{ "count": 41, "next": null, "previous": null, "results": [ { "id": 11784, "url": "https://svs.gsfc.nasa.gov/11784/", "result_type": "Produced Video", "release_date": "2015-02-26T13:30:00-05:00", "title": "GPM Yields IMERG", "description": "GPM Project Scientist Dr. Gail Skofronick-Jackson and Deputy Project Scientist Dr. George Huffman narrate a look at the new GPM IMERG global dataset.Complete transcript in Brazilian Portuguese available. || IMERG_Final_Cut_v2_youtube_hq.00152_print.jpg (1024x576) [181.2 KB] || IMERG_Final_Cut_v2_youtube_hq_print.jpg (1024x576) [195.5 KB] || IMERG_Final_Cut_v2_youtube_hq_thm.png (80x40) [7.4 KB] || IMERG_Final_Cut_v2_youtube_hq_web.png (320x180) [95.0 KB] || IMERG_Final_Cut_v2_youtube_hq_searchweb.png (320x180) [95.0 KB] || IMERG_Final_Cut_v2_appletv_subtitles.m4v (960x540) [55.3 MB] || IMERG_Final_Cut_v2_1280x720.wmv (1280x720) [67.0 MB] || IMERG_Final_Cut_v2_appletv.m4v (960x540) [55.3 MB] || IMERG_Final_Cut_v2_youtube_hq.mov (1920x1080) [585.8 MB] || IMERG_Final_Cut_v2_720x480.wmv (720x480) [67.1 MB] || 11784_IMERG.pt_BR.vtt [2.9 KB] || 11784_IMERG.pt_BR.srt [3.1 KB] || IMERG_Final_Cut_v2_nasaportal.mov (640x360) [55.6 MB] || GPMIMERG.en_US.srt [2.4 KB] || IMERG_Final_Cut_v2_ipod_lg.m4v (640x360) [21.9 MB] || IMERG_Final_Cut_v2_720x480.webm (720x480) [14.8 MB] || GPMIMERG.en_US.vtt [2.4 KB] || IMERG_Final_Cut_v2-H264_Best_1920x1080_2997.mov (1920x1080) [1.6 GB] || IMERG_Final_Cut_v2_prores.mov (1920x1080) [2.0 GB] || IMERG_Final_Cut_v2_ipod_sm.mp4 (320x240) [11.9 MB] || ", "hits": 38 }, { "id": 4147, "url": "https://svs.gsfc.nasa.gov/4147/", "result_type": "Visualization", "release_date": "2014-02-27T00:00:00-05:00", "title": "Global rainfall prior to the Launch of Global Precipitation Measurement (GPM) Satellite", "description": "The Global Precipitation Measurement, or GPM, mission will use an international constellation of satellites to study global rain, snow and ice to better understand our climate, weather, and hydrometeorological processes. We cannot understand the water and energy cycle or predict weather and climate without an accurate knowledge of the intensity and distribution of global precipitation. Measurement of various aspects of precipitation (e.g. distribution, amount, rates, and the associated heat release) represents one of the most challenging research problems in Earth science. Yet, accurate global precipitation measurements will benefit weather, climate, hydro-meteorological, and applications communities alike. The concept of Global Precipitation Measurement (GPM) is NASA's response to the need for accurate global precipitation measurement. || ", "hits": 32 }, { "id": 3852, "url": "https://svs.gsfc.nasa.gov/3852/", "result_type": "Visualization", "release_date": "2011-09-15T00:00:00-04:00", "title": "Hurricane Irene", "description": "This visualization follows the development of Hurricane Irene as it moves up the East Coast of the United States in August of 2011. There are three versions of this visualization. Two of the versions follow the eye of the storm until it dissipates, then pulls back to reveal the rain fall accumulation track as measured by the Tropcical Rainfall Measuring Mission (TRMM) using two different color tables. The first version only includes rainfall along the storm track. The second and third versions include all rainfall. The third version shows the rainfall accumulating as the storm moves.These visualizations were created to support presenstations at the National Air and Space Museum (NASM) 2011. || ", "hits": 50 }, { "id": 3850, "url": "https://svs.gsfc.nasa.gov/3850/", "result_type": "Visualization", "release_date": "2011-08-30T00:00:00-04:00", "title": "Extreme Russian Fires and Pakistan Floods Linked Meteorologically", "description": "In the summer of 2010, months of record-breaking drought and temperatures culminated with a rash of fires that ravaged western Russia for weeks. Temperatures in Moscow soared to an average of 104 °F (40 °C) during late July and early August — more than 18 °F (10 °C) above normal. Hundreds of fires