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Fires in California
Forest fires in Northern Cal
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8/12/08
| Description |
Forest fires in Northern California were slowly being contained in the first weeks of August 2008. Many of the fires started in the first week of summer when a rash of lightning strikes ignited hundreds of fires in the state. The image above was captured by the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA's Aqua satellite on August 10. Places where the sensor detected actively burning fire are outlined in red. According to the National Interagency Fire Center's report for August 11, the Iron and Alps Complexes had a combined acreage of 95,171 acres. Other large fires included the Siskiyou Complex (61,404 acres), the Panther Fire (21,802 acres), and the Ukonom Complex (49,929 acres). > Unlabeled larger image Image credit: NASA's MODIS Rapid Response Team Text credit: Rebecca Lindsey, NASA's Earth Observatory |
| Date |
8/12/08 |
|
Fires in California
A combination of smoke and c
…
8/15/08
| Description |
A combination of smoke and clouds obscured the Coast Ranges of Northern California on August 14, 2008, when the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA's Aqua satellite passed over the area and captured this natural-color image. Places where the sensor detected active fire are outlined in red. According to the morning situation report from the National Interagency Fire Center on August 15, 2008, the three fires labeled in this image were affecting nearly 200,000 acres. Fires have been burning in the area since the first week of summer, when thousands of lightning strikes occurred during intense thunderstorms. Image credit: NASA/MODIS Rapid Response TeamText credit: NASA/Earth Observatory |
| Date |
8/15/08 |
|
Fires in Oregon and Northern
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A handful of large fires wer
…
9/17/08
| Description |
A handful of large fires were burning in Oregon and Northern California as fall approached in 2008. This image from the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA's Aqua satellite shows the two states on September 15. Places where MODIS detected actively burning fires are marked with red dots. According to the National Interagency Fire Center report on September 16, the Rattle Fire was an estimated 5,733 acres and 25 percent contained, and the Lonesome Complex was 5,886 acres and 15 percent contained. Structures were threatened in both locations, and some evacuations were in effect. The Klamath Complex was an estimated 182,693 acres and 75 percent contained. Some of the fires in the Klamath Complex had been burning since the first weekend of summer. Image credit:Jesse Allen, using data provided courtesy of NASA's MODIS Rapid Response team Text credit: Rebecca Lindsey, NASA's Earth Observatory |
| Date |
9/17/08 |
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Santa Ana Winds Fuel Califor
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Powerful Santa Ana winds sto
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10/14/08
| Description |
Powerful Santa Ana winds stoked several major wildfires in Southern California on Monday, Oct. 13, 2008, when instruments on NASA's Aqua satellite captured this image. As of October 14, the blazes had scorched nearly 12,000 acres, destroyed dozens of homes and forced the evacuation of neighborhoods in suburban Los Angeles and northern San Diego County, according to fire officials. Firefighters had little to no containment of any of the fires early Tuesday, and reported winds blowing at 50 mph in parts of the affected area. Wind gusts of up to 80 mph are possible in higher elevations later in the day. Image credit: NASA's MODIS Rapid Response Team Text credit: Laura Motel, NASA's Goddard Space Flight Center |
| Date |
10/14/08 |
|
Fires in California
Gusty winds drove wildfires
…
11/17/08
| Description |
Gusty winds drove wildfires into southern California cities in mid-November 2008. This image from the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA's Aqua satellite shows the Los Angeles metropolitan area on November 16, 2008. Places where the sensor detected active fires are outlined in red. The top image shows smoke spreading far to the west over the Pacific Ocean. According to the National Interagency Fire Center daily situation report from November 16, the Sayre Fire north of San Fernando was 8,000 acres and 20 percent contained. The Freeway Fire was 5,800 acres and 5 percent contained. NASA image courtesy the MODIS Rapid Response Team. Caption by Rebecca Lindsey |
| Date |
11/17/08 |
|
Fires in California
Smoke from the recent outbre
…
11/19/08
| Description |
