{ "count": 20, "next": null, "previous": null, "results": [ { "id": 5515, "url": "https://svs.gsfc.nasa.gov/5515/", "result_type": "Visualization", "release_date": "2025-03-07T00:00:00-05:00", "title": "2024 Atlantic Hurricane Season (Vertical Mode)", "description": "Example composite of how this data visualization might be used on a vertical display. || hurr2024_vert_comp.1000_print.jpg (1024x1820) [651.3 KB] || hurr2024_vert_comp.1000_searchweb.png (320x180) [111.5 KB] || hurr2024_vert_comp.mp4 (1080x1920) [239.3 MB] || composite [0 Item(s)] || hurr2024_vert_comp.1000_thm.png [7.6 KB] ||", "hits": 45 }, { "id": 4809, "url": "https://svs.gsfc.nasa.gov/4809/", "result_type": "Visualization", "release_date": "2020-04-21T00:00:00-04:00", "title": "Earth Day 2020: Sea Surface Temperature (SST) from January 2016 through March 2020", "description": "Sea Surface Temperature - composited version with all layers includedThis video is also available on our YouTube channel. || sst_comp_layer.1300_print.jpg (1024x576) [73.2 KB] || sst_comp.1300_searchweb.png (320x180) [53.1 KB] || comp (1920x1080) [0 Item(s)] || sst_comp_1080p30.mp4 (1920x1080) [43.8 MB] || sst_comp_1080p30.webm (1920x1080) [12.3 MB] || comp (5760x3240) [0 Item(s)] || captions_silent.29492.en_US.srt [43 bytes] || ", "hits": 65 }, { "id": 4814, "url": "https://svs.gsfc.nasa.gov/4814/", "result_type": "Visualization", "release_date": "2020-04-15T00:00:00-04:00", "title": "Earth Day 2020: Sea Surface Salinity (SSS) from August 2011 through July 2014", "description": "Sea Surface Salinity || aquarius.2001_print.jpg (1024x576) [54.2 KB] || aquarius.2001_searchweb.png (320x180) [39.5 KB] || aquarius.2001_thm.png (80x40) [4.3 KB] || 1920x1080_16x9_30p (1920x1080) [0 Item(s)] || aquarius_1080p30.mp4 (1920x1080) [29.1 MB] || aquarius_1080p30.webm (1920x1080) [11.9 MB] || aquarius_1080p30.mp4.hwshow [182 bytes] || ", "hits": 31 }, { "id": 30008, "url": "https://svs.gsfc.nasa.gov/30008/", "result_type": "Hyperwall Visual", "release_date": "2013-03-14T00:00:00-04:00", "title": "Multi-scale Ultra-high Resolution Sea Surface Temperature (MUR)", "description": "These maps are made mostly from the satellite measurements of Sea Surface Temperature (SST), with help from surface observations that come from ships and bouys. Since the 1980's, there are a lot more SST data from satellites than surface observations. SST is invaluable for weather forecasting. But SST is also important for management of fishery, ocean acoustic communication, and the science including studies of climate and marine life. To \"blend\" the SST data from many different satellite is a tricky business. Satellite-based environmental data are usually irregularly sampled and always noisy. Every satellite has a unique sensor that measures SST. The infra-red (IR) type sensor can offer a very high resolution (down to 1 km in horizontal distance) but suffer from contamination by clouds and aerosols that block the signal. The micro-wave (MW) measurements are more reliable because of cloud-penetrating coverage but are coarser (25 km) in resolution and are not useful along the coasts due to contamination from land.So we are interested in making use of the best characteristics of each sensor data — be it resolution or coverage — and finding an optimal and objective ways to fill the data-voids under the clouds and near the coasts. || ", "hits": 345 }, { "id": 3908, "url": "https://svs.gsfc.nasa.gov/3908/", "result_type": "Visualization", "release_date": "2012-02-08T00:00:00-05:00", "title": "ECCO2 Sea Surface Temperature and Flows", "description": "Generated for Science On a Sphere show \"Loop\". This animation depicts the part of Earth's ocean circulation model that involves heat transfer.In the polar latitudes the ocean loses heat to the atmosphere. Near the equator ocean water warms, and because it is less dense, it remains close to the surface. Cast away from the planet's equator by the winds and Earth's rotation, warm equatorial waters travel on or near the surface of the globe outward toward high latitudes. But as water loses heat to the increasingly cold atmosphere far away