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Calm before the Dust Storm
Title Calm before the Dust Storm
Description On February 3, 2004, a large dust storm swept westward off the coast of northwest Africa and, for the last two days has been fanning out to the north and west over a large portion of the eastern Atlantic Ocean. This true-color image was acquired on February 6 by the Moderate Resolution Imaging Spectroradiometer (MODIS) aboard NASA?s Terra satellite. The scene shows the West African coastline from Morocco (upper right) to Guinea Bissau (lower right). Streamers of Saharan Desert dust (tan pixels) continue to blow out from Morocco toward the Canary Islands, while the Cape Verde Islands to the south (bottom center) appear to have taken the full brunt of the dust storm. As it moved westward, the dust appears to have become entrained into a strong southerly air current, creating a vast arc of dust stretching more than 2,000 km. Notice the ?wind shadow? extending northwestward from the Cape Verde Islands. The islands formed a break against the wind, creating a clear pocket of air behind them that is itself being pulled and carried northward with the strong southerly wind. This image is also available in additional resolutions. Image courtesy Jacques Descloitres, MODIS Land Rapid Response Team [ http://rapidfire.sci.gsfc.nasa.gov/ ] at NASA GSFC
Forest Fires in Portugal
Title Forest Fires in Portugal
Description Portugal?s severe fire season isn?t over yet, with new blazes breaking out across the country at the end of the second week of September. With temperatures near 100 degrees F for several days, firefighters face a difficult challenge, particularly in the southern coastal region of Algarve, a popular tourist destination. In this Moderate Resolution Imaging Spectroradiometer (MODIS) image from September 12, 2003, a large fire was detected and is marked with red at the southwest tip of the country. A long smoke plume trails over the Atlantic from the blaze. Meanwhile, a dust storm is bringing a cloud of dust and sand northward over Morocco and the Atlantic Ocean. The high-resolution image provided above is 500 meters per pixel. The MODIS Rapid Response System provides this image at MODIS? maximum spatial resolution of 250 meters. Image courtesy Jacques Descloitres, MODIS Rapid Response Team at NASA GSFC
Dust off Morocco
Title Dust off Morocco
Description Thick streams of tan dust blow northward off the shores of Morocco into the Atlantic Ocean. West of the dust storm are the Canary Islands. The dust appears to have originated in the Western Sahara, left of the dark brown wrinkle the Atlas Mountains form in the otherwise tan landscape. The Moderate Resolution Imaging Spectroradiometer [ http://modis.gsfc.nasa.gov ] (MODIS) instrument on the Terra [ http://terra.nasa.gov/ ] satellite captured this true-color image on November 4, 2003. The high resolution image provided above is at 500 meters per pixel. The image is also available at MODIS? maximum spatial resolution of 250 meters per pixel. Image courtesy Jeff Schmaltz, MODIS Land Rapid Response Team [ http://rapidfire.sci.gsfc.nasa.gov ] at NASA GSFC
Dust Storm off Morocco
Title Dust Storm off Morocco
Description Bright yellow streamers of dust sweep off North Africa?s Moroccan coast toward the Canary Islands in this true-color Terra MODIS image from February 17, 2004. Beneath the dust, the G?Aydat al Jhoucha mountains are darker shades of brown marching toward the coast. Just off the coast of Lanzarote Island, the northeastern-most of the Canaries, gravity waves caused by the high winds driving the dust storm create dark and light stripes on the water. More gravity waves stretch from Gran Canaria, the round island toward the center of the group, toward the Moroccan coast. The high-resolution image provided above is 500 meters per pixel. The MODIS Rapid Response System provides this image at additional resolutions. Image courtesy Jacques Descloitres, MODIS Land Rapid Response Team [ http://rapidfire.sci.gsfc.nasa.gov/ ] at NASA GSFC
Dust Storm over Morocco
Title Dust Storm over Morocco
Description A plume of Saharan Desert dust (light brown pattern) can be seen blowing over Morocco and fanning out in a wide swath over the eastern Atlantic Ocean in this April 7, 2003, image from the Moderate Resolution Imaging Spectroradiometer (MODIS), flying aboard NASA's Terra satellite. The Strait of Gibralter is situated in the upper righthand corner of this scene. The famous city of Casablanca sits on the Moroccan coast roughly 300 km southwest of the Strait. Part of Morocco's picturesque Atlas Mountains can be seen in the lower righthand corner, partially hidden by clouds. The high-resolution image provided above is 500 meters per pixel. The MODIS Rapid Response System provides this image at MODIS? maximum spatial resolution of 250 meters. Image courtesy Jeff Schmaltz, MODIS Rapid Response Team at NASA GSFC
Dust Storm over Morocco and …