Smoke from the recent outbreak of fires in Southern California can clearly be seen from NASA satellites. The top, photo-like, true-color image, taken by the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA's Aqua satellite on November 16, 2008, shows the smoke drifting to the southwest from the Los Angeles basin over the waters of the Pacific Ocean. The lower image shows measurements of aerosols -- tiny particles within smoke -- as observed by the Ozone Monitoring Instrument (OMI) onboard NASA's Aura satellite, overlaid on top of the MODIS image. In the lower image, aerosol concentrations are represented by an aerosol index, with the highest concentrations in pink, and the lowest in dark blue. The aerosol index is calculated based on the way the tiny particles absorb and scatter light. Specifically, the index is a measurement of the difference between the amount of ultraviolet light the smoke-filled atmosphere scatters back to the satellite compared to the amount of ultraviolet light that the atmosphere would scatter back if it were totally clear. The difference between these two measurements can effectively detect smoke that would otherwise be invisible in photo-like imagery. In the MODIS image, the smoke disappears when it moves over the bright surface of the low-level marine stratocumulus clouds. The OMI aerosol index measurement reveals, however, that smoke is present over the clouds. Such ultraviolet measurements from instruments like OMI are useful to scientists working to understand how aerosols affect clouds. Image credit: Colin Seftor, Aura OMI Science team Text credit: Colin Seftor and Holli Riebeek, NASA's Earth Observatory |
| Date |
11/19/08 |
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Lockheed Fire
On August 12, 2009, the Lock
…
8/18/09
| Description |
On August 12, 2009, the Lockheed Fire broke out in the mountains southwest of San Jose, California, and burned through an estimated 2,600 acres of brush and timber by the morning of August 14. The fire was burning about 4 miles northwest of the town of Boulder Creek, and at least 2,000 people had been forced to evacuate their homes. This photo-like image of the fire was captured by the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA's Aqua satellite on August 13. The red outlines mark the location where the sensor detected active fire. A narrow but dense plume of smoke slices across the mouth of Monterey Bay, stretching past the city of Santa Cruz toward Monterey. The landscape of this part of California is one of redwoods and fir trees, and it appears lushly green in this image. But mixed with these forests are tracts of chaparral (landscapes dominated by fire-adapted, drought-tolerant shrubs and grasses) and large stands of highly flammable knobcone pine. Hot, fast-moving fires are a natural part of this landscape, and people's desire to suppress forest fires around their homes in recent decades has allowed some areas to become unnaturally overgrown and primed for wildfire. NASA image courtesy Jeff Schmaltz, MODIS Rapid Response Team. Caption by Rebecca Lindsey. |
| Date |
8/18/09 |
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A 3-D View of Saturn's Cloud
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| Description |
A 3-D View of Saturn's Clouds and Hazes |
| Full Description |
Saturn's clouds and hazes at three different levels in the atmosphere are depicted in the image on the right, as observed by the visual infrared mapping spectrometer on the Cassini spacecraft. In the image, red represents the deepest clouds yet found on Saturn. They are at an altitude where pressure is nearly double Earth's sea-level air pressure. The spectrometer saw these clouds using a 5.1 micron wavelength. Brightness levels in the original image were inverted to show cloud as bright features. Green is an image taken simultaneously at 1.6 micron wavelength, showing upper-level clouds near and above the altitude where atmospheric pressure equals Earth's sea-level air pressure, a pressure expressed as 1 bar. Blue is an image taken at 2.05 micron, a wavelength which is limited to showing only higher cloud level due to absorption of light by the hydrogen gas comprising the bulk of Saturn's atmosphere. Blue indicated clouds of an altitude where atmospheric pressure is only about 70 percent of Earth's sea-level air pressure. Thus, the aqua-colored feature over the equator is high-altitude haze residing 10 kilometers (6 miles) altitude above the typical zonal features seen in reflected sunlight over the planet (green). The image on the left shows only the upperatmosphere above the 1-bar level, and is the view seen in reflected sunlight as observed by cameras not capable of seeing the thermal radiation of Saturn. Red in this image was taken at 2.79 micron, a wavelength that absorbs ammonia. The greenish appearance of the south pole indicates that ammonia gas is enhanced there. As opposed to the uniform bands of hazes and clouds seen over the planet at pressures near and less than 1 bar, clouds at the 2-bar level (red, in right-hand image) are distinct, and come in a variety of shapes and sizes. These images were acquired by Cassini's visual infrared mapping spectrometer on June 28, 2005, from a distance of 1.2 million kilometers (745,645 miles), and at a solar phase angle of 102 degrees. The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the mission for NASA's Science Mission Directorate, Washington, D.C. The Cassini orbiter was designed, developed and assembled at JPL. The visual and infrared mapping spectrometer team is based at the University of Arizona. For more information about the Cassini-Huygens mission http://saturn.jpl.nasa.gov. The visual and infrared mapping spectrometer team homepage is at http://wwwvims.lpl.arizona.edu. Credit: NASA/JPL/University of Arizona |
