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Earthquake Spawns Tsunamis
| Title |
Earthquake Spawns Tsunamis |
| Description |
*Earthquake Spawns Tsunamis*, Nearly three weeks after an earthquake triggered the deadly Indian Ocean tsunami on December 26, 2004, satellite analysis continues to illustrate the magnitude of the disaster. This pair of ASTER images contrasts before and after views of a portion of the western coastline of Thailand in the Phang-Nga province, about 50 kilometers north of the island of Phuket. In these images, vegetation is dark red, while bare earth is grey. On December 31, five days after the waves swept ashore, large sections of the shoreline are grey, stripped of vegetation or covered in mud and sand. Water has broken through several places along the northern beach. Tiny fingers of blue water slice into the land where no inlet existed in the image on the right. Like Phuket, this region of coastline is a tourist mecca, and beachfront on the Andaman Sea (left edge of both images) is dotted with golf courses, resorts, and other tourist-centered development, as well as national marine and terrestrial parks, including the Khao Lak-lam Ru National Park. Most of the land in the park is found in the mountainous region away from the shore, just to the south of the center of the images. However, the park?s terrain also includes the forest-covered cape that extends westward into the Andaman Sea. The image acquired before the tsunami is actually a composite of two separate ASTER images. The left third of the image was acquired on November 15, 2002, while the right two-thirds of the image was taken on February 28, 2003. Neither scene covered the same area as the December 31 image, but by combining the two, a comparison image can be made. The comparison shows an interesting pattern of damage along the coast. It is the long, smoothly curving beaches that have been devastated by the tsunami, not the land that juts into the ocean. Several factors probably contributed to this pattern. First, elevation is certainly a factor. The headland in the center of the image is probably a high rocky point that would not be easily inundated by a large wave. The wrinkle of inland mountains appears to curve out to the coast between the two damaged beaches. The beaches, on the other hand, probably have a low elevation that gently slopes toward the ocean, allowing any water that comes ashore to sweep further inland. Second, the headland itself may have contributed to the damage on its flanks. Waves approaching the point would tend to be diffracted, or broken up, sending additional energy into the beaches on either side of the point. This would amplify the waves along the beaches. By the same principle, the concave shape of the beach to the south focuses wave energy and wave run-up. Another contributing factor to the pattern of damage seen here is ocean bathymetry, the shape and depth of the ocean floor. Tsunami height and run-out (the horizontal distance the wave travels) are larger where the ocean floor has a gentle slope. Rocky coastlines that drop into deep ocean are not as affected. Finally,, vegetation patterns may have altered the type of damage the wave created when it came ashore. The forested cape appears to be untouched, possibly because the trees served as a break. The developed beach land probably had less dense vegetation to cushion the wave?s impact. NASA images created by Jesse Allen, Earth Observatory, using data provided courtesy NASA/GSFC/METI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team. Image interpretation courtesy Tim Gubbels, SSAI. |
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Earthquake Spawns Tsunamis
| Title |
Earthquake Spawns Tsunamis |
| Description |
*Earthquake Spawns Tsunamis*, Nearly three weeks after an earthquake triggered the deadly Indian Ocean tsunami on December 26, 2004, satellite analysis continues to illustrate the magnitude of the disaster. This pair of ASTER images contrasts before and after views of a portion of the western coastline of Thailand in the Phang-Nga province, about 50 kilometers north of the island of Phuket. In these images, vegetation is dark red, while bare earth is grey. On December 31, five days after the waves swept ashore, large sections of the shoreline are grey, stripped of vegetation or covered in mud and sand. Water has broken through several places along the northern beach. Tiny fingers of blue water slice into the land where no inlet existed in the image on the right. Like Phuket, this region of coastline is a tourist mecca, and beachfront on the Andaman Sea (left edge of both images) is dotted with golf courses, resorts, and other tourist-centered development, as well as national marine and terrestrial parks, including the Khao Lak-lam Ru National Park. Most of the land in the park is found in the mountainous region away from the shore, just to the south of the center of the images. However, the park?s terrain also includes the forest-covered cape that extends westward into the Andaman Sea. The image acquired before the tsunami is actually a composite of two separate ASTER images. The left third of the image was acquired on November 15, 2002, while the right two-thirds of the image was taken on February 28, 2003. Neither scene covered the same area as the December 31 image, but by combining the two, a comparison image can be made. The comparison shows an interesting pattern of damage along the coast. It is the long, smoothly curving beaches that have been devastated by the tsunami, not the land that juts into the ocean. Several factors probably