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Browse All : Images of Haiti from 2004

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A Fixed View of Hurricane Je …
Title A Fixed View of Hurricane Jeanne's Progression
Abstract After days of hammering Haiti, Hurricane Jeanne heads towards the United States.
Completed 2004-09-24
A Fixed View of Hurricane Je …
Title A Fixed View of Hurricane Jeanne's Progression
Abstract After days of hammering Haiti, Hurricane Jeanne heads towards the United States.
Completed 2004-09-24
Hurricane Jeanne on Septembe …
Title Hurricane Jeanne on September 23, 2004
Abstract After days of hammering Haiti, Hurricane Jeanne heads toward the United States.
Completed 2004-09-24
Hurricane Jeanne on Septembe …
Title Hurricane Jeanne on September 23, 2004
Abstract After days of hammering Haiti, Hurricane Jeanne heads toward the United States.
Completed 2004-09-24
Hurricane Dennis
Title Hurricane Dennis
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-11
Hurricane Dennis
Title Hurricane Dennis
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-11
Hurricane Dennis
Title Hurricane Dennis
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-11
Hurricane Dennis
Title Hurricane Dennis
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-11
Hurricane Dennis
Title Hurricane Dennis
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-11
Progression of Hurricane Den …
Title Progression of Hurricane Dennis, 2005 (WMS)
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-18
Progression of Hurricane Den …
Title Progression of Hurricane Dennis, 2005 (WMS)
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-18
Progression of Hurricane Den …
Title Progression of Hurricane Dennis, 2005 (WMS)
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-18
Progression of Hurricane Den …
Title Progression of Hurricane Dennis, 2005 (WMS)
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-18
Progression of Hurricane Den …
Title Progression of Hurricane Dennis, 2005 (WMS)
Abstract The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded.
Completed 2005-07-18
Floods in Gonaives, Haiti
Title Floods in Gonaives, Haiti
Description The floods that claimed the lives of at least 1,500 Haitians and left as many missing, also filled a large lake basin outside of Gonaives. The basin, which was a dry dust bowl on August 8, 2001, was still completely covered with water on October 3, 2004, two weeks after Hurricane Jeanne's heavy rains induced the flooding. Some of the water may have been present before the floods, but the recent influx of water has pushed the lake far beyond its shores. According to the Associated Press, the lake has covered the primary road connecting Gonaives to Haiti's capital, Port-au-Prince, with over a meter (four feet) of water, making food delivery difficult. The road can be seen here, a blurred white line under the dark blue water. The grey area at the end of the road near the shore is Gonaives. These images were acquired by the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER [ http://asterweb.jpl.nasa.gov/ ]). They were made by combining the infrared, near infrared, and red wavelengths (ASTER bands 4, 3, & 2). In this treatment, bare land appears pink, healthy croplands are light green, and concrete structures such as city buildings have a grey or deep purple tone. NASA image created by Jesse Allen, Earth Observatory using data obtained courtesy of the of NASA/GSFC/MITI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team [ http://asterweb.jpl.nasa.gov/ ].
Floods in Gonaives, Haiti
Title Floods in Gonaives, Haiti
Description The floods that claimed the lives of at least 1,500 Haitians and left as many missing, also filled a large lake basin outside of Gonaives. The basin, which was a dry dust bowl on August 8, 2001, was still completely covered with water on October 3, 2004, two weeks after Hurricane Jeanne's heavy rains induced the flooding. Some of the water may have been present before the floods, but the recent influx of water has pushed the lake far beyond its shores. According to the Associated Press, the lake has covered the primary road connecting Gonaives to Haiti's capital, Port-au-Prince, with over a meter (four feet) of water, making food delivery difficult. The road can be seen here, a blurred white line under the dark blue water. The grey area at the end of the road near the shore is Gonaives. These images were acquired by the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER [ http://asterweb.jpl.nasa.gov/ ]). They were made by combining the infrared, near infrared, and red wavelengths (ASTER bands 4, 3, & 2). In this treatment, bare land appears pink, healthy croplands are light green, and concrete structures such as city buildings have a grey or deep purple tone. NASA image created by Jesse Allen, Earth Observatory using data obtained courtesy of the of NASA/GSFC/MITI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team [ http://asterweb.jpl.nasa.gov/ ].
Floods in Gonaives, Haiti
Title Floods in Gonaives, Haiti
Description A wall of water and mud buried much of Gonaives, Haiti, in the wake of Tropical Storm Jeanne, which struck the island of Hispaniola on September 18, 2004. The storm hovered over the island for as much as 30 hours, pounding the region with heavy rain. Four days later, on September 22, the Ikonos satellite captured this high-resolution view of the water-logged city. Brown mud or water still covers a large part of the city. Roads that were visible on September 17 have disappeared, as have a number of buildings. The densely populated city of about 200,000 was the most severely impacted region of Haiti. As of September 24, the death toll stood at 1,260, with at least a thousand more still missing, according to news reports. The large images provided above reveal how much of the city was affected by the floods. They show a wider view of the city at 1 meter per pixel. Brown flood water covers nearly the entire scene. The floods in northeastern Haiti could be doubly devastating because they may have destroyed much of the country's agriculture. Gonaives and the surrounding land, the Artibonite region, is the country's breadbasket. Initial media reports say that Jeanne wiped out fields and gardens around Gonaives, and if the damage is more widespread, Haiti may be facing a food crisis. The Food and Agricultural Organization of the United Nations is just beginning their assessment to determine the exact extent of the damage. Ironically, agriculture may be partly to blame for the severity of the floods. Haiti is particularly susceptible to flooding because of large-scale deforestation on the Haitian part of the island where most trees have been cut down to make charcoal for cooking or to clear land for agriculture. Without trees to slow or stop rainfall, the water rushes over the sun-baked ground, filling low spots. In late May [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12169 ], thousands died after heavy rainfall triggered widespread floods in southern Haiti. Located on the northeast coast of Haiti, Gonaives was not affected by the earlier floods. Images copyright Space Imaging [ http://www.spaceimaging.com/ ].