broke out producing some $15 million in damages. The heat and smoke killed about 56,000 people, making the Russian wildfires fires one of the most lethal natural disasters of the year.Meanwhile, some 930 kilometers (1,500 miles) away, relentless rainfall was simultaneously pounding Pakistan and generating intense flooding. The Pakistan Meteorological Department reported nationwide rain totals 70 percent above normal in July and 102 percent above normal in August.New research conducted by William Lau, an atmospheric scientist at NASA's Goddard Space Flight Center in Greenbelt, Md., suggests the two seemingly disconnected events were actually closely linked.Under normal circumstances, the jet stream pushes weather fronts through Eurasia in four or five days, but something unusual happened in July of 2010. A large-scale, stagnant weather pattern — known as an Omega blocking event — slowed the Rossby wave over Russia and prevented the normal progression of weather systems from west to east.As a result, a large region of high-pressure formed over Russia trapping a hot, dry air mass over the area. As the high lingered, the land surface dried and the normal transfer of moisture from the soil to the atmosphere slowed. Precipitation ceased, vegetation dried out, and the region became a taiga tinderbox.Meanwhile, the blocking pattern created unusual downstream wind patterns over Pakistan. Areas of low pressure on the leading edge of the Rossby wave formed in response to the high, pulling cold, dry Siberian air into lower latitudes.This cold air from Siberia clashed with warm, moist air arriving over Pakistan from the Bay of Bengal as part of the monsoon. There's nothing unusual about moisture moving north over India toward the Himalayas. It's a normal part of the monsoon. However, in this case, the unusual wind patterns associated with the blocking high brought upper level air disturbances farther south than typical, which in effect helped shifted the entire monsoon system north and west.This brought heavy monsoon rains — centered over parts of India — squarely over the northern part of Pakistan, a region ill-prepared to handle large amounts of rain. || ", "hits": 33 }, { "id": 3797, "url": "https://svs.gsfc.nasa.gov/3797/", "result_type": "Visualization", "release_date": "2010-10-28T00:00:00-04:00", "title": "NASA Builds Global Precipitation Measurement (GPM)", "description": "The Global Precipitation Measurement, or GPM, mission will use an international constellation of satellites to study global rain, snow and ice to better understand our climate, weather, and hydrometeorological processes. One of the critical components of the Earth's hydrological cycle is precipitation. Rainfall is essential for providing the fresh water that sustains life. Water cycling and the future availability of fresh water resources are immense societal concerns that impact every nation on Earth. It affects virtually every environmental issue. Solid forms of precipitation, such as snow and ice, frequently create hazardous conditions during winter storms. Heavy snowfalls severely disrupt transportation networks and temporarily paralyze local economies. Snowfall is also beneficial to many, as it provides the major source of fresh water during arid summer months in many mountainous regions. In the atmosphere, the condensation of water vapor into rain, and then rain into ice, releases vast quantifies of heat. The heat energy drives the wind systems of Earth's atmosphere, and powers violent storms such as hurricanes. In many respects, precipitation is truly the centerpiece of our planet's hydrological cycle, and understanding it is crucial to unraveling many of the uncertainties about Earth's climate.We cannot understand the water and energy cycle or predict weather and climate without an accurate knowledge of the intensity and distribution of global precipitation. Measurement of various aspects of precipitation (e.g. distribution, amount, rates, and the associated heat release) represents one of the most challenging research problems in Earth