|
|
Aerosols from Earth Probe TO
…
| Title |
Aerosols from Earth Probe TOMS: Still of U.S. and Mexico taken at 5/16/98 |
| Completed |
1998-12-07 |
|
TRMM Microwave Measurements
…
| Title |
TRMM Microwave Measurements during Hurricane Katrina: Horizontal Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation shows eight days of global TMI 85 GHz measurements in the Gulf of Mexico during Hurricane Katrina. The hurricane Katrina rainbands clearly show up in these images. |
| Completed |
2005-09-13 |
|
TRMM Microwave Measurements
…
| Title |
TRMM Microwave Measurements during Hurricane Katrina: Horizontal Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation shows eight days of global TMI 85 GHz measurements in the Gulf of Mexico during Hurricane Katrina. The hurricane Katrina rainbands clearly show up in these images. |
| Completed |
2005-09-13 |
|
TRMM Microwave Brightness Te
…
| Title |
TRMM Microwave Brightness Temperature Progression during Hurricane Katrina: Horizontal Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation builds up four days of global TMI 85 GHz measurements. Hurricane Katrina was in the Gulf of Mexico at the time and clearly shows up in the measurements. |
| Completed |
2005-09-12 |
|
TRMM Microwave Brightness Te
…
| Title |
TRMM Microwave Brightness Temperature Progression during Hurricane Katrina: Horizontal Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation builds up four days of global TMI 85 GHz measurements. Hurricane Katrina was in the Gulf of Mexico at the time and clearly shows up in the measurements. |
| Completed |
2005-09-12 |
|
GOES-12 Imagery of Hurricane
…
| Title |
GOES-12 Imagery of Hurricane Katrina: Full Disk Visible (WMS) |
| Abstract |
The GOES-12 satellite sits at 75 degrees west longitude at an altitude of 36,000 kilometers over the equator, in geosynchronous orbit. At this position its Imager instrument takes pictures of cloud patterns in several wavelengths for all of North and South America, a primary measurement used in weather forecasting. Every three hours the Imager takes a picture of the full disk of the Earth. This animation shows a sequence of these full disk images in the visible wavelengths, 0.52 to 0.72 microns, during the period that Hurricane Katrina passed through the Gulf of Mexico. This wavelength band clearly shows the day-night cycle since the Earth is dark at night in the visible wavelengths. |
| Completed |
2005-09-09 |
|
Hurricane Lili, October 2, 2
…
| Title |
Hurricane Lili, October 2, 2002 |
| Abstract |
Hurricane Lili strengthed as it passed over the Gulf of Mexico and headed towards the U.S. coast. It was reclassified as a Category 4 hurricane, with sustained winds of 135 mph. The storm is projected to make landfall tomorrow in the same part of Louisianna that Tropical Storm Isidore dumped over 20 inches of rain just one week ago. Evacuation orders have been issued to nearly a half-million people in Louisiana and Texas. A storm surge of 10-12 feet is expected along the immediate coast line. |
| Completed |
2002-10-05 |
|
Hurricane Lili, October 2, 2
…
| Title |
Hurricane Lili, October 2, 2002 |
| Abstract |
Hurricane Lili strengthed as it passed over the Gulf of Mexico and headed towards the U.S. coast. It was reclassified as a Category 4 hurricane, with sustained winds of 135 mph. The storm is projected to make landfall tomorrow in the same part of Louisianna that Tropical Storm Isidore dumped over 20 inches of rain just one week ago. Evacuation orders have been issued to nearly a half-million people in Louisiana and Texas. A storm surge of 10-12 feet is expected along the immediate coast line. |
| Completed |
2002-10-05 |
|
Hurricane Lili, October 2, 2
…
| Title |
Hurricane Lili, October 2, 2002 |
| Abstract |
Hurricane Lili strengthed as it passed over the Gulf of Mexico and headed towards the U.S. coast. It was reclassified as a Category 4 hurricane, with sustained winds of 135 mph. The storm is projected to make landfall tomorrow in the same part of Louisianna that Tropical Storm Isidore dumped over 20 inches of rain just one week ago. Evacuation orders have been issued to nearly a half-million people in Louisiana and Texas. A storm surge of 10-12 feet is expected along the immediate coast line. |
| Completed |
2002-10-05 |
|
Hurricane Lili, October 2, 2
…
| Title |
Hurricane Lili, October 2, 2002 |
| Abstract |
Hurricane Lili strengthed as it passed over the Gulf of Mexico and headed towards the U.S. coast. It was reclassified as a Category 4 hurricane, with sustained winds of 135 mph. The storm is projected to make landfall tomorrow in the same part of Louisianna that Tropical Storm Isidore dumped over 20 inches of rain just one week ago. Evacuation orders have been issued to nearly a half-million people in Louisiana and Texas. A storm surge of 10-12 feet is expected along the immediate coast line. |