Floods in Gonaives, Haiti
Title Floods in Gonaives, Haiti
Description A wall of water and mud buried much of Gonaives, Haiti, in the wake of Tropical Storm Jeanne, which struck the island of Hispaniola on September 18, 2004. The storm hovered over the island for as much as 30 hours, pounding the region with heavy rain. Four days later, on September 22, the Ikonos satellite captured this high-resolution view of the water-logged city. Brown mud or water still covers a large part of the city. Roads that were visible on September 17 have disappeared, as have a number of buildings. The densely populated city of about 200,000 was the most severely impacted region of Haiti. As of September 24, the death toll stood at 1,260, with at least a thousand more still missing, according to news reports. The large images provided above reveal how much of the city was affected by the floods. They show a wider view of the city at 1 meter per pixel. Brown flood water covers nearly the entire scene. The floods in northeastern Haiti could be doubly devastating because they may have destroyed much of the country's agriculture. Gonaives and the surrounding land, the Artibonite region, is the country's breadbasket. Initial media reports say that Jeanne wiped out fields and gardens around Gonaives, and if the damage is more widespread, Haiti may be facing a food crisis. The Food and Agricultural Organization of the United Nations is just beginning their assessment to determine the exact extent of the damage. Ironically, agriculture may be partly to blame for the severity of the floods. Haiti is particularly susceptible to flooding because of large-scale deforestation on the Haitian part of the island where most trees have been cut down to make charcoal for cooking or to clear land for agriculture. Without trees to slow or stop rainfall, the water rushes over the sun-baked ground, filling low spots. In late May [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12169 ], thousands died after heavy rainfall triggered widespread floods in southern Haiti. Located on the northeast coast of Haiti, Gonaives was not affected by the earlier floods. Images copyright Space Imaging [ http://www.spaceimaging.com/ ].
Hurricane Jeanne
Title Hurricane Jeanne
Description After an eventful voyage through the Atlantic, Hurricane Jeanne struck the east coast of Florida on Sunday, September 26, 2004, as shown in the image above. The data in this image was collected by the Tropical Rainfall Measuring Mission (TRMM [ http://www.trmm.gsfc.nasa.gov/ ]) satellite at 09:47 UTC (4:47 AM EDT), when the storm was at Category 3 on the Saffir/Simpson scale, with sustained surface winds of 110 mph. In the image above, the black bar in the lower left corner is 70 miles long, north is up, and the shades of gray indicate the cloud height with white indicating the highest clouds. Color contours indicate the surface rainfall rate. The cloud height information comes from the satellite?s infrared instrument and the rain estimates from the satellite's passive microwave instrument. By combining the information from both instruments, we can see that, at the time of the satellite overflight, most of Florida was under dense overcast skies but heavy rain was falling only over one portion of Florida's east coast. Scientists are trying to improve their understanding of the complex relationship between clouds and rain. To have a better perspective on the structure of Hurricane Jeanne at landfall, it helps to consider the storm?s evolution over the past ten days. A composite image shows data from five of the TRMM satellite?s overflights of Hurricane Jeanne between September 17 and 26, 2004. The track of the storm is shown in red, based on data from NOAA?s National Hurricane Center [ http://www.nhc.noaa.gov/ ]. The tracks of the other three hurricanes that have struck Florida during the past two months (Hurricanes Charley, Frances, and Ivan) are shown in gray. Between September 17 and 18, Jeanne became disorganized due to its collision with the Dominican Republic and Haiti, where it left over 1000 people dead. On September 20, Jeanne reformed a tight eye, and by September 23, there was a symmetric ring of rain surrounding the eye, which suggests a well organized storm. Each of the five overflights mentioned above are shown in greater detail in this image sequence. On September 17, Jeanne was merely a tropical storm after having weakened as it passed over Puerto Rico. Nonetheless, Jeanne remained fairly well organized with heavy rain to the north and east of the low pressure center. The low pressure center had just made landfall over the Dominican Republic and was approaching Haiti. On September 18, Jeanne was so poorly organized that it is difficult to determine the center of the storm by looking at the cloud cover. Several days of favorable conditions in the Atlantic gave Jeanne a chance to regain hurricane strength winds. By September 26, when Jeanne struck central Florida, not only had its winds accelerated to 110 mph, but the area covered by clouds and heavy rain had increased. TRMM [ http://www.trmm.gsfc.nasa.gov/ ], is a joint mission between NASA and the Japanese Aerospace Exploration Agency (JAXA). Image and caption courtesy Owen Kelley, Steve Lang, and Jeff Halverson, NASA?s Tropical Rainfall Measuring Mission at Goddard Space Flight Center.