Title Dust Storm over Morocco and Algeria
Description On June 23, 2003, the Moderate Resolution Imaging Spectroradiometer (MODIS) on the Terra satellite captured this image of a dust storm blowing out over the Mediterranean Sea from Morocco (bottom left) and Algeria (bottom right). At top left is Spain. The northern reaches of the Sahara Desert (bottom) are blocked from the Mediterranean by the coastal Atlas Mountains. The high-resolution image provided above is 500 meters per pixel. The MODIS Rapid Response System provides this image at MODIS' maximum spatial resolution of 250 meters. Image courtesy Jeff Schmaltz, MODIS Rapid Response Team, NASA GSFC
Dust Storm over the Canary I …
Title Dust Storm over the Canary Islands
Description Saharan dust blew off the west coast of Africa and over the Canary Islands on November 11, 2006. The Moderate Resolution Imaging Spectroradiometer (MODIS) [ http://modis.gsfc.nasa.gov/ ] flying onboard NASA's Terra [ http://terra.nasa.gov/ ] satellite took this picture the same day. In this image, parallel plumes of pale beige dust blow off the coasts of Morocco and Western Sahara. The "lines" of dust are more distinct off the coast of Morocco than off the coast of Western Sahara, where the dust plumes are more amorphous. The dust from Morocco may originate from more discrete source points, separated by areas with little or no loose dust that can easily be lifted by wind. Regardless of their shape, all the plumes blow toward the northwest, and although the islands of Tenerife and Gran Canaria appear unaffected, the neighboring islands of Fuerteventura and Lanzarote are receiving a strong dose of dust. Fringing the edges of this image are fluffy white clouds. It is possible that the same weather system associated with the cloud cover in this image has produced the winds that move the dust. The Sahara Desert produces a steady supply of dust, and the Canary Islands prove frequent targets. Saharan dust often travels much farther than these islands, it often crosses the Atlantic and reaches islands in the Caribbean where it proves to be a mixed blessing. While heavy doses of dust can damage coral reefs, the same dust supplies soil to islands that would otherwise be barren rock. A 250-meter-resolution KMZ file [ http://earthobservatory.nasa.gov/Newsroom/NewImages/Images/CanaryIslands.A2006315.1115.250m.kmz ] of the dust blowing over the Canary Islands is available for use with Google Earth. [ http://earth.google.com/download-earth.html ] NASA image courtesy Jeff Schmaltz, MODIS Rapid Response Team, [ http://rapidfire.sci.gsfc.nasa.gov ] Goddard Space Flight Center
Locusts Plague Northwest and …
Title Locusts Plague Northwest and Western Africa
Description A wet winter and spring settled over northwestern Africa in 2004, and the dry Sahel bloomed with life. As the desert turned green, the plentiful water nourished more than vegetation. Buried in the sandy soils were the eggs of desert locusts, waiting to absorb moisture and hatch. This year, there was enough water and vegetation to support large populations of young locusts, and by late summer, several large swarms had developed. Swarms of locusts can contain as many as 80 million locusts per square kilometer, and may cover several square kilometers. An adult locust can eat its own weight in food every day, about two grams, which means that, according to the Food and Agriculture Organization (FAO) of the United Nations, a small part of a typical swarm can eat as much food as 2,500 people in a single day. At these rates, the locusts consume most vegetation in their path and then must migrate to find new sources of food. The locust outbreak of 2004 began in Morocco and Algeria in northwestern Africa. While the locusts can't be seen in satellite imagery, the conditions that support them are clearly visible. The above image shows how vegetation differed from previous years. The image is a composite of Normalized Difference Vegetation Index (NDVI) data collected between April 6 and April 13, 2004. Green areas indicate that there was more vegetation in the region than the average of the past four years. Not surprisingly, these areas correlate well with the early breeding grounds of the locusts near the interface between dry desert land and wetter coastal land. When their numbers and the ending growing season forced the locusts to move, they traveled south and east on the summer winds. As of October 5, the locusts had expanded to the south in a band that stretched from Mauritania to Chad?a distance of roughly 4,000 kilometers. Currently, Mauritania is the worst affected, but Senegal, Mali, Burkina Faso, Niger, Chad, and the Cape Verde Islands have also been plagued with locusts. The swarms are now starting to move north again, this time into Libya and Algeria. On October 1, three to four million hectares of land were infested with locusts. As before, satellite imagery shows where locust swarms can migrate to find food by indicating where food