| Date |
September 5, 2005 |
|
Hurricane Isidore
| Description |
Hurricane Isidore |
| Full Description |
A view of Hurricane Isidore from the Atmospheric Infrared Sounding System (AIRS) on Aqua. At the time Aqua passed over Isidore, it was classified as a Category 3 (possibly 4) hurricane, with minimum pressure of 934 mbar, maximum sustained wind speeds of 110 knots (gusting to 135) and an eye diameter of 20 nautical miles. Isidore was later downgraded to a Tropical Storm before gathering strength again. This is a visible/near-infrared image, made with the AIRS instrument. Its 2 km resolution shows fine details of the cloud structure, and can be used to help interpret the other images. For example, some relatively cloud-free regions in the eye of the hurricane can be distinguished. This image was made with wavelengths slightly different than those seen by the human eye, causing plants to appear very red. In the near future, weather data derived from these images will allow us to improve our forecasts and track the paths of hurricanes more accurately. The AIRS sounding system provides 2400 such images, or channels, continuously. The Atmospheric Infrared Sounder Experiment, with its visible, infrared, and microwave detectors, provides a three-dimensional look at Earth's weather. Working in tandem, the three instruments can make simultaneous observations all the way down to the Earth's surface, even in the presence of heavy clouds. With more than 2,000 channels sensing different regions of the atmosphere, the system creates a global, 3-D map of atmospheric temperature and humidity and provides information on clouds, greenhouse gases, and many other atmospheric phenomena. The AIRS Infrared Sounder Experiment flies onboard NASA's Aqua spacecraft and is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., under contract to NASA. JPL is a division of the California Institute of Technology in Pasadena. *Image Credit:* NASA/JPL |
| Date |
September 14, 2002 |
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National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
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 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Aqua/AIRS Water Vapor near s
…
| Title |
Aqua/AIRS Water Vapor near southern California #2 |
| Abstract |
This visualization shows 3D volumetric water vapor data from the Aqua/Atmospheric Infrared Sounder (AIRS) instrument. As the camera moved down and around the data set, the low data values are faded out revealing only the highest concentrations of water vapor data. This version (#2) ends with a slightly lower threshold than the original version - showing more of the highest water vapor concentrations. The color and opacity at each 3D voxel are driven by the water vapor data. The data set was obtained by Aqua on January 1, 2003. Only data from the sea level to about 10km are shown. This visualization was created to support a JPL press release about how assimilated AIRS data is improving global atmospheric simulation model forecasts by about 6 hours (from about 5 days to about 5 days and 6 hours). |
| Completed |
2005-02-09 |
|
Habitat Suitability for Tama
…
| Title |
Habitat Suitability for Tamarisk Invasion in the State of California |
| Abstract |
The Invasive Species Forecasting System (ISFS) is a partnership between NASA and The US Geological Survey (USGS). The ISFS combines NASA Earth observations and statistical models to enhance USGS capabilities to map, monitor and predict the spread of significant invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the state of California. Tamarisk spreads quickly along riverbeds and when it's leaves shed, they secrete salt on the soil, which can hinder other plant growth. Red indicates areas that are highly suitable. Yellow indicates areas which are less suitable, and grey are areas which are not suitable. |
| Completed |
2005-10-18 |
|
Habitat Suitability for Tama
…
| Title |
Habitat Suitability for Tamarisk Invasion in the State of Colorado |
| Abstract |