Hurricane Jeanne
Title Hurricane Jeanne
Description After an eventful voyage through the Atlantic, Hurricane Jeanne struck the east coast of Florida on Sunday, September 26, 2004, as shown in the image above. The data in this image was collected by the Tropical Rainfall Measuring Mission (TRMM [ http://www.trmm.gsfc.nasa.gov/ ]) satellite at 09:47 UTC (4:47 AM EDT), when the storm was at Category 3 on the Saffir/Simpson scale, with sustained surface winds of 110 mph. In the image above, the black bar in the lower left corner is 70 miles long, north is up, and the shades of gray indicate the cloud height with white indicating the highest clouds. Color contours indicate the surface rainfall rate. The cloud height information comes from the satellite?s infrared instrument and the rain estimates from the satellite's passive microwave instrument. By combining the information from both instruments, we can see that, at the time of the satellite overflight, most of Florida was under dense overcast skies but heavy rain was falling only over one portion of Florida's east coast. Scientists are trying to improve their understanding of the complex relationship between clouds and rain. To have a better perspective on the structure of Hurricane Jeanne at landfall, it helps to consider the storm?s evolution over the past ten days. A composite image shows data from five of the TRMM satellite?s overflights of Hurricane Jeanne between September 17 and 26, 2004. The track of the storm is shown in red, based on data from NOAA?s National Hurricane Center [ http://www.nhc.noaa.gov/ ]. The tracks of the other three hurricanes that have struck Florida during the past two months (Hurricanes Charley, Frances, and Ivan) are shown in gray. Between September 17 and 18, Jeanne became disorganized due to its collision with the Dominican Republic and Haiti, where it left over 1000 people dead. On September 20, Jeanne reformed a tight eye, and by September 23, there was a symmetric ring of rain surrounding the eye, which suggests a well organized storm. Each of the five overflights mentioned above are shown in greater detail in this image sequence. On September 17, Jeanne was merely a tropical storm after having weakened as it passed over Puerto Rico. Nonetheless, Jeanne remained fairly well organized with heavy rain to the north and east of the low pressure center. The low pressure center had just made landfall over the Dominican Republic and was approaching Haiti. On September 18, Jeanne was so poorly organized that it is difficult to determine the center of the storm by looking at the cloud cover. Several days of favorable conditions in the Atlantic gave Jeanne a chance to regain hurricane strength winds. By September 26, when Jeanne struck central Florida, not only had its winds accelerated to 110 mph, but the area covered by clouds and heavy rain had increased. TRMM [ http://www.trmm.gsfc.nasa.gov/ ], is a joint mission between NASA and the Japanese Aerospace Exploration Agency (JAXA). Image and caption courtesy Owen Kelley, Steve Lang, and Jeff Halverson, NASA?s Tropical Rainfall Measuring Mission at Goddard Space Flight Center.
Hurricane Jeanne
Title Hurricane Jeanne
Description After an eventful voyage through the Atlantic, Hurricane Jeanne struck the east coast of Florida on Sunday, September 26, 2004, as shown in the image above. The data in this image was collected by the Tropical Rainfall Measuring Mission (TRMM [ http://www.trmm.gsfc.nasa.gov/ ]) satellite at 09:47 UTC (4:47 AM EDT), when the storm was at Category 3 on the Saffir/Simpson scale, with sustained surface winds of 110 mph. In the image above, the black bar in the lower left corner is 70 miles long, north is up, and the shades of gray indicate the cloud height with white indicating the highest clouds. Color contours indicate the surface rainfall rate. The cloud height information comes from the satellite?s infrared instrument and the rain estimates from the satellite's passive microwave instrument. By combining the information from both instruments, we can see that, at the time of the satellite overflight, most of Florida was under dense overcast skies but heavy rain was falling only over one portion of Florida's east coast. Scientists are trying to improve their understanding of the complex relationship between clouds and rain. To have a better perspective on the structure of Hurricane Jeanne at landfall, it helps to consider the storm?s evolution over the past ten days. A composite image shows data from five of the TRMM satellite?s overflights of Hurricane Jeanne between September 17 and 26, 2004. The track of the storm is shown in red, based on data from NOAA?s National Hurricane Center [ http://www.nhc.noaa.gov/ ]. The tracks of the other three hurricanes that have struck Florida during the past two months (Hurricanes Charley, Frances, and Ivan) are shown in gray. Between September 17 and 18, Jeanne became disorganized due to its collision with the Dominican Republic and Haiti, where it left over 1000 people dead. On September 20, Jeanne reformed a tight eye, and by September 23, there was a symmetric ring of rain surrounding the eye, which suggests a well organized storm. Each of the five overflights mentioned above are shown in greater detail in this image sequence. On September 17, Jeanne was merely a tropical storm after having weakened as it passed over Puerto Rico. Nonetheless, Jeanne remained fairly well organized with heavy rain to the north and east of the low pressure center. The low pressure center had just made landfall over the Dominican Republic and was approaching Haiti. On September 18, Jeanne was so poorly organized that it is difficult to determine the center of the storm by looking at the cloud cover. Several days of favorable conditions in the Atlantic gave Jeanne a chance to regain hurricane strength winds. By September 26, when Jeanne struck central Florida, not only had its winds accelerated to 110 mph, but the area covered by clouds and heavy rain had increased. TRMM [ http://www.trmm.gsfc.nasa.gov/ ], is a joint mission between NASA and the Japanese Aerospace Exploration Agency (JAXA). Image and caption courtesy Owen Kelley, Steve Lang, and Jeff Halverson, NASA?s Tropical Rainfall Measuring Mission at Goddard Space Flight Center.