contributed to this pattern. First, elevation is certainly a factor. The headland in the center of the image is probably a high rocky point that would not be easily inundated by a large wave. The wrinkle of inland mountains appears to curve out to the coast between the two damaged beaches. The beaches, on the other hand, probably have a low elevation that gently slopes toward the ocean, allowing any water that comes ashore to sweep further inland. Second, the headland itself may have contributed to the damage on its flanks. Waves approaching the point would tend to be diffracted, or broken up, sending additional energy into the beaches on either side of the point. This would amplify the waves along the beaches. By the same principle, the concave shape of the beach to the south focuses wave energy and wave run-up. Another contributing factor to the pattern of damage seen here is ocean bathymetry, the shape and depth of the ocean floor. Tsunami height and run-out (the horizontal distance the wave travels) are larger where the ocean floor has a gentle slope. Rocky coastlines that drop into deep ocean are not as affected. Finally,, vegetation patterns may have altered the type of damage the wave created when it came ashore. The forested cape appears to be untouched, possibly because the trees served as a break. The developed beach land probably had less dense vegetation to cushion the wave?s impact. NASA images created by Jesse Allen, Earth Observatory, using data provided courtesy NASA/GSFC/METI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team. Image interpretation courtesy Tim Gubbels, SSAI. |
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North Reef Island, Andaman S
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| Title |
North Reef Island, Andaman Sea |
| Description |
On December 26, 2004, one of the largest earthquakes in recorded history struck offshore of the island of Sumatra, Indonesia. The ocean floor heaved in some places and sank in others, creating catastrophic tsunamis that raced across the Indian Ocean. Hundreds of thousands of people died as the waves struck coastlines from Thailand to Sri Lanka to Somalia. In addition to tsunami damage, satellite images of reefs, islands, and coastlines identified signs of permanent elevation changesinking or upliftalong the fault between the Indo-Australia and Burma plates. [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12640 ] In places such as North Reef Island, shown in this pair of images from the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) [ http://asterweb.jpl.nasa.gov ] on NASA's Terra [ http://terra.nasa.gov ] satellite, the quake lifted the reefs permanently out of the water. The images use visible and infrared light detected by ASTER to make different land surfaces stand out clearly from one another: water is blue, vegetation is red, coral or bare sand appears white. In the "before" image, from December 2, 2004, the submerged reef creates a bright blue glow around the island. In the "after" image, from February 4, 2005, the white coral stands completely up out of the water. It is even tinged with red, which suggests the exposed coral had died, and algae had colonized it. In the weeks and months after the earthquake, satellite images provided broad coverage of an area where ground-based observations were initially very limited. A team of scientists led by Caltech Ph.D. geology student Aron Meltzner discovered changes in elevation along nearly 1,600 kilometers (994 miles) of the tectonic plate boundary. The images revealed that the earthquake rupture extended 100 kilometers (62 miles) farther north than estimates based on seismic and Global Positioning System (GPS) data suggested. The feature article Rise and Fall: Satellites Reveal Full Length of Tsunami-Generating Earthquake [ http://earthobservatory.nasa.gov/Study/Aceh/aceh.html ] describes how scientists used satellite images to map the length of the earthquake rupture zone. The article includes additional satellite and ground-based images of elevation changes resulting from the 2004 Aceh-Andaman earthquake. NASA images created by Jesse Allen, Earth Observatory, using data provided courtesy of the NASA/GSFC/MITI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team. [ http://asterweb.jpl.nasa.gov/ ] |
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North Reef Island, Andaman S
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| Title |
North Reef Island, Andaman Sea |
| Description |
On December 26, 2004, one of the largest earthquakes in recorded history struck offshore of the island of Sumatra, Indonesia. The ocean floor heaved in some places and sank in others, creating catastrophic tsunamis that raced across the Indian Ocean. Hundreds of thousands of people died as the waves struck coastlines from Thailand to Sri Lanka to Somalia. In addition to tsunami damage, satellite images of reefs, islands, and coastlines identified signs of permanent elevation changesinking or upliftalong the fault between the Indo-Australia and Burma plates. [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12640 ] In places such as North Reef Island, shown in this pair of images from the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) [ http://asterweb.jpl.nasa.gov ] on NASA's Terra [ http://terra.nasa.gov ] satellite, the quake lifted the reefs permanently out of the water. The images use visible and infrared light detected by ASTER to make different land surfaces stand out clearly from one another: water is blue, vegetation is red, coral or bare sand appears white. In the "before" image, from