from the equator it sinks and pushes other water out of the way. Endlessly, this pump known as Meridional Overturning Circulation, circulates water and heat around the globe. Considering that the ocean stores exponentially more heat than the atmosphere and the fact that they're always in direct contact with each other, there's a strong relationship between oceanic heat and atmospheric circulation. || ", "hits": 51 }, { "id": 3811, "url": "https://svs.gsfc.nasa.gov/3811/", "result_type": "Visualization", "release_date": "2011-01-11T00:00:00-05:00", "title": "Components of the Water Cycle on a Flat Map", "description": "Water regulates climate, predominately storing heat during the day and releasing it at night. Water in the ocean and atmosphere carry heat from the tropics to the poles. The process by which water moves around the earth, from the ocean, to the atmosphere, to the land and back to the ocean is called the water cycle. The animations below each portray a component of the water cycle. The three animations of atmospheric phenomena were created using data from the GEOS-5 atmospheric model on the cubed-sphere, run at 14-km global resolution for 25-days. Variables animated here include hourly evaporation, water vapor and precipitation. For more information on GEOS-5 see http://gmao.gsfc.nasa.gov/systems/geos5 . For more information on the cubed-sphere work see http://science.gsfc.nasa.gov/610.3/cubedsphere.html.The animation of global sea surface temperature was created using data from a model run of ECCO's Ocean General Circulation Model. See http://www.ecco-group.org/model.htm for more information on ECCO.This group of animations are an orthographic view of the data used in Components of the Water Cycle. || ", "hits": 85 }, { "id": 3648, "url": "https://svs.gsfc.nasa.gov/3648/", "result_type": "Visualization", "release_date": "2009-10-08T00:00:00-04:00", "title": "Components of the Water Cycle", "description": "Water regulates climate, storing heat during the day and releasing it at night. Water in the ocean and atmosphere carry heat from the tropics to the poles. The process by which water moves around the earth, from the ocean, to the atmosphere, to the land and back to the ocean is called the water cycle. The animations below each portray a component of the water cycle. All use an identical view and camera motion to allow for easy compositing.Data for the animation of global sea surface temperature was derived from a model run of ECCO's Ocean General Circulation Model. See http://www.ecco-group.org/model.htm for more information on ECCO.Data for the animation of atmospheric phenomena was created using data from the GEOS-5 atmospheric model on the cubed-sphere, run at 14-km global resolution for 25-days. Variables animated here include evaporation, water vapor and precipitation.For more information on the GEOS-5 see http://gmao.gsfc.nasa.gov/systems/geos5.For more information on the cubed-sphere work see http://science.gsfc.nasa.gov/610.3/cubedsphere.html.All three of these animations are time synchronous throughout the animation to allow cross fades during compositing.The final animation shown here, a pulsing network of rivers over the continents, represents the flow of water from land back into the ocean, thereby completing the water cycle.A flat version of these animations can be found in item #3811. || ", "hits": 94 }, { "id": 3581, "url": "https://svs.gsfc.nasa.gov/3581/", "result_type": "Visualization", "release_date": "2008-11-30T00:00:00-05:00", "title": "2008 Hurricane Season with Sea Surface Temperature", "description": "This animation depicts the 2008 hurricane season and the corresponding water temperature, for the dates 6/1/08 through 11/30/08. The colors on the ocean represent the sea surface temperatures, and satellite images of the storm clouds are laid over the temperatures to clearly show the positions of the storms. Hurricane winds are sustained by the heat energy of the warm surface waters of the ocean. As a hurricane passes over the warm surface it churns the water, drawing the deeper, cooler water to the surface. This mixing can appear in the