| Completed |
2002-10-05 |
|
Hurricane Lili, October 2, 2
…
| Title |
Hurricane Lili, October 2, 2002 |
| Abstract |
Hurricane Lili strengthed as it passed over the Gulf of Mexico and headed towards the U.S. coast. It was reclassified as a Category 4 hurricane, with sustained winds of 135 mph. The storm is projected to make landfall tomorrow in the same part of Louisianna that Tropical Storm Isidore dumped over 20 inches of rain just one week ago. Evacuation orders have been issued to nearly a half-million people in Louisiana and Texas. A storm surge of 10-12 feet is expected along the immediate coast line. |
| Completed |
2002-10-05 |
|
Colima Volcano, Mexico
| Title |
Colima Volcano, Mexico |
| Abstract |
Landsat 7 sees the smoke from the Colima Volcano in Mexico. |
| Completed |
1999-08-14 |
|
Gulf Coast False Color Time
…
| Title |
Gulf Coast False Color Time Lapse from SeaWiFS |
| Completed |
1998-09-09 |
|
Hurricane Lili, October 2, 2
…
| Title |
Hurricane Lili, October 2, 2002 |
| Abstract |
Hurricane Lili strengthed as it passed over the Gulf of Mexico and headed towards the U.S. coast. It was reclassified as a Category 4 hurricane, with sustained winds of 135 mph. The storm is projected to make landfall tomorrow in the same part of Louisianna that Tropical Storm Isidore dumped over 20 inches of rain just one week ago. Evacuation orders have been issued to nearly a half-million people in Louisiana and Texas. A storm surge of 10-12 feet is expected along the immediate coast line. |
| Completed |
2002-10-05 |
|
GOES-12 Imagery of Hurricane
…
| Title |
GOES-12 Imagery of Hurricane Katrina: Longwave Infrared Progression (WMS) |
| Abstract |
The GOES-12 satellite sits at 75 degrees west longitude at an altitude of 36,000 kilometers over the equator, in geosynchronous orbit. At this position its Imager instrument takes pictures of cloud patterns in several wavelengths for all of North and South America, a primary measurement used in weather forecasting. The Imager takes a pattern of pictures of parts of the Earth in several wavelengths all day, measurements that are vital in weather forcasting. This animation shows a four-day sequence of GOES-12 images in the longwave infrared wavelengths, from 10.2 to 11.2 microns, during the period that Hurricane Katrina passed through the Gulf of Mexico. This wavelength band is the most common one for observing cloud motions and severe storms throughout the day and night. Note that most of the images are taken over the United States (about every 5 minutes) with full disk images every 3 hours and several specific images over South America every day. In this animation, new images are placed over old images rather than replacing them, so different parts of the image update at different times as measurements are taken. |
| Completed |
2005-08-29 |
|
Progression of Hurricane Emi
…
| Title |
Progression of Hurricane Emily, 2005 (WMS) |
| Abstract |
Emily was a record-setting storm for many reasons. When it formed on July 11, Emily became the earliest fifth named storm on record. As it moved through the Caribbean, Emily intensified into a powerful Category 4 storm with winds over 250 kilometers per hour (150 mph) and gusts as high as 300 kilometers per hour (184 mph), making it the most powerful storm to form before August. The previous record was set by Hurricane Dennis, which ripped through the Caribbean during the first week of July 2005. Emily's Category 4 status also made 2005 the only year to produce two Category 4 storms before the end of July. |
| Completed |
2005-07-26 |
|
Progression of Hurricane Emi
…
| Title |
Progression of Hurricane Emily, 2005 (WMS) |
| Abstract |
Emily was a record-setting storm for many reasons. When it formed on July 11, Emily became the earliest fifth named storm on record. As it moved through the Caribbean, Emily intensified into a powerful Category 4 storm with winds over 250 kilometers per hour (150 mph) and gusts as high as 300 kilometers per hour (184 mph), making it the most powerful storm to form before August. The previous record was set by Hurricane Dennis, which ripped through the Caribbean during the first week of July 2005. Emily's Category 4 status also made 2005 the only year to produce two Category 4 storms before the end of July. |
| Completed |
2005-07-26 |
|
Progression of Hurricane Emi
…
| Title |
Progression of Hurricane Emily, 2005 (WMS) |
| Abstract |
Emily was a record-setting storm for many reasons. When it formed on July 11, Emily became the earliest fifth named storm on record. As it moved through the Caribbean, Emily intensified into a powerful Category 4 storm with winds over 250 kilometers per hour (150 mph) and gusts as high as 300 kilometers per hour (184 mph), making it the most powerful storm to form before August. The previous record was set by Hurricane Dennis, which ripped through the Caribbean during the first week of July 2005. Emily's Category 4 status also made 2005 the only year to produce two Category 4 storms before the end of July. |
