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Browse All : Images of Goddard Space Flight Center (GSFC) and Florida and United States of America from 2005

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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
Heavy Rain in the Northeaste …
Title Heavy Rain in the Northeastern United States
Description Rain was still falling a full week after a wet weather front moved up the U.S. East Coast. The rain had not abated when this image was created using data collected by the Tropical Rainfall Measuring Mission (TRMM) [ http://trmm.gsfc.nasa.gov/ ] satellite between October 7 and October 14, 2005. The image shows rainfall totals in colors ranging from blue, lightest totals, to orange, the heaviest totals. The central and northern Appalachian Mountains are covered with a wide swath of yellow and green, representing 100-150 millimeters (4 to 6 inches) of rainfall. Orange over parts of northern New Jersey and southeastern New York State shows regions that received up to 200 millimeters (8 inches) of rain. As the rain continued to fall, flash floods swamped many regions, and rivers rose. Many evacuated in the face of flooding, say news reports. The rain was brought to the region by a slow-moving frontal system. Stretching from the Florida panhandle to Maine, the front drew tropical moisture—including the remnants of Tropical Storm Tammy—up the East Coast. The front parked itself off the coast, allowing an area of low pressure to form just off of the Delmarva Peninsula. The low brought a second round of heavy rain to the Northeast. The rainfall totals shown here were taken from the TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at NASA's Goddard Space Flight Center. MPA provides rainfall estimates over the global Tropics. The image is an example of the value of the TRMM satellite, which was launched in November 1997 to provide better estimates of rainfall over the global Tropics. Since that time, TRMM has been providing unprecedented estimates of rainfall over the Tropics using its array of passive and active sensors. TRMM is a joint mission between NASA and the Japanese space agency JAXA. Image produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC).
Heavy Rain in the Northeaste …
Title Heavy Rain in the Northeastern United States
Description Rain was still falling a full week after a wet weather front moved up the U.S. East Coast. The rain had not abated when this image was created using data collected by the Tropical Rainfall Measuring Mission (TRMM) [ http://trmm.gsfc.nasa.gov/ ] satellite between October 7 and October 14, 2005. The image shows rainfall totals in colors ranging from blue, lightest totals, to orange, the heaviest totals. The central and northern Appalachian Mountains are covered with a wide swath of yellow and green, representing 100-150 millimeters (4 to 6 inches) of rainfall. Orange over parts of northern New Jersey and southeastern New York State shows regions that received up to 200 millimeters (8 inches) of rain. As the rain continued to fall, flash floods swamped many regions, and rivers rose. Many evacuated in the face of flooding, say news reports. The rain was brought to the region by a slow-moving frontal system. Stretching from the Florida panhandle to Maine, the front drew tropical moisture—including the remnants of Tropical Storm Tammy—up the East Coast. The front parked itself off the coast, allowing an area of low pressure to form just off of the Delmarva Peninsula. The low brought a second round of heavy rain to the Northeast. The rainfall totals shown here were taken from the TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at NASA's Goddard Space Flight Center. MPA provides rainfall estimates over the global Tropics. The image is an example of the value of the TRMM satellite, which was launched in November 1997 to provide better estimates of rainfall over the global Tropics. Since that time, TRMM has been providing unprecedented estimates of rainfall over the Tropics using its array of passive and active sensors. TRMM is a joint mission between NASA and the Japanese space agency JAXA. Image produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC).
Drought in the Southern Unit …
Title Drought in the Southern United States
Description Rainfall across the United States in the winter of 2005-06 has shown the classic pattern of a La Niña event. La Niña is a climate anomaly (departure from average conditions) that consists of cooler-than-average sea surface temperatures (SSTs) across the central and eastern Pacific and warmer-than-average SSTs over the western Pacific. Changes in the atmospheric circulation occur during La Niña events, as well. These combined ocean-atmosphere changes are likely responsible for the drought in the Southwest, the South, the central Plains, and Florida that has led to several devastating wildfires this season. This image shows where daily rainfall was above and below average in the United States between October 2005 and January 2006 compared to the eight-year average for that time frame. Places where rainfall was above average are in blue and green, while places rainfall was below average are in orange and red. The data are from the Tropical-Rainfall-Measuring-Mission-based, near-real-time, Multi-satellite Precipitation Analysis at the NASA Goddard Space Flight Center. The Pacific Northwest (green and blue areas), especially along the coast and over the coastal ranges of Northern California, Oregon, and Washington (blue areas) received more precipitation than usual. Almost the entire rest of the country, barring New England, had below-normal rainfall. The most intense rainfall deficits (orange and red areas) include the area stretching from Texas up through the central Plains and Upper Midwest, as well as the Gulf Coast, most of Florida, and along the southern Atlantic coast. In the Southwest, the rainfall deficit added to the stress of several years of below-average rainfall. Most of Arizona, New Mexico, West Texas, and central Oklahoma have received less than 25 percent of their normal rainfall for the period. The current La Niña is expected to persist for the next several months. The Tropical Rainfall Measuring Mission (TRMM) satellite was launched in November 1997. It measures rainfall over the global tropics using both passive and active sensors, including the first precipitation radar in space. TRMM is a joint mission between NASA and the Japanese space agency, JAXA. Image produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC).