The Invasive Species Forecasting System (ISFS) is a partnership between NASA and The US Geological Survey (USGS). The ISFS combines NASA Earth observations and statistical models to enhance USGS capabilities to map, monitor and predict the spread of significant invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the state of California. Tamarisk spreads quickly along riverbeds and when it's leaves shed, they secrete salt on the soil, which can hinder other plant growth. Red indicates areas that are highly suitable for Tamarisk growth. Yellow indicates areas which are less suitable, and grey are areas which are not suitable. The study used field surveys of species richness, one 30m spatial resolution Landsat 7 Enhanced Thematic Mapper plus (ETM+) image, and a three year time-series of 250m spatial resolution Moderate Resolution Imaging Spectrometer (MODIS) imagery over three sites. Actual tamarisk presence data from the field surveys are shown in green. |
| Completed |
2005-10-18 |
|
Habitat Suitability for Tama
…
| Title |
Habitat Suitability for Tamarisk Invasion in the State of Colorado |
| Abstract |
The Invasive Species Forecasting System (ISFS) is a partnership between NASA and The US Geological Survey (USGS). The ISFS combines NASA Earth observations and statistical models to enhance USGS capabilities to map, monitor and predict the spread of significant invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the state of California. Tamarisk spreads quickly along riverbeds and when it's leaves shed, they secrete salt on the soil, which can hinder other plant growth. Red indicates areas that are highly suitable for Tamarisk growth. Yellow indicates areas which are less suitable, and grey are areas which are not suitable. The study used field surveys of species richness, one 30m spatial resolution Landsat 7 Enhanced Thematic Mapper plus (ETM+) image, and a three year time-series of 250m spatial resolution Moderate Resolution Imaging Spectrometer (MODIS) imagery over three sites. Actual tamarisk presence data from the field surveys are shown in green. |
| Completed |
2005-10-18 |
|
Southern California Fires, O
…
| Title |
Southern California Fires, October 27, 2003 (Fire Pixels Included) |
| Abstract |
This visualization shows the Southern California and Mexican fires as seen by Aqua/MODIS on October 27, 2003. This version included red fire pixels to display each incident fire. |
| Completed |
2003-10-28 |
|
Southern California Fires, O
…
| Title |
Southern California Fires, October 27, 2003 (Fire Pixels Included) |
| Abstract |
This visualization shows the Southern California and Mexican fires as seen by Aqua/MODIS on October 27, 2003. This version included red fire pixels to display each incident fire. |
| Completed |
2003-10-28 |
|
Santa Ana winds on January 6
…
| Title |
Santa Ana winds on January 6, 2003 |
| Abstract |
On January 6, 2003, Santa Ana winds blew dust from interior deserts and other dry areas out over California and the Pacific Ocean. |
| Completed |
2003-01-07 |
|
Santa Ana winds on January 6
…
| Title |
Santa Ana winds on January 6, 2003 |
| Abstract |
On January 6, 2003, Santa Ana winds blew dust from interior deserts and other dry areas out over California and the Pacific Ocean. |
| Completed |
2003-01-07 |
|
Antarctic Plumbing: Lake Eng
…
| Title |
Antarctic Plumbing: Lake Englehardt's Subglacial Hydraulic System |
| Abstract |
ICESat satellite laser altimeter elevation profiles from 2003-2006 collected over West Antarctica reveal numerous regions of temporally varying elevation. MODIS satellite imagery over roughly the same time period collaborates where these subglacial fluctuations have occurred. These observations have led scientists to conclude that subglacial water movement is happening in this lake region, revealing a widespread, dynamic subglacial water system that could provide important insights into ice flow and the mass balance of Antarctica's ice. |
| Completed |
2007-02-13 |
|
Antarctic Plumbing: Lake Eng
…
| Title |
Antarctic Plumbing: Lake Englehardt's Subglacial Hydraulic System |
| Abstract |
ICESat satellite laser altimeter elevation profiles from 2003-2006 collected over West Antarctica reveal numerous regions of temporally varying elevation. MODIS satellite imagery over roughly the same time period collaborates where these subglacial fluctuations have occurred. These observations have led scientists to conclude that subglacial water movement is happening in this lake region, revealing a widespread, dynamic subglacial water system that could provide important insights into ice flow and the mass balance of Antarctica's ice. |
| Completed |
2007-02-13 |
|
Antarctic Plumbing: Lake Eng
…
| Title |
Antarctic Plumbing: Lake Englehardt's Subglacial Hydraulic System |
| Abstract |
ICESat satellite laser altimeter elevation profiles from 2003-2006 collected over West Antarctica reveal numerous regions of temporally varying elevation. MODIS satellite imagery over roughly the same time period collaborates where these subglacial fluctuations have occurred. These observations have led scientists to conclude that subglacial water movement is happening in this lake region, revealing a widespread, dynamic subglacial water system that could provide important insights into ice flow and the mass balance of Antarctica's ice. |
| Completed |
2007-02-13 |
|
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