animation as a blue pool trailing the hurricane. The sea surface temperature data was taken by the AMSR-E instrument on the Aqua satellite, while the cloud images were taken by the Imager on the GOES-12 satellite. || ", "hits": 26 }, { "id": 2759, "url": "https://svs.gsfc.nasa.gov/2759/", "result_type": "Visualization", "release_date": "2003-06-23T12:00:00-04:00", "title": "AMSR-E Anomalous Pacific Sea Surface Temperature Data Used to predict 2003 Hurricane Season", "description": "Researchers and forecasters often study sea surface temperatures to predict the upcoming year's tropical cyclone activity. This sequence tracks warmer-than-normal waters and colder-than-normal waters in the Pacific Ocean. In 2003, experts have predicted a 'normal to below normal' number of tropical cyclones. Researchers say the Pacific may transition to the colder-than-normal La Niña phase. Fewer than normal hurricanes generally form when El Niño is present. Areas in red represent warmer than normal and areas in blue represent cooler than normal. || ", "hits": 14 }, { "id": 2760, "url": "https://svs.gsfc.nasa.gov/2760/", "result_type": "Visualization", "release_date": "2003-06-23T12:00:00-04:00", "title": "AMSR-E Anomalous Pacific Sea Surface Temperature Data Used to predict 2003 Hurricane Season", "description": "Researchers and forecasters often study sea surface temperatures to predict the upcoming year's tropical cyclone activity. This sequence tracks warmer-than-normal waters and colder-than-normal waters in the Pacific Ocean. In 2003, experts have predicted a 'normal to below normal' number of tropical cylones. Researchers say the Pacific may transition to the colder-than-normal La Niña phase. Fewer than normal hurricanes generally form when El Niño is present. Areas in red represent warmer than normal and areas in blue represent cooler than normal. || ", "hits": 13 }, { "id": 2468, "url": "https://svs.gsfc.nasa.gov/2468/", "result_type": "Visualization", "release_date": "2002-06-24T12:00:00-04:00", "title": "Aqua First Light: AMSR-E Sea Surface Temperature on a Flat Map", "description": "This is a cloudless image of Sea Surface Temperature taken by Aqua's instrument AMSR-E. Three day average data. || This is a cloudless image of Sea Surface Temperature taken by Aquas instrument AMSR-E. || a002468.00005_print.png (720x480) [470.2 KB] || a002468_pre.jpg (320x240) [12.0 KB] || a002468.webmhd.webm (960x540) [2.7 MB] || a002468.dv (720x480) [42.7 MB] || a002468.mpg (320x240) [568.7 KB] || ", "hits": 9 }, { "id": 2470, "url": "https://svs.gsfc.nasa.gov/2470/", "result_type": "Visualization", "release_date": "2002-06-24T12:00:00-04:00", "title": "Aqua First Light: AMSR-E Sea Surface Temperature Global", "description": "This is a cloudless image of Sea Surface Temperature taken by Aqua's AMSR-E. Three day average data. || This is a cloudless image of Sea Surface Temperature taken by Aqua's AMSR-E. Three day average data. || a002470.00100_print.png (720x480) [479.5 KB] || a002470_pre.jpg (320x240) [7.9 KB] || a002470.webmhd.webm (960x540) [4.4 MB] || a002470.dv (720x480) [111.6 MB] || a002470.mpg (320x240) [3.3 MB] || ", "hits": 13 }, { "id": 2432, "url": "https://svs.gsfc.nasa.gov/2432/", "result_type": "Visualization", "release_date": "2002-04-22T12:00:00-04:00", "title": "Sea Surface Temperature Anomaly from July 5, 2001 to March 10, 2002", "description": "This animation depicts the difference between the actual sea surface temperature and the average climatology data. Blue areas indicate temperatures colder than average while red areas indicate regions that are warmer. Temperature values between -4 degrees and +3 degrees are mapped to gradient color ramps, and regions with less than one degree deviation from average are shown as gray. || ", "hits": 16 }, { "id": 2398, "url": "https://svs.gsfc.nasa.gov/2398/", "result_type": "Visualization", "release_date": "2002-03-07T12:00:00-05:00", "title": "Global Sea Surface Temperature from MODIS between July 2001 and February 2002", "description": "This animation shows the sea surface temperature in the Pacific Ocean in false color from July 2001 to the