Hurricane Dennis
Title Hurricane Dennis
Description Hurricane Dennis was bearing down on the Gulf Coast of the United States on July 10, 2005, at 12:15 p.m. (16:15 UTC) when the Moderate Resolution Imaging Spectroradiometer [ http://modis.gsfc.nasa.gov/ ] on NASA?s Terra [ http://terra.nasa.gov/ ] satellite captured this image. With winds of 135 miles per hour (217 kph), Dennis was a powerful Category 4 storm just hours away from making landfall. At the time this image was taken, the eye of the storm was about 55 miles (90 kilometers) south, southeast of Pensacola, Florida, and the storm was moving northwest at about 18 miles per hour (29 kph). The size of the storm put clouds of rain over most of the southeastern United States well before the storm came ashore. In this image, Dennis covers all of Florida, Alabama, Mississippi, and stretches over parts of Louisiana. The northern fringes of the storm appear to be over Tennessee and North Carolina. For additional information and warnings about this storm, please visit the National Hurricane Center. This image is available in additional resolutions from the MODIS Rapid Response Team. NASA image courtesy Jacques Descloitres, MODIS Rapid Response Team, NASA GSFC
Hurricane Katrina Floods the …
Title Hurricane Katrina Floods the Southeastern United States
Description Though still a weak hurricane at the time, Hurricane Katrina dumped heavy rain on the southern tip of Florida on August 25 and August 26, 2005. On August 28, a few clouds lingered over Florida, but the storm had moved away to reveal extensive flooding. These false-color images were taken by the Moderate Resolution Imaging Spectroradiometer (MODIS [ http://modis.gsfc.nasa.gov ]) on NASA's Aqua [ http://aqua.nasa.gov/ ] and Terra [ http://terra.nasa.gov/ ] satellites. In this color combination, water appears black, vegetation appears bright green, and clouds are pale blue and white. The most visible flooding is in Everglades National Park. The park's boundaries are clearly visible in the lower image, taken on August 8, 2005. The northeastern boundary of the park is defined by a bright green line formed by the Highway 41 corridor. On the east side of the peninsula, the land is a lighter green where the water has been drained away and the land cultivated. Numerous cities, including Miami, dot the landscape with patches of cement-colored gray. Everglades National Park surrounds the developed land to the south and west and is defined by the deeper green of native vegetation and swampland. On August 28, top, water filled much of the park, but there is little sign of flooding to the east. Extensive flooding was reported in southeastern Florida, but it is not visible in this image. The effects of Hurricane Katrina on the ocean are clear. As the storm passed, its rains and wind churned the ocean, bringing clouds of sediment to the surface. This sludge from the ocean floor colors the water an electric blue in the top image. The large images provided above are at MODIS' maximum resolution of 250 meters per pixel. The MODIS Rapid Response Team provides daily images in additional resolutions [ http://rapidfire.sci.gsfc.nasa.gov/subsets/?USA8 ]. NASA images courtesy the MODIS Rapid Response Team [ http://rapidfire.sci.gsfc.nasa.gov ] at NASA GSFC.
Hurricane Katrina Floods the …
Title Hurricane Katrina Floods the Southeastern United States
Description Though still a weak hurricane at the time, Hurricane Katrina dumped heavy rain on the southern tip of Florida on August 25 and August 26, 2005. On August 28, a few clouds lingered over Florida, but the storm had moved away to reveal extensive flooding. These false-color images were taken by the Moderate Resolution Imaging Spectroradiometer (MODIS [ http://modis.gsfc.nasa.gov ]) on NASA's Aqua [ http://aqua.nasa.gov/ ] and Terra [ http://terra.nasa.gov/ ] satellites. In this color combination, water appears black, vegetation appears bright green, and clouds are pale blue and white. The most visible flooding is in Everglades National Park. The park's boundaries are clearly visible in the lower image, taken on August 8, 2005. The northeastern boundary of the park is defined by a bright green line formed by the Highway 41 corridor. On the east side of the peninsula, the land is a lighter green where the water has been drained away and the land cultivated. Numerous cities, including Miami, dot the landscape with patches of cement-colored gray. Everglades National Park surrounds the developed land to the south and west and is defined by the deeper green of native vegetation and swampland. On August 28, top, water filled much of the park, but there is little sign of flooding to the east. Extensive flooding was reported in southeastern Florida, but it is not visible in this image. The effects of Hurricane Katrina on the ocean are clear. As the storm passed, its rains and wind churned the ocean, bringing clouds of sediment to the surface. This sludge from the ocean floor colors the water an electric blue in the top image. The large images provided above are at MODIS' maximum resolution of 250 meters per pixel. The MODIS Rapid Response Team provides daily images in additional resolutions [ http://rapidfire.sci.gsfc.nasa.gov/subsets/?USA8 ]. NASA images courtesy the MODIS Rapid Response Team [ http://rapidfire.sci.gsfc.nasa.gov ] at NASA GSFC.