Hurricane Jeanne
Title Hurricane Jeanne
Description Hurricane Jeanne spins in the Atlantic Ocean about 855 kilometers (530 miles) east of the Bahamas in this Moderate Resolution Imaging Spectroradiometer (MODIS [ http://modis.gsfc.nasa.gov ]) image, captured by NASA?s Terra [ http://terra.nasa.gov/ ] satellite on September 22, 2004. Though only a Category 2 hurricane, Jeanne has already been a deadly storm. Over 700 have died in Haiti, the Dominican Republic, and Puerto Rico as a result of floods triggered by Jeanne?s torrential rains. Jeanne currently has winds of 160 kilometers per hour (100 mph) and is moving south at 7 kilometers per hour (5 mph). Though the storm?s course has not been easy to predict, the National Hurricane Center [ http://www.nhc.noaa.gov/ ] expects the storm to turn west and move towards the United States early next week. The large image provided above is at MODIS? maximum resolution of 250 meters per pixel. The MODIS Rapid Response Team provides the image in additional resolutions and formats. NASA image courtesy Jeff Schmaltz, MODIS Land Rapid Response Team [ http://rapidfire.sci.gsfc.nasa.gov ] at NASA GSFC
Severe Floods Sweep Across H …
Title Severe Floods Sweep Across Haiti and the Dominican Republic
Description Over the past week, both Haiti and the Dominican Republic, the two countries on the island of Hispaniola, have been ravaged by severe flooding after several days of heavy rain. Hundreds have perished in the two countries as a direct result of mud slides and flash flooding. The hardest hit area was in and around the town of Jimani in the southwestern part of the Dominican Republic near the border with Haiti. The Soliel River overflowed its banks before dawn on the morning of the 25th of May 2004 catching the town by surprise. A trough of low pressure across the central Caribbean provided the impetus for the numerous showers and heavy rains. The effect was amplified as moisture-laden low-level southerly winds from the Caribbean interacted with the topography of the island. The Dominican weather service reported that 10 inches of rain fell near Jimani in just 24 hours. The Tropical Rainfall Measuring Mission satellite which was launched in November of 1997 uses both passive and active sensors to measure rainfall over the global tropics from space. The TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at the NASA Goddard Space Flight Center provides quantitative rainfall estimates over the global tropics. The above images show rainfall accumulation between May 18 and May 25, 2004. The first lower shows MPA rainfall totals over the northern Caribbean. The red areas indicate rainfall totals in excess of 14 inches over most of Hispaniola. Darker red areas along the border between Haiti and the Dominican Republic show rainfall totals for the period approaching 24 inches. The second image provides a close-in view of rainfall contours over the same period. It shows that the highest totals are right along the border between Haiti and the Dominican Republic and over the northeastern part of the Dominican Republic and exceed 550 mm (21.7 inches). The above animations show that the bulk of the rain appears to have fallen in a single day on May 23. This graph confirms what the animations show in more detail. It shows the instantaneous average rainfall over a 250-km radius centered at 19N 72W (near the center of the border between Haiti and the Dominican Republic) over the period. It reveals that most of the rain did, in fact, fall on the 23rd of May although significant amounts fell on May 22 and 24 as well. The dates begin at 00Z (midnight Greenwich Mean Time, or 7 pm local time). This graph shows the accumulated rainfall with time for the same area and period. By 00Z on the 25th, an average of 300 mm (11.8 inches) of rain had fallen over the area with a maximum single point accumulation of 598 mm (23.5 inches).TRMM [ http://trmm.gsfc.nasa.gov/ ] 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
Severe Floods Sweep Across H …
Title Severe Floods Sweep Across Haiti and the Dominican Republic
Description Over the past week, both Haiti and the Dominican Republic, the two countries on the island of Hispaniola, have been ravaged by severe flooding after several days of heavy rain. Hundreds have perished in the two countries as a direct result of mud slides and flash flooding. The hardest hit area was in and around the town of Jimani in the southwestern part of the Dominican Republic near the border with Haiti. The Soliel River overflowed its banks before dawn on the morning of the 25th of May 2004 catching the town by surprise. A trough of low pressure across the central Caribbean provided the impetus for the numerous showers and heavy rains. The effect was amplified as moisture-laden low-level southerly winds from the Caribbean interacted with the topography of the island. The Dominican weather service reported that 10 inches of rain fell near Jimani in just 24 hours. The Tropical Rainfall Measuring Mission satellite which was launched in November of 1997 uses both passive and active sensors to measure rainfall over the global tropics from space. The TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at the NASA Goddard Space Flight Center provides quantitative rainfall estimates over the global tropics. The above images show rainfall accumulation between May 18 and May 25, 2004. The first lower shows MPA rainfall totals over the northern Caribbean. The red areas indicate rainfall totals in excess of 14 inches over most of Hispaniola. Darker red areas along the border between Haiti and the Dominican Republic show rainfall totals for the period approaching 24 inches. The second image provides a close-in view of rainfall contours over the same period. It shows that the highest totals are right along the border between Haiti and the Dominican Republic and over the northeastern part of the Dominican Republic and exceed 550 mm (21.7 inches). The above animations show that the bulk of the rain appears to have fallen in a single day on May 23. This graph confirms what the animations show in more detail. It shows the instantaneous average rainfall over a 250-km radius centered at 19N 72W (near the center of the border between Haiti and the Dominican Republic) over the period. It reveals that most of the rain did, in fact, fall on the 23rd of May although significant amounts fell on May 22 and 24 as well. The dates begin at 00Z (midnight Greenwich Mean Time, or 7 pm local time). This graph shows the accumulated rainfall with time for the same area and period. By 00Z on the 25th, an average of 300 mm (11.8 inches) of rain had fallen over the area with a maximum single point accumulation of 598 mm (23.5 inches).TRMM [ http://trmm.gsfc.nasa.gov/ ] 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
Severe Floods Sweep Across H …
Title Severe Floods Sweep Across Haiti and the Dominican Republic
