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Aqua of Goddard Space Flight Center (GSFC) from 2003
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Montana and Alberta (Canada)
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| Title |
Montana and Alberta (Canada) fires - July 29, 2003 |
| Abstract |
Push-in to the fires in Montana (US) and Alberta (Canada). |
| Completed |
2003-07-30 |
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Montana and Alberta (Canada)
…
| Title |
Montana and Alberta (Canada) fires - July 29, 2003 |
| Abstract |
Push-in to the fires in Montana (US) and Alberta (Canada). |
| Completed |
2003-07-30 |
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Montana and Alberta (Canada)
…
| Title |
Montana and Alberta (Canada) fires - July 29, 2003 |
| Abstract |
Push-in to the fires in Montana (US) and Alberta (Canada). |
| Completed |
2003-07-30 |
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Washington Fawn Peak Complex
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| Title |
Washington Fawn Peak Complex Fire - July 29, 2003 |
| Abstract |
Push-in to the Fawn Peak Complex fire in Washington. |
| Completed |
2003-07-30 |
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Washington Fawn Peak Complex
…
| Title |
Washington Fawn Peak Complex Fire - July 29, 2003 |
| Abstract |
Push-in to the Fawn Peak Complex fire in Washington. |
| Completed |
2003-07-30 |
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Washington Fawn Peak Complex
…
| Title |
Washington Fawn Peak Complex Fire - July 29, 2003 |
| Abstract |
Push-in to the Fawn Peak Complex fire in Washington. |
| Completed |
2003-07-30 |
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Aspen Fire, Arizona
| Title |
Aspen Fire, Arizona |
| Abstract |
Images from NASA's Terra and Aqua satellites have become a regular part of the National Interagency Fire Center's firefighting toolkit. The images help the center track fires on a daily basis and are used in allocating precious firefighting resources. |
| Completed |
2003-07-03 |
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Aspen Fire, Arizona
| Title |
Aspen Fire, Arizona |
| Abstract |
Images from NASA's Terra and Aqua satellites have become a regular part of the National Interagency Fire Center's firefighting toolkit. The images help the center track fires on a daily basis and are used in allocating precious firefighting resources. |
| Completed |
2003-07-03 |
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Aspen Fire, Arizona
| Title |
Aspen Fire, Arizona |
| Abstract |
Images from NASA's Terra and Aqua satellites have become a regular part of the National Interagency Fire Center's firefighting toolkit. The images help the center track fires on a daily basis and are used in allocating precious firefighting resources. |
| Completed |
2003-07-03 |
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Aspen Fire, Arizona
| Title |
Aspen Fire, Arizona |
| Abstract |
Images from NASA's Terra and Aqua satellites have become a regular part of the National Interagency Fire Center's firefighting toolkit. The images help the center track fires on a daily basis and are used in allocating precious firefighting resources. |
| Completed |
2003-07-03 |
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Aspen Fire, Arizona
| Title |
Aspen Fire, Arizona |
| Abstract |
Images from NASA's Terra and Aqua satellites have become a regular part of the National Interagency Fire Center's firefighting toolkit. The images help the center track fires on a daily basis and are used in allocating precious firefighting resources. |
| Completed |
2003-07-03 |
|
Aspen Fire, Arizona
| Title |
Aspen Fire, Arizona |
| Abstract |
Images from NASA's Terra and Aqua satellites have become a regular part of the National Interagency Fire Center's firefighting toolkit. The images help the center track fires on a daily basis and are used in allocating precious firefighting resources. |
| Completed |
2003-07-03 |
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Aspen Fire, Arizona
| Title |
Aspen Fire, Arizona |
| Abstract |
Images from NASA's Terra and Aqua satellites have become a regular part of the National Interagency Fire Center's firefighting toolkit. The images help the center track fires on a daily basis and are used in allocating precious firefighting resources. |
| Completed |
2003-07-03 |
|
Aspen Fire, Arizona
| Title |
Aspen Fire, Arizona |
| Abstract |
Images from NASA's Terra and Aqua satellites have become a regular part of the National Interagency Fire Center's firefighting toolkit. The images help the center track fires on a daily basis and are used in allocating precious firefighting resources. |
| Completed |
2003-07-03 |
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AMSR-E Anomalous Pacific Sea
…
| Title |
AMSR-E Anomalous Pacific Sea Surface Temperature Data Used to predict 2003 Hurricane Season |
| Abstract |