Hurricane Katrina Floods the …
Title Hurricane Katrina Floods the Southeastern United States
Description Though still a weak hurricane at the time, Hurricane Katrina dumped heavy rain on the southern tip of Florida on August 25 and August 26, 2005. On August 28, a few clouds lingered over Florida, but the storm had moved away to reveal extensive flooding. These false-color images were taken by the Moderate Resolution Imaging Spectroradiometer (MODIS [ http://modis.gsfc.nasa.gov ]) on NASA's Aqua [ http://aqua.nasa.gov/ ] and Terra [ http://terra.nasa.gov/ ] satellites. In this color combination, water appears black, vegetation appears bright green, and clouds are pale blue and white. The most visible flooding is in Everglades National Park. The park's boundaries are clearly visible in the lower image, taken on August 8, 2005. The northeastern boundary of the park is defined by a bright green line formed by the Highway 41 corridor. On the east side of the peninsula, the land is a lighter green where the water has been drained away and the land cultivated. Numerous cities, including Miami, dot the landscape with patches of cement-colored gray. Everglades National Park surrounds the developed land to the south and west and is defined by the deeper green of native vegetation and swampland. On August 28, top, water filled much of the park, but there is little sign of flooding to the east. Extensive flooding was reported in southeastern Florida, but it is not visible in this image. The effects of Hurricane Katrina on the ocean are clear. As the storm passed, its rains and wind churned the ocean, bringing clouds of sediment to the surface. This sludge from the ocean floor colors the water an electric blue in the top image. The large images provided above are at MODIS' maximum resolution of 250 meters per pixel. The MODIS Rapid Response Team provides daily images in additional resolutions [ http://rapidfire.sci.gsfc.nasa.gov/subsets/?USA8 ]. NASA images courtesy the MODIS Rapid Response Team [ http://rapidfire.sci.gsfc.nasa.gov ] at NASA GSFC.
Hurricane Ophelia
Title Hurricane Ophelia
Description Over the second week of September, Ophelia meandered off of the southeast coast of the United States due to weak steering currents. The system, which began as a depression over the Bahamas on September 6, 2005, twice stalled out and made loops: once just east of Cape Canveral, Florida, and the other farther out to sea east of Georgia. Ophelia also flip-flopped several times between a strong tropical storm and a weak Category 1 hurricane. Despite its very slow movement, which usually leads to weakening due to upwelling of cooler water, Ophelia has maintained itself as a result of warm waters and its proximity to the Gulf Stream. The Tropical Rainfall Measuring Mission (or TRMM) satellite has been following Ophelia's progress along the East Coast. This image shows the height of the precipitation columns within Ophelia with a cutaway view through the southern part of the eye. The large eye is easily visible in the center along with the area of intense rain in the southwest corner of the eye (dark red area). However, there are no tall towers surrounding the eye that might indicate imminent strengthening. Launched in 1997 to measure rainfall over the tropics, TRMM has proven to be a valuable tool for monitoring and studying tropical cyclones. TRMM's compliment of instruments includes the TRMM Precipitation Radar (PR), the only radar capable of measuring precipitation from space, and the TRMM Microwave Imager (TMI), a passive intrument that can also measure rainfall. TRMM is a joint mission between NASA and the Japanese space agency JAXA. Images produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC).