science. Yet, accurate global precipitation measurements will benefit weather, climate, hydro-meteorological, and applications communities alike. The concept of Global Precipitation Measurement (GPM) is NASA's response to the need for accurate global precipitation measurement. || ", "hits": 16 }, { "id": 10633, "url": "https://svs.gsfc.nasa.gov/10633/", "result_type": "Produced Video", "release_date": "2010-08-24T07:00:00-04:00", "title": "Katrina Retrospective: 5 Years After the Storm", "description": "On August 29, 2005, Hurricane Katrina made landfall along the Gulf Coast. Five years later, NASA revisits the storm with a short video that shows Katrina as captured by satellites. Before and during the hurricane's landfall, NASA provided data gathered from a series of Earth observing satellites to help predict Katrina's path and intensity. In its aftermath, NASA satellites also helped identify areas hardest hit.For complete transcript, click here. || G2010-104_Hurricane_Katrina_appleTV.00427_print.jpg (1024x576) [144.4 KB] || G2010-104_Hurricane_Katrina_appleTV_web.png (320x180) [295.6 KB] || G2010-104_Hurricane_Katrina_appleTV_thm.png (80x40) [17.7 KB] || G2010-104_Hurricane_Katrina_appleTV.m4v (960x540) [144.9 MB] || G2010-104_Hurricane_Katrina.wmv (1280x720) [90.1 MB] || G2010-104_Hurricane_Katrina_youtube_hq.mov (1280x720) [203.1 MB] || G2010-104_Hurricane_Katrina_prores.mov (1280x720) [3.0 GB] || G2010-104_Hurricane_Katrina_appleTV.webmhd.webm (960x540) [43.9 MB] || G2010-104_Hurricane_Katrina_ipod_lg.m4v (640x360) [55.8 MB] || G2010-104_Hurricane_Katrina_portal.mov (640x360) [119.5 MB] || G2010-104_Hurricane_Katrina_nasacast.m4v (320x240) [25.5 MB] || G2010-104_Hurricane_Katrina_SVS.mpg (512x288) [27.6 MB] || ", "hits": 70 }, { "id": 3462, "url": "https://svs.gsfc.nasa.gov/3462/", "result_type": "Visualization", "release_date": "2007-09-30T12:00:00-04:00", "title": "Global TRMM Rainmap 2005", "description": "This is a three-hour global rainmap from January 1, 2005 through December 31, 2005, as compiled by the TRMM satellite's Multi-satellite Precipation Analysis. The TRMM Multi-satellite Precipitation Analysis produces three hourly rain rates at 0.250 latitude by 0.250 longitude grid covering 500S to 500N. The input data for this merged product include a merged intercalibrated microwave-only product (3B40RT) and an Infrared rain product that is calibrated using microwave rain rates (3B41RT). Currently, 3B40RT is generated using rain rate estimates from microwave measurements from the TRMM sensors and the Special Sensor Microwave Imagers on board the DMSP satellites using the Goddard Profiling Algorithm (GPROF). 3B41RT is based on infrared measurements from geostationary satellites that are calibrated using microwave rain estimates. The 3B42RT estimate consists of the merged microwave estimate within the 3 hourly 0.25 degree space/time grid when available, and the calibrated IR rain rates otherwise. || ", "hits": 20 }, { "id": 3463, "url": "https://svs.gsfc.nasa.gov/3463/", "result_type": "Visualization", "release_date": "2007-09-30T12:00:00-04:00", "title": "Global TRMM Rainmap 2004", "description": "This is a three-hour global rainmap from January 1, 2005 through December 31, 2004, as compiled by the TRMM satellite's Multi-satellite Precipation Analysis. The TRMM Multi-satellite Precipitation Analysis produces three hourly rain rates at 0.250 latitude by 0.250 longitude grid covering 500S to 500N. The input data for this merged product include a merged intercalibrated microwave-only product (3B40RT) and an Infrared rain product that is calibrated using microwave rain rates (3B41RT). Currently, 3B40RT is generated using rain rate estimates from microwave measurements from the TRMM sensors and the Special Sensor Microwave Imagers on board the DMSP satellites using the Goddard Profiling Algorithm (GPROF). 