Description Over the past week, both Haiti and the Dominican Republic, the two countries on the island of Hispaniola, have been ravaged by severe flooding after several days of heavy rain. Hundreds have perished in the two countries as a direct result of mud slides and flash flooding. The hardest hit area was in and around the town of Jimani in the southwestern part of the Dominican Republic near the border with Haiti. The Soliel River overflowed its banks before dawn on the morning of the 25th of May 2004 catching the town by surprise. A trough of low pressure across the central Caribbean provided the impetus for the numerous showers and heavy rains. The effect was amplified as moisture-laden low-level southerly winds from the Caribbean interacted with the topography of the island. The Dominican weather service reported that 10 inches of rain fell near Jimani in just 24 hours. The Tropical Rainfall Measuring Mission satellite which was launched in November of 1997 uses both passive and active sensors to measure rainfall over the global tropics from space. The TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at the NASA Goddard Space Flight Center provides quantitative rainfall estimates over the global tropics. The above images show rainfall accumulation between May 18 and May 25, 2004. The first lower shows MPA rainfall totals over the northern Caribbean. The red areas indicate rainfall totals in excess of 14 inches over most of Hispaniola. Darker red areas along the border between Haiti and the Dominican Republic show rainfall totals for the period approaching 24 inches. The second image provides a close-in view of rainfall contours over the same period. It shows that the highest totals are right along the border between Haiti and the Dominican Republic and over the northeastern part of the Dominican Republic and exceed 550 mm (21.7 inches). The above animations show that the bulk of the rain appears to have fallen in a single day on May 23. This graph confirms what the animations show in more detail. It shows the instantaneous average rainfall over a 250-km radius centered at 19N 72W (near the center of the border between Haiti and the Dominican Republic) over the period. It reveals that most of the rain did, in fact, fall on the 23rd of May although significant amounts fell on May 22 and 24 as well. The dates begin at 00Z (midnight Greenwich Mean Time, or 7 pm local time). This graph shows the accumulated rainfall with time for the same area and period. By 00Z on the 25th, an average of 300 mm (11.8 inches) of rain had fallen over the area with a maximum single point accumulation of 598 mm (23.5 inches).TRMM [ http://trmm.gsfc.nasa.gov/ ] 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
Severe Floods Sweep Across H …
Title Severe Floods Sweep Across Haiti and the Dominican Republic
Description Over the past week, both Haiti and the Dominican Republic, the two countries on the island of Hispaniola, have been ravaged by severe flooding after several days of heavy rain. Hundreds have perished in the two countries as a direct result of mud slides and flash flooding. The hardest hit area was in and around the town of Jimani in the southwestern part of the Dominican Republic near the border with Haiti. The Soliel River overflowed its banks before dawn on the morning of the 25th of May 2004 catching the town by surprise. A trough of low pressure across the central Caribbean provided the impetus for the numerous showers and heavy rains. The effect was amplified as moisture-laden low-level southerly winds from the Caribbean interacted with the topography of the island. The Dominican weather service reported that 10 inches of rain fell near Jimani in just 24 hours. The Tropical Rainfall Measuring Mission satellite which was launched in November of 1997 uses both passive and active sensors to measure rainfall over the global tropics from space. The TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at the NASA Goddard Space Flight Center provides quantitative rainfall estimates over the global tropics. The above images show rainfall accumulation between May 18 and May 25, 2004. The first lower shows MPA rainfall totals over the northern Caribbean. The red areas indicate rainfall totals in excess of 14 inches over most of Hispaniola. Darker red areas along the border between Haiti and the Dominican Republic show rainfall totals for the period approaching 24 inches. The second image provides a close-in view of rainfall contours over the same period. It shows that the highest totals are right along the border between Haiti and the Dominican Republic and over the northeastern part of the Dominican Republic and exceed 550 mm (21.7 inches). The above animations show that the bulk of the rain appears to have fallen in a single day on May 23. This graph confirms what the animations show in more detail. It shows the instantaneous average rainfall over a 250-km radius centered at 19N 72W (near the center of the border between Haiti and the Dominican Republic) over the period. It reveals that most of the rain did, in fact, fall on the 23rd of May although significant amounts fell on May 22 and 24 as well. The dates begin at 00Z (midnight Greenwich Mean Time, or 7 pm local time). This graph shows the accumulated rainfall with time for the same area and period. By 00Z on the 25th, an average of 300 mm (11.8 inches) of rain had fallen over the area with a maximum single point accumulation of 598 mm (23.5 inches).TRMM [ http://trmm.gsfc.nasa.gov/ ] 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
Severe Floods Sweep Across H …
Title Severe Floods Sweep Across Haiti and the Dominican Republic
Description Over the past week, both Haiti and the Dominican Republic, the two countries on the island of Hispaniola, have been ravaged by severe flooding after several days of heavy rain. Hundreds have perished in the two countries as a direct result of mud slides and flash flooding. The hardest hit area was in and around the town of Jimani in the southwestern part of the Dominican Republic near the border with Haiti. The Soliel River overflowed its banks before dawn on the morning of the 25th of May 2004 catching the town by surprise. A trough of low pressure across the central Caribbean provided the impetus for the numerous showers and heavy rains. The effect was amplified as moisture-laden low-level southerly winds from the Caribbean interacted with the topography of the island. The Dominican weather service reported that 10 inches of rain fell near Jimani in just 24 hours. The Tropical Rainfall Measuring Mission satellite which was launched in November of 1997 uses both passive and active sensors to measure rainfall over the global tropics from space. The TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at the NASA Goddard Space Flight Center provides quantitative rainfall estimates over the global tropics. The above images show rainfall accumulation between May 18 and May 25, 2004. The first lower shows MPA rainfall totals over the northern