| Completed |
2005-07-26 |
|
Progression of Hurricane Emi
…
| Title |
Progression of Hurricane Emily, 2005 (WMS) |
| Abstract |
Emily was a record-setting storm for many reasons. When it formed on July 11, Emily became the earliest fifth named storm on record. As it moved through the Caribbean, Emily intensified into a powerful Category 4 storm with winds over 250 kilometers per hour (150 mph) and gusts as high as 300 kilometers per hour (184 mph), making it the most powerful storm to form before August. The previous record was set by Hurricane Dennis, which ripped through the Caribbean during the first week of July 2005. Emily's Category 4 status also made 2005 the only year to produce two Category 4 storms before the end of July. |
| Completed |
2005-07-26 |
|
GOES-12 Imagery of Hurricane
…
| Title |
GOES-12 Imagery of Hurricane Katrina: Longwave Infrared Overview (WMS) |
| Abstract |
The GOES-12 satellite sits at 75 degrees west longitude at an altitude of 36,000 kilometers over the equator, in geosynchronous orbit. At this position its Imager instrument takes pictures of cloud patterns in several wavelengths for all of North and South America, a primary measurement used in weather forecasting. The Imager takes a pattern of pictures of parts of the Earth in several wavelengths all day, measurements that are vital in weather forecasting. This animation shows a four-day sequence of GOES-12 images in the longwave infrared wavelengths, from 10.2 to 11.2 microns, during the period that Hurricane Katrina passed through the Gulf of Mexico. This wavelength band is the most common one for observing cloud motions and severe storms throughout the day and night. Note that most of the images are taken over the United States (about every 5 minutes) with full disk images every 3 hours and several specific images over South America every day. |
| Completed |
2005-08-29 |
|
Southern California Fires, O
…
| Title |
Southern California Fires, Oct 26, 2003 |
| Abstract |
Several massive wildfires were raging across southern California over the weekend of October 25, 2003. Whipped by the hot, dry Santa Ana winds that blow toward the coast from interior deserts, at least one fire grew 10,000 acres in just 6 hours. Moving northwest to southeast along the coast, the first cluster of red dots is a combination of the Piru, Verdale, and the Simi Incident Fires, The next cluster-to the east of Los Angeles-is the Grand Prix (west) and Old (east) Fires, To their south is the Roblar 2 Fire, Next is the Paradise Fire, Then the massive Cedar Fire, whose thick smoke is completely overshadowing the coastal city of San Diego, Finally, at the California-Mexico border is the Otay Fire. At least 13 people have lost their lives because of these fires, which officials are reporting were caused by carelessness and arson. Thousands have been evacuated across the region and hundreds of homes have been lost. |
| Completed |
2003-10-27 |
|
Southern California Fires, O
…
| Title |
Southern California Fires, Oct 26, 2003 |
| Abstract |
Several massive wildfires were raging across southern California over the weekend of October 25, 2003. Whipped by the hot, dry Santa Ana winds that blow toward the coast from interior deserts, at least one fire grew 10,000 acres in just 6 hours. Moving northwest to southeast along the coast, the first cluster of red dots is a combination of the Piru, Verdale, and the Simi Incident Fires, The next cluster-to the east of Los Angeles-is the Grand Prix (west) and Old (east) Fires, To their south is the Roblar 2 Fire, Next is the Paradise Fire, Then the massive Cedar Fire, whose thick smoke is completely overshadowing the coastal city of San Diego, Finally, at the California-Mexico border is the Otay Fire. At least 13 people have lost their lives because of these fires, which officials are reporting were caused by carelessness and arson. Thousands have been evacuated across the region and hundreds of homes have been lost. |
| Completed |
2003-10-27 |
|
Southern California Fires, O
…
| Title |
Southern California Fires, Oct 26, 2003 |
| Abstract |