3B41RT is based on infrared measurements from geostationary satellites that are calibrated using microwave rain estimates. The 3B42RT estimate consists of the merged microwave estimate within the 3 hourly 0.25 degree space/time grid when available, and the calibrated IR rain rates otherwise. || ", "hits": 12 }, { "id": 3461, "url": "https://svs.gsfc.nasa.gov/3461/", "result_type": "Visualization", "release_date": "2007-09-30T00:00:00-04:00", "title": "NASA Scientists Research Global Precipitation", "description": "The Global Precipitation Climatology Project (GPCP) is an element of the Global Energy and Water Cycle Experiment (GEWEX) of the World Climate Research program (WCRP). It was established by the WCRP in 1986 with the initial goal of providing monthly mean precipitation data on a 2.5 || ", "hits": 18 }, { "id": 3362, "url": "https://svs.gsfc.nasa.gov/3362/", "result_type": "Visualization", "release_date": "2006-06-14T00:00:00-04:00", "title": "NASA Scientists Research Tropical Cyclones", "description": "From hot towers to phytoplankton blooms, NASA's cutting-edge hurricane research has been revealing never-before-seen aspects of these giant storms for over a decade. The past three years have seen great progress in the areas of intensity monitoring and 3-D modeling of hurricanes. In 2006, scientists at NASA and other institutions have more tools than ever to study these storms using the very latest in ground, air, and space-based technology. The top left window shows sea surface temperature and clouds. Orange and red colors represent ocean temperatures at 82 degrees Fahrenheit or higher. This is the temperature required for hurricanes to form. The bottom left window shows wind analysis model data from NASA's Modeling, Analysis, and Prediction (MAP '05) program. The top right window shows Rainfall Accumulation for Hurricane Katrina from the TRMM spacecraft. The bottom right window shows Energy-releasing deep convective clouds (to 16 km) in the eyewall of Hurricane Katrina, called 'Hot Towers', on August 28 occurred while the storm was intensifying to a category 5 classification. || ", "hits": 24 }, { "id": 3239, "url": "https://svs.gsfc.nasa.gov/3239/", "result_type": "Visualization", "release_date": "2005-10-05T00:00:00-04:00", "title": "Hurricane Katrina Rain Accumulation (WMS)", "description": "This animation shows rain accumulation from Hurricane Katrina from August 23 through 30, 2005 based on data from the Tropical Rainfall Measuring Mission (TRMM) Multisatellite Precipitation Analysis. Satellite cloud data from NOAA/GOES is overlaid for context. The accumulation is shown in colors ranging from green (less than 30 mm of rain) through red (80 mm or more). The TRMM satellite, using the world's only spaceborne rain radar and other microwave instruments, measures rainfall over the ocean. || ", "hits": 24 }, { "id": 3268, "url": "https://svs.gsfc.nasa.gov/3268/", "result_type": "Visualization", "release_date": "2005-09-27T00:00:00-04:00", "title": "Hurricane Rita Rain Accumulation", "description": "This animation shows rain accumulation from Hurricane Rita from September 18 through 25, 2005 based on data from the Tropical Rainfall Measuring Mission (TRMM) Multisatellite Precipitation Analysis. Satellite cloud data from NOAA/GOES is overlaid for context. The accumulation is shown in colors ranging from green (less than 30 mm of rain) through red (80 mm or more). The TRMM satellite, using the world's only spaceborne rain radar and other microwave instruments, measures rainfall over the ocean. || ", "hits": 19 }, { "id": 3290, "url": "https://svs.gsfc.nasa.gov/3290/", "result_type": "Visualization", "release_date": "2005-09-27T00:00:00-04:00", "title": "Hurricane Wilma Rain Accumulation", "description": "This animation shows rain accumulation from Hurricane Wilma from October 15 through 25, 2005 based on data from the Tropical Rainfall Measuring Mission (TRMM) Multisatellite Precipitation Analysis. Satellite cloud data from NOAA/GOES is overlaid for context. The accumulation is shown in colors ranging from green (less than 30 mm of rain) through red (80 mm or more). The TRMM satellite, using the world's only spaceborne rain radar and other microwave instruments, measures rainfall over the ocean. || ", "hits": 24 }, { "id": 