is available. In the lower image, a composite of data collected between August 28 and September 4, 2004, pockets of green in southern Mauritania, Senegal, Mali, and Burkina Faso show where the locusts are finding food and breeding. The most recent information from FAO shows that these are indeed the areas where the locusts are concentrated. Though the locusts themselves are harmless, they can cause significant crop damage. The worst of the problem is in Mauritania, where dark clouds of locusts have swarmed over much of the country. Rainfall had been good, and farmers anticipated a better-than-average harvest until the locusts arrived. Mauritania?s national food security authority expected to lose up to 75, percent of the cereal crop, though the Food and Agriculture Oragnization (FOA) of the United Nations expected a smaller loss. Undoubtedly, the insects are causing considerable damage, but both the Foreign Agricultural Service [ http://www.fas.usda.gov/pecad/highlights/2004/08/west_africa/index.htm ] of the United States Department of Agriculture and the FAO say that it?s too early to quantify how the outbreak will impact overall production. Harvest began in September and continues through November, and the amount of crops that the locusts consume in the meantime will depend on how effective efforts to control them are and whether or not the locusts continue to breed. To read more about the current locust situation in Africa, please visit the Desert Locust Information Service [ http://www.fao.org/news/global/locusts/locuhome.htm ], a service provided by the Food and Agriculture Organization of the United Nations. For more information about monitoring locust outbreaks with satellites, see Locust! [ http://earthobservatory.nasa.gov/Study/Locusts/ ] NASA image created by Jesse Allen, Earth Observatory, using data provided by Mark Carrol as part of the Global Agricultural Monitoring Project between NASA, USDA?s Foreign Agricultural Service (FAS), and the University of Maryland. Assaf Anyamba from the Goddard Earth Sciences Technology Center, and Curt Reynolds with FAS, contributed to the caption as part of the same partnership. More data and information about this joint project is available at Satellite Information for Agricultural Monitoring.
Locusts Plague Northwest and …
Title Locusts Plague Northwest and Western Africa
Description A wet winter and spring settled over northwestern Africa in 2004, and the dry Sahel bloomed with life. As the desert turned green, the plentiful water nourished more than vegetation. Buried in the sandy soils were the eggs of desert locusts, waiting to absorb moisture and hatch. This year, there was enough water and vegetation to support large populations of young locusts, and by late summer, several large swarms had developed. Swarms of locusts can contain as many as 80 million locusts per square kilometer, and may cover several square kilometers. An adult locust can eat its own weight in food every day, about two grams, which means that, according to the Food and Agriculture Organization (FAO) of the United Nations, a small part of a typical swarm can eat as much food as 2,500 people in a single day. At these rates, the locusts consume most vegetation in their path and then must migrate to find new sources of food. The locust outbreak of 2004 began in Morocco and Algeria in northwestern Africa. While the locusts can't be seen in satellite imagery, the conditions that support them are clearly visible. The above image shows how vegetation differed from previous years. The image is a composite of Normalized Difference Vegetation Index (NDVI) data collected between April 6 and April 13, 2004. Green areas indicate that there was more vegetation in the region than the average of the past four years. Not surprisingly, these areas correlate well with the early breeding grounds of the locusts near the interface between dry desert land and wetter coastal land. When their numbers and the ending growing season forced the locusts to move, they traveled south and east on the summer winds. As of October 5, the locusts had expanded to the south in a band that stretched from Mauritania to Chad?a distance of roughly 4,000 kilometers. Currently, Mauritania is the worst affected, but Senegal, Mali, Burkina Faso, Niger, Chad, and the Cape Verde Islands have also been plagued with locusts. The swarms are now starting to move north again, this time into Libya and Algeria. On October 1, three to four million hectares of land were infested with locusts. As before, satellite imagery shows where locust swarms can migrate to find food by indicating where food is available. In the lower image, a composite of data collected between August 28 and September 4, 2004, pockets of green in southern Mauritania, Senegal, Mali, and Burkina Faso show where the locusts are finding food and breeding. The most recent information from FAO shows that these are indeed the areas where the locusts are concentrated. Though