurricane Charley Progressio
…
| Title |
Hurricane Charley Progression |
| Abstract |
SeaWiFS tracks Hurricane Charley from August 9, 2004 to August 15, 2004. This animation zooms down to the Caribbean Sea where Hurricane Charley was first classified as a Tropical Depression. It ends in the Gulf of Maine where it lost its status as a Tropical Depression. It shows the SeaWiFS image from each day with the track of the eye of the storm overlaid on top of each image. Green denotes Tropical Depression status. Gold denotes Tropical Storm status. Red is Hurricane 1 on the Saffir Simpson scale. Orange is Hurricane 3 on the Saffir Simpson scale. Purple is Hurricane 4 on the Saffir Simpson scale. |
| Completed |
2004-09-02 |
|
Hurricane Charley Progressio
…
| Title |
Hurricane Charley Progression |
| Abstract |
SeaWiFS tracks Hurricane Charley from August 9, 2004 to August 15, 2004. This animation zooms down to the Caribbean Sea where Hurricane Charley was first classified as a Tropical Depression. It ends in the Gulf of Maine where it lost its status as a Tropical Depression. It shows the SeaWiFS image from each day with the track of the eye of the storm overlaid on top of each image. Green denotes Tropical Depression status. Gold denotes Tropical Storm status. Red is Hurricane 1 on the Saffir Simpson scale. Orange is Hurricane 3 on the Saffir Simpson scale. Purple is Hurricane 4 on the Saffir Simpson scale. |
| Completed |
2004-09-02 |
|
Seasonal Landcover Change ov
…
| Title |
Seasonal Landcover Change over the Eastern United States |
| Abstract |
The Blue Marble Next Generation dataset provides a monthly global cloud-free true-color picture of the Earth's landcover at a 500-meter spatial resolution. This visualization of the dataset shows seasonal variations such as snowfall, spring greening and droughts in a seamless fashion, thereby heightening awareness of changes in the Earth's climate. Here we focus on the seasonal landcover changes over the Eastern United States. This dataset is derived from imagery taken in 2004 by the MODIS instrument on the Terra satellite. |
| Completed |
2005-10-07 |
|
Seasonal Landcover Change ov
…
| Title |
Seasonal Landcover Change over the Eastern United States |
| Abstract |
The Blue Marble Next Generation dataset provides a monthly global cloud-free true-color picture of the Earth's landcover at a 500-meter spatial resolution. This visualization of the dataset shows seasonal variations such as snowfall, spring greening and droughts in a seamless fashion, thereby heightening awareness of changes in the Earth's climate. Here we focus on the seasonal landcover changes over the Eastern United States. This dataset is derived from imagery taken in 2004 by the MODIS instrument on the Terra satellite. |
| Completed |
2005-10-07 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 with Blue/White Elevation Change over Greenland |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier gradually receded until about 1950, where it remained stable for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of, and extension to, animation IDs #3374 and #3434. In this version, the pause on the approach to the Jakobshavn glacier where the meltwater lakes on the Greenland ice sheet are visible is shortened. In addition, the colors showing regions of elevation increase and decrease over the Greenland ice sheet are modified. |
| Completed |
2007-09-27 |
|
Updated Jakobshavn Glacier C
…
| Title |
Updated Jakobshavn Glacier Calving Front Retreat from 2001 through 2006 with Blue/White Elevation Change over Greenland |
| Abstract |
Since measurements of Jakobshavn Isbrae were first taken in 1850, the glacier gradually receded until about 1950, where it remained stable for the past 5 decades. However, from 1997 to 2006, the glacier has begun to recede again, this time almost doubling in speed. The finding is important for many reasons. As more ice moves from glaciers on land into the ocean, ocean sea levels raise. Jakobshavn Isbrae is Greenland's largest outlet glacier, draining 6.5 percent of Greenland's ice sheet area. The ice stream's speed-up and near-doubling of ice flow from land into the ocean has increased the rate of sea level rise by about .06 millimeters (about .002 inches) per year, or roughly 4 percent of the 20th century rate of sea level increase. This animation shows the glacier's flow in 2000, along with changes in the glacier's calving front between 2001 and 2006. This animation is an update of, and extension to, animation IDs #3374 and #3434. In this version, the pause on the approach to the Jakobshavn glacier where the meltwater lakes on the Greenland ice sheet are visible is shortened. In addition, the colors showing regions of elevation increase and decrease over the Greenland ice sheet are modified. |
| Completed |
2007-09-27 |
|
China Dust Storm Pollutes Ai
…
| Title |
China Dust Storm Pollutes Air in the Eastern United States in April 2001 (Flatmap) |
| Abstract |
A large dust storm develops over China on April 6 and 7, 2001. This animation shows the dust moving over China, Russia, Japan, the Pacific Ocean, and Canada, settling over the United States. |
| Completed |
2004-06-10 |
|
China Dust Storm Pollutes Ai
…
| Title |
China Dust Storm Pollutes Air in the Eastern United States in April 2001 (Flatmap) |
| Abstract |
A large dust storm develops over China on April 6 and 7, 2001. This animation shows the dust moving over China, Russia, Japan, the Pacific Ocean, and Canada, settling over the United States. |
| Completed |
2004-06-10 |
|
North America Flyover
| Title |
North America Flyover |
| Abstract |
One of a series of global flyovers done for the Learning Channel. |
| Completed |
1998-05-16 |
|
Acadia Flyby
| Title |
Acadia Flyby |
| Abstract |
This animation is of Acadia National Park in Maine. This animation was done as part of a series of animations to show Landsat's view of our National Parks. |
| Completed |
1999-08-14 |
|
US Tour with SeaWiFS data fr
…
| Title |
US Tour with SeaWiFS data from April 12, 1998 |
| Abstract |
Flying around the United States. Starting at the Gulf of Mexico, we move up the Mississippi River, around the Great Lakes, over to Maine, down the Eastern Seaboard, ending with Florida. Data was collected on April 12, 1998. |
| Completed |
1998-11-30 |
|
International Ice Patrol's 2
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| Title |
International Ice Patrol's 2003 Seasonal Iceberg Data |
| Abstract |
The International Ice Patrol (IIP) continuously gathers iceberg sightings and compiles them into an annual database, effectively tracking the location of numerous North Atlantic icebergs. Since these icebergs intersect major shipping lanes tracking them is essential for ocean travel safety. This animation not only tracks the speed and distance travelled of individual icebergs, but symbolically distinguishes their relative sizes by keeping growlers, bergy bits, and small icebergs small, while bigger icebergs are sized larger. Disclaimer: The size of icebergs depicted are relative to one another, but not true to scale. Had they been true to scale, most would not be visible from this distance. |
| Completed |
2004-05-19 |
|
International Ice Patrol's 2
…
| Title |
International Ice Patrol's 2003 Seasonal Iceberg Data |
| Abstract |
The International Ice Patrol (IIP) continuously gathers iceberg sightings and compiles them into an annual database, effectively tracking the location of numerous North Atlantic icebergs. Since these icebergs intersect major shipping lanes tracking them is essential for ocean travel safety. This animation not only tracks the speed and distance travelled of individual icebergs, but symbolically distinguishes their relative sizes by keeping growlers, bergy bits, and small icebergs small, while bigger icebergs are sized larger. Disclaimer: The size of icebergs depicted are relative to one another, but not true to scale. Had they been true to scale, most would not be visible from this distance. |
| Completed |
2004-05-19 |
|
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