Researchers and forecasters often study sea surface temperatures to predict the upcoming year's tropical cyclone activity. This sequence tracks warmer-than-normal waters and colder-than-normal waters in the Pacific Ocean. In 2003, experts have predicted a 'normal to below normal' number of tropical cylones. Researchers say the Pacific may transition to the colder-than-normal La Niña phase. Fewer than normal hurricanes generally form when El Niño is present. Areas in red represent warmer than normal and areas in blue represent cooler than normal. |
| Completed |
2003-05-20 |
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A Time Series of the Aspen F
…
| Title |
A Time Series of the Aspen Fire North of Tucson, Arizona from June 19 - 24, 2003 |
| Abstract |
Twenty miles north of Tucson, Arizona, the Aspen Fire rages through the Coronado National Forest. This time series shows the growth of the Aspen fire over the weekend of June 19-24, 2003. |
| Completed |
2003-06-26 |
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Zoom from Jakobshavn Glacier
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| Title |
Zoom from Jakobshavn Glacier with AMSR-E Daily Sea Ice and MODIS Daily Snow Cover |
| Abstract |
Beginning from a view of Greenland's Jakobshavn glacier, this animation shows motion of sea ice and snow cover over the Arctic from 10/1/2002 through 6/23/2003 as the camera pulls out to frame the full globe. The false color of the sea ice is derived from the AMSR-E 6.25 km brightness temperature. The sea ice extent is defined by AMSR-E 12.5 km sea ice concentration, identifying all regions having a sea ice concentration of greater than 15%. Because AMSR-E is a passive microwave sensor that functions independently from atmospheric effects, this sensor is able to observe the entire polar region every day, even through clouds and snowfalls. |
| Completed |
2006-09-06 |
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AMSR_E Pacific Sea Surface T
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| Title |
AMSR_E Pacific Sea Surface Temperature Data Used to Forecast 2003 Hurricane Season |
| Abstract |
Researchers and forecasters often study sea surface temperatures for an activity predictions for 2003 in part to changing conditions in the Pacific Ocean, such as the demise of El Nino. This sequence traces the evolution of the warmer-than-normal waters associated with the weak El Nino that developed in the late fall of 2002. By January, the warm conditions began to dissipate. Fewer than normal hurricanes generally form when El Nino is present. Researchers say the Pacific may transition to the colder-than-normal La Nina phase. Areas in red represent warmer than normal and areas in blue represent cooler than normal. |
| Completed |
2003-05-20 |
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AMSR_E Pacific Sea Surface T
…
| Title |
AMSR_E Pacific Sea Surface Temperature Data Used to Forecast 2003 Hurricane Season |
| Abstract |
Researchers and forecasters often study sea surface temperatures for an activity predictions for 2003 in part to changing conditions in the Pacific Ocean, such as the demise of El Nino. This sequence traces the evolution of the warmer-than-normal waters associated with the weak El Nino that developed in the late fall of 2002. By January, the warm conditions began to dissipate. Fewer than normal hurricanes generally form when El Nino is present. Researchers say the Pacific may transition to the colder-than-normal La Nina phase. Areas in red represent warmer than normal and areas in blue represent cooler than normal. |
| Completed |
2003-05-20 |
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Fires in the Northwest - Jul
…
| Title |
Fires in the Northwest - July 28, 2003 |
| Abstract |
A view of the fires in Glacier National Park from Aqua/MODIS. |
| Completed |
2003-07-29 |
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Fires in the Northwest - Jul
…
| Title |
Fires in the Northwest - July 28, 2003 |
| Abstract |
A view of the fires in Glacier National Park from Aqua/MODIS. |
| Completed |
2003-07-29 |
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Sample LIMA Data versus MOA
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| Title |
Sample LIMA Data versus MOA Data of Ross Island |
| Abstract |
The Landsat Image Mosaic of Antarctica (LIMA) is a data product funded by the National Science Foundation (NSF) and jointly produced by the U.S. Geological Survey (USGS), the British Antarctic Survey (BAS), and the National Aeronautics and Space Administration (NASA). The images shown here are compared to what is currently the best mosaic of Antarctica called the MODIS Mosaic of Antarctica (MOA). MOA is a composite of 260 swaths comprised of both Terra and Aqua MODIS images acquired between November 20, 2003 and February 29, 2004. MOA's data resolution is approxiately 150 meters per pixel. From large continental views of Antarctica, MOA is more than adequate. However, as we get closer in to the surface, the resolution of the MOA data begins to show, thus highlighting the value of the LIMA product once it is complete. The LIMA data shown here uses the pan-chromatic band which translates to a resolution of 15 meters per pixel (opposed to MOA's 150 meters per pixel resolution). The 13 swaths used to generate this sample mosaic where acquired between December 25, 1999 and December 31, 2001. The elevation shown is actual (1x). Comparing this sample LIMA dataset alongside MOA data over the same region shows the value of having a higher resolution view of Antarctica. |