the locusts themselves are harmless, they can cause significant crop damage. The worst of the problem is in Mauritania, where dark clouds of locusts have swarmed over much of the country. Rainfall had been good, and farmers anticipated a better-than-average harvest until the locusts arrived. Mauritania?s national food security authority expected to lose up to 75, percent of the cereal crop, though the Food and Agriculture Oragnization (FOA) of the United Nations expected a smaller loss. Undoubtedly, the insects are causing considerable damage, but both the Foreign Agricultural Service [ http://www.fas.usda.gov/pecad/highlights/2004/08/west_africa/index.htm ] of the United States Department of Agriculture and the FAO say that it?s too early to quantify how the outbreak will impact overall production. Harvest began in September and continues through November, and the amount of crops that the locusts consume in the meantime will depend on how effective efforts to control them are and whether or not the locusts continue to breed. To read more about the current locust situation in Africa, please visit the Desert Locust Information Service [ http://www.fao.org/news/global/locusts/locuhome.htm ], a service provided by the Food and Agriculture Organization of the United Nations. For more information about monitoring locust outbreaks with satellites, see Locust! [ http://earthobservatory.nasa.gov/Study/Locusts/ ] NASA image created by Jesse Allen, Earth Observatory, using data provided by Mark Carrol as part of the Global Agricultural Monitoring Project between NASA, USDA?s Foreign Agricultural Service (FAS), and the University of Maryland. Assaf Anyamba from the Goddard Earth Sciences Technology Center, and Curt Reynolds with FAS, contributed to the caption as part of the same partnership. More data and information about this joint project is available at Satellite Information for Agricultural Monitoring.
Locusts Plague Northwest and …
Title Locusts Plague Northwest and Western Africa
Description A wet winter and spring settled over northwestern Africa in 2004, and the dry Sahel bloomed with life. As the desert turned green, the plentiful water nourished more than vegetation. Buried in the sandy soils were the eggs of desert locusts, waiting to absorb moisture and hatch. This year, there was enough water and vegetation to support large populations of young locusts, and by late summer, several large swarms had developed. Swarms of locusts can contain as many as 80 million locusts per square kilometer, and may cover several square kilometers. An adult locust can eat its own weight in food every day, about two grams, which means that, according to the Food and Agriculture Organization (FAO) of the United Nations, a small part of a typical swarm can eat as much food as 2,500 people in a single day. At these rates, the locusts consume most vegetation in their path and then must migrate to find new sources of food. The locust outbreak of 2004 began in Morocco and Algeria in northwestern Africa. While the locusts can't be seen in satellite imagery, the conditions that support them are clearly visible. The above image shows how vegetation differed from previous years. The image is a composite of Normalized Difference Vegetation Index (NDVI) data collected between April 6 and April 13, 2004. Green areas indicate that there was more vegetation in the region than the average of the past four years. Not surprisingly, these areas correlate well with the early breeding grounds of the locusts near the interface between dry desert land and wetter coastal land. When their numbers and the ending growing season forced the locusts to move, they traveled south and east on the summer winds. As of October 5, the locusts had expanded to the south in a band that stretched from Mauritania to Chad?a distance of roughly 4,000 kilometers. Currently, Mauritania is the worst affected, but Senegal, Mali, Burkina Faso, Niger, Chad, and the Cape Verde Islands have also been plagued with locusts. The swarms are now starting to move north again, this time into Libya and Algeria. On October 1, three to four million hectares of land were infested with locusts. As before, satellite imagery shows where locust swarms can migrate to find food by indicating where food is available. In the lower image, a composite of data collected between August 28 and September 4, 2004, pockets of green in southern Mauritania, Senegal, Mali, and Burkina Faso show where the locusts are finding food and breeding. The most recent information from FAO shows that these are indeed the areas where the locusts are concentrated. Though the locusts themselves are harmless, they can cause significant crop damage. The worst of the problem is in Mauritania, where dark clouds of locusts have swarmed over much of the country. Rainfall had been good, and farmers anticipated a better-than-average harvest until the locusts arrived. Mauritania?s national food security authority