Caribbean. The red areas indicate rainfall totals in excess of 14 inches over most of Hispaniola. Darker red areas along the border between Haiti and the Dominican Republic show rainfall totals for the period approaching 24 inches. The second image provides a close-in view of rainfall contours over the same period. It shows that the highest totals are right along the border between Haiti and the Dominican Republic and over the northeastern part of the Dominican Republic and exceed 550 mm (21.7 inches). The above animations show that the bulk of the rain appears to have fallen in a single day on May 23. This graph confirms what the animations show in more detail. It shows the instantaneous average rainfall over a 250-km radius centered at 19N 72W (near the center of the border between Haiti and the Dominican Republic) over the period. It reveals that most of the rain did, in fact, fall on the 23rd of May although significant amounts fell on May 22 and 24 as well. The dates begin at 00Z (midnight Greenwich Mean Time, or 7 pm local time). This graph shows the accumulated rainfall with time for the same area and period. By 00Z on the 25th, an average of 300 mm (11.8 inches) of rain had fallen over the area with a maximum single point accumulation of 598 mm (23.5 inches).TRMM [ http://trmm.gsfc.nasa.gov/ ] 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
Severe Floods Sweep Across H …
Title Severe Floods Sweep Across Haiti and the Dominican Republic
Description Over the past week, both Haiti and the Dominican Republic, the two countries on the island of Hispaniola, have been ravaged by severe flooding after several days of heavy rain. Hundreds have perished in the two countries as a direct result of mud slides and flash flooding. The hardest hit area was in and around the town of Jimani in the southwestern part of the Dominican Republic near the border with Haiti. The Soliel River overflowed its banks before dawn on the morning of the 25th of May 2004 catching the town by surprise. A trough of low pressure across the central Caribbean provided the impetus for the numerous showers and heavy rains. The effect was amplified as moisture-laden low-level southerly winds from the Caribbean interacted with the topography of the island. The Dominican weather service reported that 10 inches of rain fell near Jimani in just 24 hours. The Tropical Rainfall Measuring Mission satellite which was launched in November of 1997 uses both passive and active sensors to measure rainfall over the global tropics from space. The TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at the NASA Goddard Space Flight Center provides quantitative rainfall estimates over the global tropics. The above images show rainfall accumulation between May 18 and May 25, 2004. The first lower shows MPA rainfall totals over the northern Caribbean. The red areas indicate rainfall totals in excess of 14 inches over most of Hispaniola. Darker red areas along the border between Haiti and the Dominican Republic show rainfall totals for the period approaching 24 inches. The second image provides a close-in view of rainfall contours over the same period. It shows that the highest totals are right along the border between Haiti and the Dominican Republic and over the northeastern part of the Dominican Republic and exceed 550 mm (21.7 inches). The above animations show that the bulk of the rain appears to have fallen in a single day on May 23. This graph confirms what the animations show in more detail. It shows the instantaneous average rainfall over a 250-km radius centered at 19N 72W (near the center of the border between Haiti and the Dominican Republic) over the period. It reveals that most of the rain did, in fact, fall on the 23rd of May although significant amounts fell on May 22 and 24 as well. The dates begin at 00Z (midnight Greenwich Mean Time, or 7 pm local time). This graph shows the accumulated rainfall with time for the same area and period. By 00Z on the 25th, an average of 300 mm (11.8 inches) of rain had fallen over the area with a maximum single point accumulation of 598 mm (23.5 inches).TRMM [ http://trmm.gsfc.nasa.gov/ ] 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
Severe Floods Sweep Across H …
Title Severe Floods Sweep Across Haiti and the Dominican Republic
Description Heavy rain brought tragedy to Haiti and the Dominican Republic in late May 2004. Floods and landslides devastated large areas of the island of Hispaniola, which the two countries share. Up to 2,000 people have been reported dead, and hundreds are still missing. One of the most severely affected areas was southeast Haiti, shown in this Advanced Spaceborne Thermal Emission and Reflection Radiometer [ http://asterweb.jpl.nasa.gov/ ] (ASTER) image. Taken on May 30, the image shows dark blue lakes over land that was dry on October 26, 2003. One of these lakes is said to cover much of Mapou, where thousands died. Gravel and other flood debris form shiny light blue tracks throughout the scene. Vegetation is red and bare land is grey. The severity of these floods has been blamed on deforestation. Without trees to absorb water and anchor the land, water and mud rushed into low-lying areas. Data courtesy MITI, ERSDAC, JAROS, and the U.S./Japan ASTER Science Team [ http://asterweb.jpl.nasa.gov/ ]
Severe Floods Sweep Across H …
Title Severe Floods Sweep Across Haiti and the Dominican Republic
Description Heavy rain brought tragedy to Haiti and the Dominican Republic in late May 2004. Floods and landslides devastated large areas of the island of Hispaniola, which the two countries share. Up to 2,000 people have been reported dead, and hundreds are still missing. One of the most severely affected areas was southeast Haiti, shown in this Advanced Spaceborne Thermal Emission and Reflection Radiometer [ http://asterweb.jpl.nasa.gov/ ] (ASTER) image. Taken on May 30, the image shows dark blue lakes over land that was dry on October 26, 2003. One of these lakes is said to cover much of Mapou, where thousands died. Gravel and other flood debris form shiny light blue tracks throughout the scene. Vegetation is red and bare land is grey. The severity of these floods has been blamed on deforestation. Without trees to absorb water and anchor the land, water and mud rushed into low-lying areas. Data courtesy MITI, ERSDAC, JAROS, and the U.S./Japan ASTER Science Team [ http://asterweb.jpl.nasa.gov/ ]
Tropical Storm Noel
Title Tropical Storm Noel