3221, "url": "https://svs.gsfc.nasa.gov/3221/", "result_type": "Visualization", "release_date": "2005-09-08T00:00:00-04:00", "title": "Hurricane Katrina Rain Accumulation", "description": "This animation shows rain accumulation from Hurricane Katrina from August 23 through 30, 2005 based on data from the Tropical Rainfall Measuring Mission (TRMM) Multisatellite Precipitation Analysis. Satellite cloud data from NOAA/GOES is overlaid for context. The accumulation is shown in colors ranging from green (less than 30 mm of rain) through red (80 mm or more). The TRMM satellite, using the world's only spaceborne rain radar and other microwave instruments, measures rainfall over the ocean. || ", "hits": 40 }, { "id": 3171, "url": "https://svs.gsfc.nasa.gov/3171/", "result_type": "Visualization", "release_date": "2005-06-01T12:00:00-04:00", "title": "Wind Anomalies During El Niño/La Niña Event of 1997-1998 (WMS)", "description": "The El Niño/La Niña event in 1997-1999 was particularly intense, but was also very well observed by satellites and buoys. Deviations from normal winds speeds and directions were computed using data from the Special Sensor Microwave/Imager (SSMI) on the Tropical Rainfall Measuring Mission (TRMM) satellite. || ", "hits": 15 }, { "id": 3131, "url": "https://svs.gsfc.nasa.gov/3131/", "result_type": "Visualization", "release_date": "2005-03-11T12:00:00-05:00", "title": "Hurricane Isabel 2003 Rain Accumulation", "description": "This animation shows rain accumulation from Hurricane Isabel from September 6 through 20, 2003 based on data from the Tropical Rainfall Measuring Mission (TRMM) Multisatellite Precipitation Analysis. The accumulation is shown in colors ranging from green (less than 50 mm of rain) through red (200 mm or more). The TRMM satellite, using the world's only spaceborne rain radar and other microwave instruments, measures rainfall over the ocean. || ", "hits": 23 }, { "id": 3083, "url": "https://svs.gsfc.nasa.gov/3083/", "result_type": "Visualization", "release_date": "2005-01-12T12:00:00-05:00", "title": "NASA Satellite Reveals Heavy Rainfall Patterns in California", "description": "The collision of a flow of moisture from Hawaii known as a 'Pineapple Express' and a persistent low pressure system are wreaking havoc on California weather. This movie shows rain accumulation in San Diego from Jan. 6 through Jan. 11 based on data from the Tropical Rainfall Measuring Mission (TRMM)-based Multisatellite Precipitation Analysis. The accumulation is shown in colors ranging from green (less than 50 mm of rain) through red (200 mm or more). The TRMM satellite, using the world's only spaceborne rain radar and other microwave instruments, measures rainfall over the ocean. In this case instruments were able to reveal rainfall structure resulting from storms 'riding' the actual Pineapple Express extending toward Hawaii, which is beyond the range of conventional land-based National Weather Service radars.In early 1995, a Pineapple Express hit California, contributing to a season of winter storms that killed 27 people and did $3 billion in damages and costs. A Pineapple Express in mid-October 2003 wreaked havoc from south of Seattle to north of Vancouver Island. Flooding forced more than 3,000 people from their homes. || ", "hits": 17 }, { "id": 3022, "url": "https://svs.gsfc.nasa.gov/3022/", "result_type": "Visualization", "release_date": "2004-09-29T12:00:00-04:00", "title": "Hurricanes Frances, Ivan, and Jeanne Bring Record Rainfall", "description": "This animation shows the daily rain accumulation between September 2 and 28, 2004. Areas of red show where at least 3 inches of accumulated rain were recorded. Areas of yellow show 1 inch of accumulated rain. The green path represents the track of Hurricane Frances from August 25, 2004 to September 9, 2004. The red line represents the track of Hurricane Ivan from September 2, 2004 to September 23, 2004. Purple is Hurricane Jeanne from September 13, 2004 to September 28, 2004. || triplePusha.1100.jpg (720x486) [69.9 KB] || rain_accumulation_640x480_pre.jpg (320x240) [11.1 KB] || rain_accumulation_320x240_pre.jpg (320x240) [11.4 KB] || rain_accumulation_640x480.webmhd.webm (960x540) [998.6 KB] || 720x486_4x3_29.97p (720x486) [16.0 KB] || rain_accumulation_640x480.mpg (640x480) [3.8 MB] || rain_accumulation_320x240.mpg (320x240) [1010.3 KB] || ", "hits": 41 }, { "id": 3013, "url": "https://svs.gsfc.nasa.gov/3013/", "result_type": "Visualization", "release_date": "2004-09-20T12:00:00-04:00", "title": "Hurricane Ivan Rain Accumulation September 2-19, 2004 (wide view)", "description": "This animation shows rain accumulation between Hurricane Frances and Hurricane Ivan. The green path is the path Hurricane Frances took between August 25, 2004, and September 9, 2004. The red path is Hurricane Ivan from September 2, 2004, to September 19, 2004. || ", "hits": 32 }, { "id": 3014, "url": "https://svs.gsfc.nasa.gov/3014/", "result_type": "Visualization", "release_date": "2004-09-20T12:00:00-04:00", "title": "Hurricane Ivan Rain Accumulation September 2-19, 2004 (Close View)", "description": "This animation shows rain accumulation between Hurricane Frances and Hurricane Ivan. The green path is the path Hurricane Frances took between August 25, 2004, and September 9, 2004. The red path is Hurricane Ivan from September 2, 2004, to September 19, 2004. || ", "hits": 19 }, { "id": 2987, "url": "https://svs.gsfc.nasa.gov/2987/", "result_type": "Visualization", "release_date": "2004-09-10T12:00:00-04:00", "title": "Hurricane Isabel Genesis", "description": "This animation follows Hurricane Isabel (2003) from its birthplace in the Ethiopian Highlands of East Africa, across the Atlantic Ocean, to the United States. Atlantic hurricanes are often formed as winds over the Gulf of Aden intersect with the Ethiopian Highlands. This animation zooms into the Ethiopian Highlands and shows several storms being formed. Then, the animation dissolves in a reticle to focus in specifically on the formation of Hurricane Isabel. The reticle follows the storm across Africa and into the Atlantic. The path and intensity of Hurricane Isabel is depicted by a colored path. Blue represents the genesis of the storm. Green is a Tropical Depression where winds are less than 39 miles per hour. Yellow is a Tropical Storm where winds are between 39 and 73 miles per hour. Red is a category 1 hurricane where winds are between 74 and 95 miles per hour. Light Red is a category 2 hurricane with winds between 96 and 110 miles per hour. Magenta is a category 3 hurricane with winds between 111 and 130 miles per hour. Light magenta is a category 4 hurricane with winds between 131 and 154 miles per hour. White represents a category 5 hurricane where winds are greater than 155 miles per hour. Note how Isabel gains size and speed over the warm waters of the Atlantic. || ", "hits": 66 }, { "id": 2910, "url": "https://svs.gsfc.nasa.gov/2910/", "result_type": "Visualization", "release_date": "2004-02-13T12:00:00-05:00", "title": "Global TRMM Rainmap, August - September 2003 (WMS)", "description": "This is a three-hour global rainmap from August 27 through September 8, 2003, as observed by the TRMM satellite. || ", "hits": 20 }, { "id": 2261, "url": "https://svs.gsfc.nasa.gov/2261/", "result_type": "Visualization", "release_date": "2001-09-07T12:00:00-04:00", "title": "Global Twenty Year Rainmap", "description": "This is a monthly global rainmap from January, 1979 to January, 2001. The movie correlates 22 years of data from a combination of remote sensing data and ground based sources. || ", "hits": 10 }, { "id": 2034, "url": "https://svs.gsfc.nasa.gov/2034/", "result_type": "Visualization", "release_date": "2000-12-13T12:00:00-05:00", "title": "TRMM Monthly Rainmap Wrapped to a Sphere", "description": "TRMM Monthly rainfall averages, looking at the whole world. || TRMM monthly rainfall averages for the period from January 1998 through October 2000, wrapped to a rotating globe || a002034.00005_print.png (720x480) [507.2 KB] || a002034_pre.jpg (320x218) [13.4 KB] || a002034.webmhd.webm (960x540) [6.1 MB] || a002034.dv (720x480) [140.6 