expected to lose up to 75, percent of the cereal crop, though the Food and Agriculture Oragnization (FOA) of the United Nations expected a smaller loss. Undoubtedly, the insects are causing considerable damage, but both the Foreign Agricultural Service [ http://www.fas.usda.gov/pecad/highlights/2004/08/west_africa/index.htm ] of the United States Department of Agriculture and the FAO say that it?s too early to quantify how the outbreak will impact overall production. Harvest began in September and continues through November, and the amount of crops that the locusts consume in the meantime will depend on how effective efforts to control them are and whether or not the locusts continue to breed. To read more about the current locust situation in Africa, please visit the Desert Locust Information Service [ http://www.fao.org/news/global/locusts/locuhome.htm ], a service provided by the Food and Agriculture Organization of the United Nations. For more information about monitoring locust outbreaks with satellites, see Locust! [ http://earthobservatory.nasa.gov/Study/Locusts/ ] NASA image created by Jesse Allen, Earth Observatory, using data provided by Mark Carrol as part of the Global Agricultural Monitoring Project between NASA, USDA?s Foreign Agricultural Service (FAS), and the University of Maryland. Assaf Anyamba from the Goddard Earth Sciences Technology Center, and Curt Reynolds with FAS, contributed to the caption as part of the same partnership. More data and information about this joint project is available at Satellite Information for Agricultural Monitoring.
Saharan Dust Across West Afr …
Title Saharan Dust Across West Africa
Description A wall of Saharan dust that was captured in an image from March 3, 2004, had billowed out over the Atlantic and begun to spread northward by the next day. This image of the massive plume of dust was captured by the Moderate Resolution Imaging Spectroradiometer (MODIS) on the Terra satellite on March 4, 2004. Countries pictured are (top to bottom) Morocco, Western Sahara, Mauritania, Senegal (left), and Mali (right). At bottom left are the Cape Verde Islands, and west of Morocco are the Canary Islands, veiled by the blowing dust. The high-resolution image provided above is 1 kilometer per pixel. The MODIS Rapid Response System provides this image at additional resolutions. Image courtesy Jeff Schmaltz, MODIS Rapid Response Team, NASA-GSFC
Saharan Dust off West Africa
Title Saharan Dust off West Africa
Description An intense African dust storm sent a massive dust plume northwestward over the Atlantic Ocean on March 2, 2003. In this true-color scene, acquired by the Moderate Resolution Imaging Spectroradiometer (MODIS) aboard NASA's Terra satellite, the thick dust plume (light brown) can be seen blowing westward and then routed northward by strong southerly winds. The plume extends more than 1,000 miles (1,600 km), covering a vast swath of ocean extending from the Cape Verde Islands (lower lef), off the coast of Senegal, to the Canary Islands (top center) off the coast of Morocco. The high-resolution image provided above is 500 meters per pixel. The MODIS Rapid Response System provides this image at MODIS' maximum spatial resolution of 250 meters. Image courtesy Jacques Descloitres, MODIS Rapid Response Team, NASA GSFC
Saharan Dust Sweeps Past Can …
nasa, nasaimageofthedaygalle …
A wall of Saharan Desert dus …
Canary_tmo_2004064
mediatype IMAGE
mediatype image
date 2004-03-04
creator NASA -- Image courtesy Jeff Schmaltz, rapidfire.sci.gsfc.nasa.gov/ MODIS Land Rapid Response Team at NASA GSFC
identifier Canary_tmo_2004064
Dust Storm off the African W …
nasa, nasanaturalhazards
A plume blew off the west co …
wafrica_tmo_2008095
mediatype IMAGE
mediatype image
date 2008-04-04
creator NASA -- NASA Image Of The Day
identifier wafrica_tmo_2008095
Saharan Dust off West Africa …
nasa, nasaimageofthedaygalle …
An intense African dust stor …
WAfrica_TMO2003061
mediatype IMAGE
mediatype image
date 2003-03-02
creator NASA -- Image courtesy Jacques Descloitres, rapidfire.sci.gsfc.nasa.gov MODIS Rapid Response Team, NASA GSFC
identifier WAfrica_TMO2003061
Dust Storm off Western Sahar …
nasa, nasanaturalhazards
Dust plumes blew off the coa …
nafricadust_tmo_2008020
mediatype IMAGE
mediatype image
date 2008-01-20
creator NASA -- NASA Image Of The Day
identifier nafricadust_tmo_2008020
Morocco's Anti-Atlas Mountai …
nasa, nasaimageofthedaygalle …
The Anti-Atlas Mountains of …
Atlas_TAS20010613
mediatype IMAGE
mediatype image
date 2001-06-13
creator NASA -- Image courtesy NASA/GSFC/METI/ERSDAC/JAROS, and U.S./Japan asterweb.jpl.nasa.gov/ ASTER Science Team
identifier Atlas_TAS20010613
Cloud Whirlpool over the Alb …
nasa, nasaimageofthedaygalle …
This true-color image shows …
aster_whirl_artII
mediatype IMAGE
mediatype image
date 2002-08-21
creator NASA -- Image provided by the edc.usgs.gov/ USGS EROS Data Center Satellite Systems Branch as part of the Earth as Art II image series.