Several massive wildfires were raging across southern California over the weekend of October 25, 2003. Whipped by the hot, dry Santa Ana winds that blow toward the coast from interior deserts, at least one fire grew 10,000 acres in just 6 hours. Moving northwest to southeast along the coast, the first cluster of red dots is a combination of the Piru, Verdale, and the Simi Incident Fires, The next cluster-to the east of Los Angeles-is the Grand Prix (west) and Old (east) Fires, To their south is the Roblar 2 Fire, Next is the Paradise Fire, Then the massive Cedar Fire, whose thick smoke is completely overshadowing the coastal city of San Diego, Finally, at the California-Mexico border is the Otay Fire. At least 13 people have lost their lives because of these fires, which officials are reporting were caused by carelessness and arson. Thousands have been evacuated across the region and hundreds of homes have been lost. |
| Completed |
2003-10-27 |
|
Hurricane Ivan Progression
| Title |
Hurricane Ivan Progression |
| Abstract |
Closely watching Hurricane Ivan and its path. On September 13, 2004 Ivan is heading towards Cuba. |
| Completed |
2004-09-13 |
|
Hurricane Ivan Progression
| Title |
Hurricane Ivan Progression |
| Abstract |
Closely watching Hurricane Ivan and its path. On September 13, 2004 Ivan is heading towards Cuba. |
| Completed |
2004-09-13 |
|
Hurricane Ivan Progression
| Title |
Hurricane Ivan Progression |
| Abstract |
Closely watching Hurricane Ivan and its path. On September 13, 2004 Ivan is heading towards Cuba. |
| Completed |
2004-09-13 |
|
Hurricane Ivan Progression
| Title |
Hurricane Ivan Progression |
| Abstract |
Closely watching Hurricane Ivan and its path. On September 13, 2004 Ivan is heading towards Cuba. |
| Completed |
2004-09-13 |
|
Hurricane Ivan Progression
| Title |
Hurricane Ivan Progression |
| Abstract |
Closely watching Hurricane Ivan and its path. On September 13, 2004 Ivan is heading towards Cuba. |
| Completed |
2004-09-13 |
|
Aerosols from Earth Probe TO
…
| Title |
Aerosols from Earth Probe TOMS: U.S. and Mexico from 4/1/98 to 5/26/98 (3 times @ 6 days/sec) |
| Completed |
1998-12-07 |
|
TRMM Microwave Brightness Te
…
| Title |
TRMM Microwave Brightness Temperature Progression during Hurricane Katrina: Vertical Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation builds up four days of global TMI 85 GHz measurements. Hurricane Katrina was in the Gulf of Mexico at the time and clearly shows up in the measurements. |
| Completed |
2005-09-12 |
|
TRMM Microwave Brightness Te
…
| Title |
TRMM Microwave Brightness Temperature Progression during Hurricane Katrina: Vertical Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation builds up four days of global TMI 85 GHz measurements. Hurricane Katrina was in the Gulf of Mexico at the time and clearly shows up in the measurements. |
| Completed |
2005-09-12 |
|
GOES-12 Imagery of Hurricane
…
| Title |
GOES-12 Imagery of Hurricane Katrina: Full Disk Shortwave Infrared (WMS) |
| Abstract |
The GOES-12 satellite sits at 75 degrees west longitude at an altitude of 36,000 kilometers over the equator, in geosynchronous orbit. At this position its Imager instrument takes pictures of cloud patterns in several wavelengths for all of North and South America, a primary measurement used in weather forecasting. Every three hours the Imager takes a picture of the full disk of the Earth. This animation shows a sequence of these full disk images in the shortwave infrared wavelengths, 3.78 to 4.03 microns, during the period that Hurricane Katrina passed through the Gulf of Mexico. This wavelength band shows the day-night cycle, and is useful for identifying fog at night and discriminating between water clouds and snow or ice clouds during the daytime. |
| Completed |
2005-08-29 |
|
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 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
2006 Sea Surface Temperature
…
| Title |
2006 Sea Surface Temperatures Rising in the Gulf of Mexico |
| Abstract |
Sea surface temperatures in the Gulf of Mexico rise due to natural summer warming. These warm surface temperatures are a contributing factor to favorable conditions that can lead to the formation of tropical storms and hurricanes in the Gulf of Mexico and off the Eastern Shore of the United States. In general, hurricanes tend to form over warm ocean water whose temperature is 82 degrees Fahreheit (approximately 27.7 degrees Celsius) or higher. These areas are depicted in yellow, orange, and red. This data was taken by the AMSR-E instrument aboard the Aqua satellite. This animation depicts the 2006 seasonal changes. |
| Completed |
2006-05-24 |
|
New Mexico Fires - Los Alamo
…
| Title |
New Mexico Fires - Los Alamos |
| Completed |
2000-08-08 |
|
Mexico City Onion Layers, 54
…
| Title |
Mexico City Onion Layers, 542 with DEM, x 4 exaggeration. |
| Completed |
1999-04-09 |
|
Blackwater: SeaWiFS True Col
…
| Title |
Blackwater: SeaWiFS True Color |
| Abstract |
Scientists are baffled by a mysterious 'dead zone' in the Gulf of Mexico off southern Florida, an area normally rife with fish but described by fishermen now as fouled by murky waters and barren of marine life. |
| Completed |
2002-03-21 |
|
|