| Completed |
2007-03-01 |
|
Sample LIMA Data versus MOA
…
| Title |
Sample LIMA Data versus MOA Data of Ross Island |
| Abstract |
The Landsat Image Mosaic of Antarctica (LIMA) is a data product funded by the National Science Foundation (NSF) and jointly produced by the U.S. Geological Survey (USGS), the British Antarctic Survey (BAS), and the National Aeronautics and Space Administration (NASA). The images shown here are compared to what is currently the best mosaic of Antarctica called the MODIS Mosaic of Antarctica (MOA). MOA is a composite of 260 swaths comprised of both Terra and Aqua MODIS images acquired between November 20, 2003 and February 29, 2004. MOA's data resolution is approxiately 150 meters per pixel. From large continental views of Antarctica, MOA is more than adequate. However, as we get closer in to the surface, the resolution of the MOA data begins to show, thus highlighting the value of the LIMA product once it is complete. The LIMA data shown here uses the pan-chromatic band which translates to a resolution of 15 meters per pixel (opposed to MOA's 150 meters per pixel resolution). The 13 swaths used to generate this sample mosaic where acquired between December 25, 1999 and December 31, 2001. The elevation shown is actual (1x). Comparing this sample LIMA dataset alongside MOA data over the same region shows the value of having a higher resolution view of Antarctica. |
| Completed |
2007-03-01 |
|
Fires in the Northwest (Fire
…
| Title |
Fires in the Northwest (Fire Pixels) - July 28, 2003 |
| Abstract |
A view of the fires in Glacier National Park from Aqua/MODIS. |
| Completed |
2003-07-29 |
|
Arizona Fires from Aqua/MODI
…
| Title |
Arizona Fires from Aqua/MODIS |
| Completed |
2003-07-11 |
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AMSR-E Anomalous Atlantic Se
…
| Title |
AMSR-E Anomalous Atlantic Sea Surface Temperature Data Used to Forecast 2003 Hurricane Season |
| Abstract |
Researchers and forecasters often study sea surface temperatures for an indication of hurricane potential. Scientists say above normal Atlantic Ocean temperatures is one reason for the 'above normal' hurricane forecast. Hurricanes convert heat from the tropical atmosphere and oceans to wind and waves, just as a car engine converts gasoline into motion. These animations show a year in the life of global ocean temperatures, June 2, 2002, to May 11, 2003. Blue indicates the coolest water anomaly, red the warmest anomaly. The Advanced Microwave Scanning Radiometer (AMSR-E) on the Aqua satellite takes measurements through clouds to provide sea surface temperatures. |
| Completed |
2003-05-20 |
|
AMSR-E Anomalous Atlantic Se
…
| Title |
AMSR-E Anomalous Atlantic Sea Surface Temperature Data Used to Forecast 2003 Hurricane Season |
| Abstract |
Researchers and forecasters often study sea surface temperatures for an indication of hurricane potential. Scientists say above normal Atlantic Ocean temperatures is one reason for the 'above normal' hurricane forecast. Hurricanes convert heat from the tropical atmosphere and oceans to wind and waves, just as a car engine converts gasoline into motion. These animations show a year in the life of global ocean temperatures, June 2, 2002, to May 11, 2003. Blue indicates the coolest water anomaly, red the warmest anomaly. The Advanced Microwave Scanning Radiometer (AMSR-E) on the Aqua satellite takes measurements through clouds to provide sea surface temperatures. |
| Completed |
2003-05-20 |
|
Sample LIMA Data versus MOA
…
| Title |
Sample LIMA Data versus MOA Data of Koettlitz Glacier |
| Abstract |
The Landsat Image Mosaic of Antarctica (LIMA) is a data product funded by the National Science Foundation (NSF) and jointly produced by the U.S. Geological Survey (USGS), the British Antarctic Survey (BAS), and the National Aeronautics and Space Administration (NASA). The images shown here are compared to what is currently the best mosaic of Antarctica called the MODIS Mosaic of Antarctica (MOA). MOA is a composite of 260 swaths comprised of both Terra and Aqua MODIS images acquired between November 20, 2003 and February 29, 2004. MOA's data resolution is approxiately 150 meters per pixel. From large continental views of Antarctica, MOA is more than adequate. However, as we get closer in to the surface, the resolution of the MOA data begins to show, thus highlighting the value of the LIMA product once it is complete. The LIMA data shown here uses the pan-chromatic band which translates to a resolution of 15 meters per pixel (opposed to MOA's 150 meters per pixel resolution). The 13 swaths used to generate this sample mosaic where acquired between December 25, 1999 and December 31, 2001. The elevation shown is actual (1x). Comparing this sample LIMA dataset alongside MOA data over the same region shows the value of having a higher resolution view of Antarctica. |