identifier aster_whirl_artII
Dust Storm over Morocco: Nat …
nasa, nasanaturalhazards
A plume of Saharan Desert du …
Morocco_TMO2003097
mediatype IMAGE
mediatype image
date 2003-04-07
creator NASA -- NASA Image Of The Day
identifier Morocco_TMO2003097
Calm before the Dust Storm: …
nasa, nasanaturalhazards
On February 3, 2004, a large …
WAfrica_TMO2004037
mediatype IMAGE
mediatype image
date 2004-02-06
creator NASA -- NASA Image Of The Day
identifier WAfrica_TMO2004037
Dust Storm over Morocco and …
nasa, nasanaturalhazards
On June 23, 2003, the modis. …
NorthAfrica.TMOA2003174
mediatype IMAGE
mediatype image
date 2003-06-23
creator NASA -- NASA Image Of The Day
identifier NorthAfrica.TMOA2003174
West Africa : Image of the D …
nasa, nasaimageofthedaygalle …
With its vast expanses of sa …
west_africa
mediatype IMAGE
mediatype image
date 2001
creator NASA -- Image by Reto Stöckli, Robert Simmon, and Brian Montgomery, NASA Earth Observatory, based on data from modarch.gsfc.nasa.gov/ MODIS
identifier west_africa
Saharan Dust Across West Afr …
nasa, nasanaturalhazards
A wall of Saharan dust that …
Canary.TMOA2004064
mediatype IMAGE
mediatype image
date 2004-03-04
creator NASA -- NASA Image Of The Day
identifier Canary.TMOA2004064
Dust over the Canary Islands …
nasa, nasaimageofthedaygalle …
Saharan dust blew off the we …
canarydust_tmo_2006315
mediatype IMAGE
mediatype image
date 2006-11-11
creator NASA -- NASA image courtesy Jeff Schmaltz, rapidfire.sci.gsfc.nasa.gov MODIS Rapid Response Team, Goddard Space Flight Center
identifier canarydust_tmo_2006315
Where Europe meets Africa: I …
nasa, nasaimageofthedaygalle …
This natural-color satellite …
PIA04376
mediatype IMAGE
mediatype image
date 2002
creator NASA -- Image courtesy NASA/GSFC/LaRC/JPL, www-misr.jpl.nasa.gov/ MISR Team. Jim Knighton ( jknighton@clear-light.com jknighton@clear-light.com ) of Clear Light Image Products produced the image mosaic. Please note that the image shown here is at a pixel resolution of approximately 1.1 kilometers, but a more detailed version at a resolution of 278 meters is available from the producer. Text by Clare Averill (Raytheon ITSS / Jet Propulsion Laboratory).