Description Tropical Depression 16 was intensifying into Tropical Storm Noel late in the morning of October 28, 2007, when the Moderate Resolution Imaging Spectroradiometer (MODIS [ http://modis.gsfc.nasa.gov ]) on NASA's Terra [ http://terra.nasa.gov/ ] satellite captured this image. Though still weak, the storm was beginning to take the distinct shape of a tropical cyclone. A dense circle of clouds converged over the Caribbean Sea just south of Haiti and the Dominican Republic, and a long tail of clouds curled over Puerto Rico. Shadows cast by towering thunderstorm clouds make the cloud layer appear to be boiling in places. At the time this image was acquired, Noel had winds of 65 kilometers per hour (40 miles per hour or 35 knots) with gusts to 83 km/hr (52 mph, 45 knots), said the National Hurricane Center. [ http://www.nhc.noaa.gov/archive/2007/al16/al162007.fstadv.003.shtml? ] Despite relatively low wind speeds, the storm posed a serious threat to Hispaniola, the island encompassing the Dominican Republic and Haiti. The National Hurricane Center expected Noel to dump between 250 and 500 millimeters (10 and 20 inches) of rain on the island, with a few isolated areas receiving up to 760 mm (30 inches) of rain. The heavy rainfall has the potential to trigger deadly floods and mudslides. Tropical Storm Jeanne [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12447 ] was just a tropical storm when its heavy rain caused extensive floods and mudslides [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12485 ] that killed at least 1,500 Haitians in September 2004. Haiti is particularly vulnerable to flash flooding and landslides because of the widespread deforestation of its mountainous terrain. The large image provided above is at MODIS' maximum resolution of 250 meters per pixel. The image is available in additional resolutions from the MODIS Rapid Response System. NASA image courtesy Jeff Schmaltz, MODIS Rapid Response Team [ http://rapidfire.sci.gsfc.nasa.gov ] at NASA GSFC
Floods in Gonaives, Haiti
Title Floods in Gonaives, Haiti
Description *Floods in Gonaives, Haiti* The wall of water that descended on Gonaives, Haiti, following Tropical Storm Jeanne on September 18, 2004, also scoured out a broad channel in the landscape. The violence of the floods is apparent in the above false-color images, acquired by the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) before and after the floods. The rush of water has left a silvery path of gravel and mud that is as much as 500 meters wide starting about 15 kilometers upstream of the city. As the water approached the less mountainous coast where Gonaives is located, it fanned out over the plain. The primary path of the flood seems to take the water into Gonaives and the land to its immediate north. In the pre-flood image, acquired on August 8, 2001, the city is the gray region in the lower left corner. In the image acquired on September 26, 2004, the city is obscured by the blue-green sediment left by the flood water. To the east of Gonaives, some of the flood water has filled a lake basin, the top of which is visible in the lower right corner of the image. The thin white line across the bottom of the image is a road leading to Gonaives. The road has been submerged in the lake basin, though is still visible beneath the dark blue water. In these false-color images, vegetation is bright red and water is black. Bare land is white and light blue. Clearly the hills around the city are bare, one of the primary reasons for the floods. Without trees to slow and absorb rainfall, the water rushed into depressions in the land and poured to the ocean beyond Gonaives. NASA image created by Jesse Allen, Earth Observatory using data obtained courtesy of the of NASA/GSFC/MITI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team [ http://asterweb.jpl.nasa.gov/ ]. Image interpretation courtesy Dr. Bob Brakenridge, Dartmouth Flood Observatory [ http://www.dartmouth.edu/%7efloods/ ]
Floods in Gonaives, Haiti
Title Floods in Gonaives, Haiti
Description *Floods in Gonaives, Haiti* The wall of water that descended on Gonaives, Haiti, following Tropical Storm Jeanne on September 18, 2004, also scoured out a broad channel in the landscape. The violence of the floods is apparent in the above false-color images, acquired by the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) before and after the floods. The rush of water has left a silvery path of gravel and mud that is as much as 500 meters wide starting about 15 kilometers upstream of the city. As the water approached the less mountainous coast where Gonaives is located, it fanned out over the plain. The primary path of the flood seems to take the water into Gonaives and the land to its immediate north. In the pre-flood image, acquired on August 8, 2001, the city is the gray region in the lower left corner. In the image acquired on September 26, 2004, the city is obscured by the blue-green sediment left by the flood water. To the east of Gonaives, some of the flood water has filled a lake basin, the top of which is visible in the lower right corner of the image. The thin white line across the bottom of the image is a road leading to Gonaives. The road has been submerged in the lake basin, though is still visible beneath the dark blue water. In these false-color images, vegetation is bright red and water is black. Bare land is white and light blue. Clearly the hills around the city are bare, one of the primary reasons for the floods. Without trees to slow and absorb rainfall, the water rushed into depressions in the land and poured to the ocean beyond Gonaives. NASA image created by Jesse Allen, Earth Observatory using data obtained courtesy of the of NASA/GSFC/MITI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team [ http://asterweb.jpl.nasa.gov/ ]. Image interpretation courtesy Dr. Bob Brakenridge, Dartmouth Flood Observatory [ http://www.dartmouth.edu/%7efloods/ ]
Floods in Gonaives, Haiti
Title Floods in Gonaives, Haiti
Description A wall of water and mud buried much of Gonaives, Haiti, in the wake of Tropical Storm Jeanne [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12447 ], which struck the island of Hispaniola on September 18, 2004. Four days later, the Ikonos satellite captured this high-resolution view of the water-logged city. Brown mud or water still covers a large part of the city. Roads that were visible on September 17 have disappeared, as have a number of buildings. The densely populated city of about 200,000 was the most severely impacted region of Haiti. As of September 24, the death toll stood at 1,260, with at least a thousand more still missing, according to news reports. Haiti is particularly susceptible to flooding because of large-scale deforestation on the Haitian half of the island, where most trees have been cut down to make charcoal for cooking. Without trees to slow or stop rainfall, the water runs over the sun-baked ground, filling low spots. In late May [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12169 ], thousands died after heavy rainfall triggered widespread floods in southern Haiti. Located on the northeast coast of Haiti, Gonaives was not affected by the earlier floods. The large images provided above reveal how much of the city was affected by the floods. They show a wider view of the city at one meter per pixel. Brown flood water covers nearly the entire scene. Images courtesy Space Imaging [ http://www.spaceimaging.com/ ].