| Completed |
2007-03-01 |
|
Sample LIMA Data versus MOA
…
| Title |
Sample LIMA Data versus MOA Data of Koettlitz Glacier |
| Abstract |
The Landsat Image Mosaic of Antarctica (LIMA) is a data product funded by the National Science Foundation (NSF) and jointly produced by the U.S. Geological Survey (USGS), the British Antarctic Survey (BAS), and the National Aeronautics and Space Administration (NASA). The images shown here are compared to what is currently the best mosaic of Antarctica called the MODIS Mosaic of Antarctica (MOA). MOA is a composite of 260 swaths comprised of both Terra and Aqua MODIS images acquired between November 20, 2003 and February 29, 2004. MOA's data resolution is approxiately 150 meters per pixel. From large continental views of Antarctica, MOA is more than adequate. However, as we get closer in to the surface, the resolution of the MOA data begins to show, thus highlighting the value of the LIMA product once it is complete. The LIMA data shown here uses the pan-chromatic band which translates to a resolution of 15 meters per pixel (opposed to MOA's 150 meters per pixel resolution). The 13 swaths used to generate this sample mosaic where acquired between December 25, 1999 and December 31, 2001. The elevation shown is actual (1x). Comparing this sample LIMA dataset alongside MOA data over the same region shows the value of having a higher resolution view of Antarctica. |
| Completed |
2007-03-01 |
|
Washington Fires
| Title |
Washington Fires |
| Abstract |
This visualization was created in support of an Earth Science Update (ESU) focused on fires. |
| Completed |
2003-09-25 |
|
A Time Series of the Aspen,
…
| Title |
A Time Series of the Aspen, Arizona Fire from June 19 - 24, 2003 (offset view) |
| Abstract |
Twenty miles north of Tucson, Arizona, the Aspen Fire rages through the Coronado National Forest. This time series shows the growth of the Aspen fire over the weekend of June 19-24, 2003. The view is offset to show the extent of the smoke plumes. |
| Completed |
2003-06-26 |
|
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 |
|
Washington Fires with Red Fi
…
| Title |
Washington Fires with Red Fire Pixels |
| Abstract |
This visualization was created in support of an Earth Science Update (ESU) focused on fires. |
| Completed |
2003-09-25 |
|
Scene Identification Compare
…
| Title |
Scene Identification Compared to Clouds (WMS) |
| Abstract |
The Earth's climate is determined by energy transfer from the sun to the Earth's land, oceans, and atmosphere. As the Earth rotates, the sun lights up only part of the Earth at a time, and some of that incoming solar energy is reflected and some is absorbed, depending on type of area it lights. The amount of reflection and absorption is critical to the climate. An instrument named CERES orbits the Earth every 99 minutes and measures the reflected solar energy. This animation shows the scene identification as measured by CERES during 29 orbits on June 20 and 21 of 2003. By comparing the incoming solar radiation with the outgoing reflected and thermal radiation, it is possible to identify the type of area being viewed, whether it be land, clouds, ocean, or ice. This scene identification is used together with the radiation flux measurements to build up a complete picture of the Earth's energy budget over time. |
| Completed |
2005-06-21 |
|
Scene Identification Compare
…
| Title |
Scene Identification Compared to Clouds (WMS) |
| Abstract |
The Earth's climate is determined by energy transfer from the sun to the Earth's land, oceans, and atmosphere. As the Earth rotates, the sun lights up only part of the Earth at a time, and some of that incoming solar energy is reflected and some is absorbed, depending on type of area it lights. The amount of reflection and absorption is critical to the climate. An instrument named CERES orbits the Earth every 99 minutes and measures the reflected solar energy. This animation shows the scene identification as measured by CERES during 29 orbits on June 20 and 21 of 2003. By comparing the incoming solar radiation with the outgoing reflected and thermal radiation, it is possible to identify the type of area being viewed, whether it be land, clouds, ocean, or ice. This scene identification is used together with the radiation flux measurements to build up a complete picture of the Earth's energy budget over time. |
| Completed |
2005-06-21 |
|
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 |
|
|