identifier PIA04376
Topography of Western Algeri …
nasa, nasaimageofthedaygalle …
The margin of northwestern A …
ge_07946
mediatype IMAGE
mediatype image
date 2005-10-25
creator NASA -- Image by Robert Simmon based on data from the NASA/GSFC/METI/ERSDAC/JAROS, and U.S./Japan asterweb.jpl.nasa.gov/ ASTER Science Team
identifier ge_07946
Topography of Western Algeri …
nasa, nasaimageofthedaygalle …
The margin of northwestern A …
ge_07946
mediatype IMAGE
mediatype image
date 2005-10-25
creator NASA -- Image by Robert Simmon based on data from the NASA/GSFC/METI/ERSDAC/JAROS, and U.S./Japan asterweb.jpl.nasa.gov/ ASTER Science Team
identifier ge_07946
Flooding in Southern Algeria …
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima …
algeria_TMO_2006046
mediatype IMAGE
mediatype image
date February 15, 2006
creator NASA -- NASA Image Of The Day
identifier algeria_TMO_2006046
Dust Storm off Morocco: Natu …
nasa, nasanaturalhazards
Bright yellow streamers of d …
Canary.TMOA2004048
mediatype IMAGE
mediatype image
date 2004-02-17
creator NASA -- NASA Image Of The Day
identifier Canary.TMOA2004048
Morocco : Image of the Day
nasa, nasaimageofthedaygalle …
This true-color image over M …
modis_morocco
mediatype IMAGE
mediatype image
date 2000-04-23
creator NASA -- Image courtesy Jacques Descloitres, MODIS Land Group, NASA GSFC
identifier modis_morocco
ASTER Gibraltar
PIA02657
Sol (our sun)
ASTER
Title ASTER Gibraltar
Original Caption Released with Image The Strait of Gibraltar separates Spain from Morocco. This image, acquired on July 5, 2000, covers an area 34 kilometers (21 miles) wide and 59 kilometers (37 miles) long in three bands of the reflected visible and infrared wavelength region. The promontory on the eastern side of the conspicuous Spanish port is the Rock of Gibraltar. Once one of the two classical Pillars of Hercules, the Rock was crowned with silver columns by Phoenician mariners to mark the limits of safe navigation for the ancient Mediterranean peoples. The rocky promontory still commands the western entrance to the Mediterranean Sea. The rocky limestone and shale ridge rises abruptly from the sea, to a maximum elevation of 426 meters (1,398 feet). A British colony, Gibraltar occupies a narrow strip of land at the southernmost tip of the Iberian Peninsula. It is separated from the Spanish mainland by a neutral zone contained on a narrow, sandy isthmus. Because of its strategic location and formidable topography, Gibraltar serves mainly as a British fortress. Most of its sparse land is taken up by air and naval installations, and the civilian population is small. Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) is one of five Earth-observing instruments launched December 18, 1999, on NASA's Terra satellite. The instrument was built by Japan's Ministry of International Trade and Industry. A joint U.S./Japan science team is responsible for validation and calibration of the instrument and the data products. Dr. Anne Kahle at NASA's Jet Propulsion Laboratory, Pasadena, California, is the U.S. science team leader, Moshe Pniel of JPL is the project manager. ASTER is the only high-resolution imaging sensor on Terra. The primary goal of the ASTER mission is to obtain high-resolution image data in 14 channels over the entire land surface, as well as black and white stereo images. With revisit time of between 4 and 16 days, ASTER will provide the capability for repeat coverage of changing areas on Earth's surface. Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) is one of five Earth-observing instruments launched December 18, 1999, on NASA's Terra satellite. The instrument was built by Japan's Ministry of International Trade and Industry. A joint U.S./Japan science team is responsible for validation and calibration of the instrument and the data products. Dr. Anne Kahle at NASA's Jet Propulsion Laboratory, Pasadena, California, is the U.S. science team leader, Moshe Pniel of JPL is the project manager. ASTER is the only high-resolution imaging sensor on Terra. The primary goal of the ASTER mission is to obtain high-resolution image data in 14 channels over the entire land surface, as well as black and white stereo images. With revisit time of between 4 and 16 days, ASTER will provide the capability for repeat coverage of changing areas on Earth's surface. The broad spectral coverage and high spectral resolution of ASTER will provide scientists, in numerous disciplines with critical information for surface mapping and monitoring dynamic conditions and temporal change. Examples of applications include monitoring glacial advances and retreats, potentially active volcanoes, thermal pollution, and coral reef degradation, identifying crop stress, determining cloud morphology and physical properties, evaluating wetlands, mapping surface temperature of soils and geology, and measuring surface heat balance.