Hurricane Ophelia
Title Hurricane Ophelia
Description Over the last several days, Ophelia has meandered off of the southeast coast of the United States. The storm system, which began as a depression over the Bahamas on September 6, 2005, has twice stalled out and made loops: once just east of Cape Canveral, Florida, and the other farther out to sea east of Georgia. Ophelia has also flip-flopped several times between a strong tropical storm and a weak Category 1 hurricane. Despite its very slow movement, which usually leads to weakening due to upwelling of cooler water, Ophelia has maintained itself as a result of warm waters an its proximity to the Gulf Stream. The hurricane was grazing along the North Carolina coastline without making landfall when the Moderate Resolution Imaging Spectroradiometer (MODIS [ http://modis.gsfc.nasa.gov ]) on NASA's Aqua [ http://aqua.nasa.gov/ ] satellite captured this image at 2:20 p.m. Eastern time on September 15, 2005. At the time, Ophelia had winds of 120 kilometers per hour (75 miles per hour), easing off slightly from its latest peak and heading back down yet again to tropical storm status. The slow-moving storm was initially forecasted to dump heavy rain on the Outer Banks of North Carolina, but proved less destructive than feared. One death (due to a car accident in Raleigh attributed to slick roads) has been attributed to the storm, but fears of substantial flooding have largely not been realized. The large image provided above has a resolution of 250 meters per pixel. The image is available in additional resolutions from the MODIS Rapid Response Team. NASA image courtesy Jeff Schmaltz, MODIS Land Rapid Response Team at NASA GSFC
Hurricane Katrina: Natural H …
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima …
katrina_trmm_23-31aug05
mediatype IMAGE
mediatype image
date 2005-08-31
creator NASA -- NASA Image Of The Day
identifier katrina_trmm_23-31aug05
Heavy Rain in the Northeaste …
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima …
ne_floods_7oct-14oct05
mediatype IMAGE
mediatype image
date 2005-10-14
creator NASA -- NASA Image Of The Day
identifier ne_floods_7oct-14oct05
Hurricane Katrina Floods the …
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima …
Florida_TMO_2005240
mediatype IMAGE
mediatype image
date 2005-08-28
creator NASA -- NASA Image Of The Day
identifier Florida_TMO_2005240
Hurricane Katrina Floods the …
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima …
Florida_TMO_2005240
mediatype IMAGE
mediatype image
date 2005-08-28
creator NASA -- NASA Image Of The Day
identifier Florida_TMO_2005240
Hurricane Katrina Floods the …
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima …
Louisiana_TMO_2005247
mediatype IMAGE
mediatype image
date 2005-09-04
creator NASA -- NASA Image Of The Day
identifier Louisiana_TMO_2005247
Hurricane Ophelia: Natural H …
nasa, nasanaturalhazards
Over the second week of Sept …
ophelia_trmm_14sep05
mediatype IMAGE
mediatype image
date 2005-09-14
creator NASA -- NASA Image Of The Day
identifier ophelia_trmm_14sep05
Saharan Dust Cloud Sails Tow …
nasa, nasaimageofthedaygalle …
A huge dust cloud blown west …
PIA03539
mediatype IMAGE
mediatype image
date 2005-07-20
creator NASA -- Image courtesy NASA/GSFC/LaRC/JPL, www-misr.jpl.nasa.gov/ MISR Team
identifier PIA03539
Drought in the Southern Unit …
nasa, nasanaturalhazards
Rainfall across the United S …
usrainfallanom_trm_200601_pa …
mediatype IMAGE
mediatype image
date 2005-10-01
creator NASA -- NASA Image Of The Day
identifier usrainfallanom_trm_200601_palette
Saharan Dust Cloud Sails Tow …
PIA03539
Sol (our sun)
Multi-angle Imaging SpectroR …
Title Saharan Dust Cloud Sails Toward U.S.
Original Caption Released with Image A huge dust cloud blown westward from the Algerian desert is now wafting over the southeastern United States. The cloud, about the size of the entire continent, was expected to produce dramatic sunsets and possibly a light coating of red-brown dust on vehicles from Florida to Texas. This image, captured by JPL's Multi-angle Imaging SpectroRadiometer (MISR) aboard the NASA Earth Observing System's Terra Satellite on July 20, 2005, shows the dust cloud just off the west coast of Africa near Mauritania and Senegal. The image covers about 1,800 kilometers (1,200 miles) north-south, and 400 kilometers (260 miles) east-west. MISR, which views Earth at nine different angles in four wavelengths, can derive the amount, size and shape of airborne particles. This means it can distinguish desert dust, by far the most common non-spherical atmospheric aerosol, from pollution and forest fire particles, which are typically spherical. This image was taken by MISR's 26 degree forward-viewing camera on Terra Orbit 29724, Path 208, Blocks 69-81. The Multi-angle Imaging SpectroRadiometer [ http://www-misr.jpl.nasa.gov/ ] observes the daylit Earth continuously from pole to pole, and the entire globe about once per week. MISR was built and is managed by NASA's Jet Propulsion Laboratory, Pasadena, CA, for NASA's Office of Earth Science, Washington, DC. The Terra satellite is managed by NASA's Goddard Space Flight Center, Greenbelt, MD. JPL is a division of the California Institute of Technology.
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