Floods in Gonaives, Haiti
Title Floods in Gonaives, Haiti
Description A wall of water and mud buried much of Gonaives, Haiti, in the wake of Tropical Storm Jeanne [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12447 ], which struck the island of Hispaniola on September 18, 2004. Four days later, the Ikonos satellite captured this high-resolution view of the water-logged city. Brown mud or water still covers a large part of the city. Roads that were visible on September 17 have disappeared, as have a number of buildings. The densely populated city of about 200,000 was the most severely impacted region of Haiti. As of September 24, the death toll stood at 1,260, with at least a thousand more still missing, according to news reports. Haiti is particularly susceptible to flooding because of large-scale deforestation on the Haitian half of the island, where most trees have been cut down to make charcoal for cooking. Without trees to slow or stop rainfall, the water runs over the sun-baked ground, filling low spots. In late May [ http://earthobservatory.nasa.gov/NaturalHazards/natural_hazards_v2.php3?img_id=12169 ], thousands died after heavy rainfall triggered widespread floods in southern Haiti. Located on the northeast coast of Haiti, Gonaives was not affected by the earlier floods. The large images provided above reveal how much of the city was affected by the floods. They show a wider view of the city at one meter per pixel. Brown flood water covers nearly the entire scene. Images courtesy Space Imaging [ http://www.spaceimaging.com/ ].
Hurricane Jeanne
Landsat 5 caught a glimpse o …
Description Landsat 5 caught a glimpse of Hurricane Jeanne on Sept. 26, 2004, as it made landfall in Florida. In the United States, the storm resulted in five deaths and an estimated $6.9 billion in damages, according to the National Hurricane Center. Reuters reported that there were more than 3,000 deaths in Haiti from the storm.
Severe Floods Sweep Across H …
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima …
hispaniola_TRMM18-25may04
mediatype IMAGE
mediatype image
date 2004-05-25
creator NASA -- NASA Image Of The Day
identifier hispaniola_TRMM18-25may04
Floods in Haiti: Image of th …
nasa, nasaimageofthedaygalle …
Days of heavy rain triggered …
jimani_ast_2004151
mediatype IMAGE
mediatype image
date 2004-05-25
creator NASA -- Image courtesy MITI, ERSDAC, JAROS, and the U.S./Japan asterweb.jpl.nasa.gov/ ASTER Science Team
identifier jimani_ast_2004151
Floods in Gonaives, Haiti: N …
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima …
aster_gonaives_03oct04
mediatype IMAGE
mediatype image
date 2004-10-03
creator NASA -- NASA Image Of The Day
identifier aster_gonaives_03oct04
Flooding on Hispaniola: Imag …
nasa, nasaimageofthedaygalle …
The skies over Hispaniola op …
hispaniola_combined
mediatype IMAGE
mediatype image
date 2004-05-24
creator NASA -- Topography map of Hispaniola (top) courtesy NASA's www2.jpl.nasa.gov/srtm/'' target=''_blank Shuttle Radar Topography Mission (SRTM). Population density map courtesy sedac.ciesin.columbia.edu/ '' target=''_blank Socioeconomic Data and Applications Center (SEDAC).
identifier hispaniola_combined
Flooding on Hispaniola: Imag …
nasa, nasaimageofthedaygalle …
The skies over Hispaniola op …
hispaniola_combined
mediatype IMAGE
mediatype image
date 2004-05-24
creator NASA -- Topography map of Hispaniola (top) courtesy NASA's www2.jpl.nasa.gov/srtm/'' target=''_blank Shuttle Radar Topography Mission (SRTM). Population density map courtesy sedac.ciesin.columbia.edu/ '' target=''_blank Socioeconomic Data and Applications Center (SEDAC).
identifier hispaniola_combined
Floods in Gonaives, Haiti: N …
nasa, nasanaturalhazards
The month that has passed si …
Haiti_RAD_2004274
mediatype IMAGE
mediatype image
date 2004-09-30
creator NASA -- NASA Image Of The Day
identifier Haiti_RAD_2004274
Severe Floods Sweep Across H …
nasa, nasanaturalhazards
Heavy rain brought tragedy t …
aster_shaiti_26oct03_30may04
mediatype IMAGE
mediatype image
date 2004-06-30
creator NASA -- NASA Image Of The Day
identifier aster_shaiti_26oct03_30may04
Severe Floods Sweep Across H …
nasa, nasanaturalhazards
Heavy rain brought tragedy t …
aster_shaiti_26oct03_30may04
mediatype IMAGE
mediatype image
date 2004-06-30
creator NASA -- NASA Image Of The Day
identifier aster_shaiti_26oct03_30may04
Floods in Gonaives, Haiti: I …
nasa, nasaimageofthedaygalle …
* eoimages.gsfc.nasa.gov/ima …
Gonaives_IKO_2004266
mediatype IMAGE
mediatype image
date 2004-09-22
creator NASA -- Images copyright www.spaceimaging.com/ Space Imaging .
identifier Gonaives_IKO_2004266
Hurricane Jeanne: Natural Ha …
nasa, nasanaturalhazards
Hurricane Jeanne spins in th …
Jeanne_TMO_2004266
mediatype IMAGE
mediatype image
date 2004-09-22
creator NASA -- NASA Image Of The Day
identifier Jeanne_TMO_2004266
Hurricane Jeanne: Image of t …
nasa, nasaimageofthedaygalle …
After an eventful voyage thr …
Jeanne_TRM_2004270
mediatype IMAGE
mediatype image
date 2004-09-26
creator NASA -- Image and caption courtesy Owen Kelley, Steve Lang, and Jeff Halverson, NASA's Tropical Rainfall Measuring Mission at Goddard Space Flight Center.
identifier Jeanne_TRM_2004270
Floods in Gonaives, Haiti: I …
nasa, nasaimageofthedaygalle …
* eoimages.gsfc.nasa.gov/ima …
aster_haiti_26sep04
mediatype IMAGE
mediatype image
date 2004-09-26
creator NASA -- NASA image created by Jesse Allen, using data obtained courtesy of the of NASA/GSFC/MITI/ERSDAC/JAROS, and U.S./Japan asterweb.jpl.nasa.gov/ ASTER Science Team . Image interpretation courtesy Dr. Bob Brakenridge, www.dartmouth.edu/%7efloods/ Dartmouth Flood Observatory .
identifier aster_haiti_26sep04
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