Where Europe meets Africa
PIA04376
Sol (our sun)
Multi-angle Imaging SpectroR …
Title Where Europe meets Africa
Original Caption Released with Image Data from a portion of the imagery acquired by the Multi-angle Imaging SpectroRadiometer's vertical-viewing (nadir) camera during 2000-2002 were combined to create this cloud-free natural-color mosaic of southwestern Europe and northwestern Morocco and Algeria. The image extends from 48°N, 16°W in the northwest to 32°N, 8°E in the southeast. It is displayed in Albers conic equal-area projection (a projection which is frequently used for equal-area maps of regions that are predominantly east-west in extent). From the northeast, the image traverses a portion of the Swiss Alps (partially snow-covered) and a small part of Italy's Po Valley. The northern portion of the image also includes the western coast of France and much of southern and southwestern France's undulating terrain, which continues until reaching the hills of the Pyrenees. The Pyrenees act as the natural frontier to the Iberian Peninsula -- a landmass comprised of Spain and Portugal. The Peninsular landscapes are extremely varied, with some almost desert-like, others green and fertile. About half of Spain is situated atop a high plain, known as the Central Plateau, and many mountain ranges, rivers, geological basement rock and vegetation types are found across this great plateau. The largest alluvial plain is Andalusia in the south, where the valley of the Guadalquivir River is shut in by mountain ranges on every side except the southwest, where the valley descends to the Atlantic. The islands of Mallorca, Menorca and Ibiza are Spanish territories in the western Mediterranean. At the Strait of Gibralter, Spain and Morocco very nearly kiss, and Morocco appears relatively verdant along its northern coastal corner. The rugged Atlas Mountain ranges traverse northern Algeria and Morocco. The Multi-angle Imaging SpectroRadiometer observes the daylit Earth continuously from pole to pole, and every 9 days views the entire globe between 82 degrees north and 82 degrees south latitude. This data product was generated from a portion of the imagery acquired during 2000-2002. 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.
Anti-Atlas Mountains, Morocc …
PIA03893
Sol (our sun)
ASTER
Title Anti-Atlas Mountains, Morocco
Original Caption Released with Image The Anti-Atlas Mountains of Morocco formed as a result of the collision of the African and Eurasian tectonic plates about 80 million years ago. This collision destroyed the Tethys Ocean, the limestone, sandstone, claystone, and gypsum layers that formed the ocean bed were folded and crumpled to create the Atlas and Anti-Atlas Mountains. In this ASTER image, short wavelength infrared bands are combined to dramatically highlight the different rock types, and illustrate the complex folding. The yellowish, orange and green areas are limestones, sandstones and gypsum, the dark blue and green areas are underlying granitic rocks. The ability to map geology using ASTER data is enhanced by the multiple short wavelength infrared bands, that are sensitive to differences in rock mineralogy. This image was acquired on June 13, 2001 by the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on NASA's Terra satellite. With its 14 spectral bands from the visible to the thermal infrared wavelength region, and its high spatial resolution of 15 to 90 meters (about 50 to 300 feet), ASTER images Earth to map and monitor the changing surface of our planet. ASTER is one of five Earth-observing instruments launched December 18, 1999, on NASA's Terra satellite. The instrument was built by Japan's Ministry of Economy, Trade and Industry. A joint U.S./Japan science team is responsible for validation and calibration of the instrument and the data products. The broad spectral coverage and high spectral resolution of ASTER will provide scientists in numerous disciplines with critical information for surface mapping, and monitoring of dynamic conditions and temporal change. Example applications are: monitoring glacial advances and retreats, monitoring potentially active volcanoes, identifying crop stress, determining cloud morphology and physical properties, wetlands evaluation, thermal pollution monitoring, coral reef degradation, surface temperature mapping of soils and geology, and measuring surface heat balance. Dr. Anne Kahle at NASA's Jet Propulsion Laboratory, Pasadena, California, is the U.S. Science team leader, Bjorn Eng of JPL is the project manager. The Terra mission is part of NASA's Earth Science Enterprise, a long- term research effort to understand and protect our home planet. Through the study of Earth, NASA will help to provide sound science to policy and economic decision-makers so as to better life here, while developing the technologies needed to explore the universe and search for life beyond our home planet. Size: 28.7 x 29.4 km (17.8 x 18.2 miles) Location: 29.4 deg. North lat., 8.9 deg. West long. Orientation: North at top Image Data: ASTER bands 4,6 and 8. Original Data Resolution: 30 m Date Acquired: June 13, 2001
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