MB] || a002034.mp4 (640x480) [7.5 MB] || a002034.mpg (352x240) [5.1 MB] || ", "hits": 9 }, { "id": 2035, "url": "https://svs.gsfc.nasa.gov/2035/", "result_type": "Visualization", "release_date": "2000-12-13T12:00:00-05:00", "title": "TRMM Anomaly Rainmap Wrapped to a Sphere", "description": "Monthly average precipitation anomalies for the period January 1998 through October 2000 from TRMM/PR and TRMM/TMI measurements, shown on a rotating globe. || a002035.00005_print.png (720x480) [483.8 KB] || a002035_pre.jpg (320x218) [12.7 KB] || a002035.webmhd.webm (960x540) [5.5 MB] || a002035.dv (720x480) [140.5 MB] || a002035.mp4 (640x480) [7.6 MB] || a002035.mpg (352x240) [5.1 MB] || ", "hits": 7 }, { "id": 2036, "url": "https://svs.gsfc.nasa.gov/2036/", "result_type": "Visualization", "release_date": "2000-12-13T12:00:00-05:00", "title": "TRMM Daily Rainmap Wrapped to a Sphere", "description": "TRMM daily rainmaps showing the daily rainfall around the world from January 8, 1998 through October 21, 2000. Red indicates areas of high rainfall. || ", "hits": 13 }, { "id": 2020, "url": "https://svs.gsfc.nasa.gov/2020/", "result_type": "Visualization", "release_date": "2000-12-11T12:00:00-05:00", "title": "TRMM Rainmap Anomalies: Whole Earth Views From the TRMM Mission", "description": "Global rainmaps derived from nearly three years of TRMM operations. || ", "hits": 7 }, { "id": 2021, "url": "https://svs.gsfc.nasa.gov/2021/", "result_type": "Visualization", "release_date": "2000-12-11T12:00:00-05:00", "title": "TRMM Rainmap Anomalies: El Niño/La Niña", "description": "Rainmaps derived from nearly three years of TRMM operations. || ", "hits": 7 }, { "id": 2022, "url": "https://svs.gsfc.nasa.gov/2022/", "result_type": "Visualization", "release_date": "2000-12-11T12:00:00-05:00", "title": "TRMM Rainmap Anomalies: Hurricane Floyd Meets North Carolina", "description": "Rainmaps derived from nearly three years of TRMM operations. || ", "hits": 10 }, { "id": 2023, "url": "https://svs.gsfc.nasa.gov/2023/", "result_type": "Visualization", "release_date": "2000-12-11T12:00:00-05:00", "title": "TRMM Rainmap Anomalies: Hurricane Mitch and Honduras", "description": "Rainmaps derived from nearly three years of TRMM operations. || ", "hits": 19 }, { "id": 2024, "url": "https://svs.gsfc.nasa.gov/2024/", "result_type": "Visualization", "release_date": "2000-12-11T12:00:00-05:00", "title": "TRMM Rainmap Anomalies: Flooding in Mozambique", "description": "Rainmaps derived from nearly three years of TRMM operations. || ", "hits": 24 }, { "id": 2032, "url": "https://svs.gsfc.nasa.gov/2032/", "result_type": "Visualization", "release_date": "2000-12-11T12:00:00-05:00", "title": "TRMM: Global Daily Rainmaps from January 8, 1998 through October 21, 2000", "description": "Daily global rainfall measurements from 1/8/98 to 10/21/00 as measured by TRMM. Red indicates areas of high rainfall. Blue indicates areas of low rainfall. Map is in a Plate Carrée projection. || ", "hits": 18 }, { "id": 315, "url": "https://svs.gsfc.nasa.gov/315/", "result_type": "Visualization", "release_date": "1998-12-07T12:00:00-05:00", "title": "TRMM Rainmap for September 1998: Zoom to Rotating Globe", "description": "A zoom to a rotating globe showing the monthly average rainfall for September 1998 as measured by TRMM. 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High rainfall rates are in red. || a000318.00010_print.png (720x480) [347.9 KB] || a000318_thm.png (80x40) [3.1 KB] || a000318_pre.jpg (320x238) [3.6 KB] || a000318_pre_searchweb.jpg (320x180) [20.8 KB] || a000318.webmhd.webm (960x540) [2.1 MB] || a000318.dv (720x480) [57.6 MB] || a000318.mp4 (640x480) [3.3 MB] || a000318.mpg (352x240) [1.5 MB] || ", "hits": 35 }, { "id": 1403, "url": "https://svs.gsfc.nasa.gov/1403/", "result_type": "Visualization", "release_date": "1998-12-07T12:00:00-05:00", "title": "TRMM Rainmap for September 1998: North Africa", "description": "Monthly average rainfall over northern Africa for September 1998 as measured by TRMM. 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