December 2, 2004, the submerged reef creates a bright blue glow around the island. In the "after" image, from February 4, 2005, the white coral stands completely up out of the water. It is even tinged with red, which suggests the exposed coral had died, and algae had colonized it. In the weeks and months after the earthquake, satellite images provided broad coverage of an area where ground-based observations were initially very limited. A team of scientists led by Caltech Ph.D. geology student Aron Meltzner discovered changes in elevation along nearly 1,600 kilometers (994 miles) of the tectonic plate boundary. The images revealed that the earthquake rupture extended 100 kilometers (62 miles) farther north than estimates based on seismic and Global Positioning System (GPS) data suggested. The feature article Rise and Fall: Satellites Reveal Full Length of Tsunami-Generating Earthquake [ http://earthobservatory.nasa.gov/Study/Aceh/aceh.html ] describes how scientists used satellite images to map the length of the earthquake rupture zone. The article includes additional satellite and ground-based images of elevation changes resulting from the 2004 Aceh-Andaman earthquake. NASA images created by Jesse Allen, Earth Observatory, using data provided courtesy of the NASA/GSFC/MITI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team. [ http://asterweb.jpl.nasa.gov/ ] |
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Fires in Southeast Asia
| Title |
Fires in Southeast Asia |
| Description |
Scores of fires were burning across Southeast Asia on March 9, 2005, when the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA's Aqua [ http://aqua.nasa.gov ] satellite captured this image. Active fires detected by MODIS have been marked with red dots. The agricultural burning season is a time of increased haze across the region. In this image, haze is widespread, giving the whole scene a softened look. An especially thick area of smoke runs diagonally through the center of the scene, dirtying the clouds at upper right and spreading over the Andaman Sea at lower left. NASA image created by Jesse Allen, Earth Observatory, using data obtained courtsey of the MODIS Rapid Response team. |
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Fires in Southeast Asia: Nat
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nasa, nasanaturalhazards
Scores of fires were burning
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seasia_amo_09mar05
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-03-09 |
| creator |
NASA -- NASA Image Of The Day |
| identifier |
seasia_amo_09mar05 |
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North Reef Island, Andaman S
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nasa, nasaimageofthedaygalle
…
On December 26, 2004, one of
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nreefis_ast_2005035
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-02-04 |
| creator |
NASA -- NASA images created by Jesse Allen, Earth Observatory, using data provided courtesy of the NASA/GSFC/MITI/ERSDAC/JAROS, and U.S./Japan asterweb.jpl.nasa.gov/ ASTER Science Team. |
| identifier |
nreefis_ast_2005035 |
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Tsunami Damage in Thailand:
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nasa, nasaimageofthedaygalle
…
* eoimages.gsfc.nasa.gov/ima
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aster_thailand_31dec04
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2004-12-31 |
| creator |
NASA -- NASA images created by Jesse Allen, Earth Observatory, using data provided courtesy NASA/GSFC/METI/ERSDAC/JAROS, and U.S./Japan asterweb.jpl.nasa.gov/ ASTER Science Team. Image interpretation courtesy Tim Gubbels, SSAI. |
| identifier |
aster_thailand_31dec04 |
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| General Description |
STS-68 Shuttle Mission Imagery |
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Barren Island west of Malays
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| Title |
Barren Island west of Malaysia as seen from STS-67 Endeavour |
| Description |
Barren Island, a small volcanic island which is part of the Andaman Island group in the Andaman Sea west of Malaysia, began a new eruptive phase late in 1994. The STS-67 crew noticed the volcanic plume early in their flight, and had several opportunities to document the on-going eruption. This view, taken March 14, 1995, shows a healthy volcanic plume rising several thousand feet into the atmosphere. The main plume drifts westward over Andaman Island, although a smaller plume close to the ground is being dispersed to the south. |
| Date Taken |
1995-03-14 |
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Sunglint over Andaman Sea as
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| Title |
Sunglint over Andaman Sea as seen from STS-67 Endeavour |
| Description |
Sunlight is reflecting off the ocean surface around the islands of Ritchie's Archipelago in the Andaman Sea. In the sunglint we can see the southward moving current moving past the archipelago. The current flow is visible in the Space Shuttle photography because of surface oils, both biological and man-introduced. The oils are carried by the currents and thus take the form of the flow. Oils smooth out the surface capillary waves and create a smoother surface. The smoother surfaces reflect more sunlight and appear brighter. The darker areas are due to winds ruffling the sea suface resulting in less sunlight being reflected. |
| Date Taken |
1995-03-15 |
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