middle of February 2002 || a002398.00100_print.png (720x480) [467.1 KB] || sstdaily_pre.jpg (320x240) [10.6 KB] || a002398.webmhd.webm (960x540) [3.0 MB] || a002398.dv (720x480) [47.3 MB] || sstdaily.mpg (320x240) [1.4 MB] || ", "hits": 22 }, { "id": 328, "url": "https://svs.gsfc.nasa.gov/328/", "result_type": "Visualization", "release_date": "1998-10-20T12:00:00-04:00", "title": "Earth Today 1998 Countdown", "description": "The ability to see Earth from space has forever changed our view of the planet. We are now able to look at the Earth as a whole, and observe how its atmosphere, oceans, land masses, and life interact as global systems. Earth's atmosphere, hydrosphere, geosphere, and biosphere are dynamic, changing on timescales of days, minutes, or even seconds. Monitoring the Earth in near real time allows us to get an up to date picture of conditions on our planet. More SVS visualizations for the Earth Today exhibit are in animation ids 1401 and 1402. || ", "hits": 55 }, { "id": 1401, "url": "https://svs.gsfc.nasa.gov/1401/", "result_type": "Visualization", "release_date": "1998-10-20T12:00:00-04:00", "title": "Earth Today 1998 Introduction", "description": "The ability to see Earth from space has forever changed our view of the planet. We are now able to look at the Earth as a whole, and observe how its atmosphere, oceans, land masses, and life interact as global systems. Earth's atmosphere, hydrosphere, geosphere, and biosphere are dynamic, changing on timescales of days, minutes, or even seconds. Monitoring the Earth in near real time allows us to get an up to date picture of conditions on our planet. More SVS visualizations for the Earth Today exhibit can be found in animation ids 328 and 1402. || ", "hits": 43 }, { "id": 1402, "url": "https://svs.gsfc.nasa.gov/1402/", "result_type": "Visualization", "release_date": "1998-10-20T12:00:00-04:00", "title": "Earth Today 1998", "description": "The ability to see Earth from space has forever changed our view of the planet. We are now able to look at the Earth as a whole, and observe how its atmosphere, oceans, land masses, and life interact as global systems. Earth's atmosphere, hydrosphere, geosphere, and biosphere are dynamic, changing on timescales of days, minutes, or even seconds. Monitoring the Earth in near real time allows us to get an up to date picture of conditions on our planet. More SVS visualizations for the Earth Today exhibit can be found in animation ids 328 and 1401. || ", "hits": 56 }, { "id": 116, "url": "https://svs.gsfc.nasa.gov/116/", "result_type": "Visualization", "release_date": "1996-10-25T12:00:00-04:00", "title": "The HoloGlobe Project (Version 2)", "description": "This animation was produced for the Smithsonian Institution's HoloGlobe Exhibit which opened to the public on August 10, 1996. The various orthographic data sets showing progressive global change were mapped onto a rotating globe and projected into space to create a holographic image of the Earth. Showing Earthandapos;s atmosphere, hydrosphere, geosphere, and biosphere are dynamic, changing on timescales of days, minutes, or even seconds. This animation is a revised version of Animation #96 [The HoloGlobe Project (Version 1)]. || ", "hits": 60 }, { "id": 96, "url": "https://svs.gsfc.nasa.gov/96/", "result_type": "Visualization", "release_date": "1996-08-01T12:00:00-04:00", "title": "The HoloGlobe Project (Version 1)", "description": "This animation was originally produced for the Smithsonian Institution's HoloGlobe Exhibit which opened to the public on August 10, 1996 at the Museum of Natural History in Washington, DC. These various data sets showing progressive global change were mapped onto a rotating globe and projected into space to create a holographic image of the Earth. Showing Earth's atmosphere, hydrosphere, geosphere, and biosphere are dynamic, changing on timescales of days, minutes, or even seconds. || ", "hits": 53 }, { "id": 155, "url": "https://svs.gsfc.nasa.gov/155/", "result_type": "Visualization", "release_date": "1996-08-01T12:00:00-04:00", "title": "The HoloGlobe Project (Version 3)", "description": "These animations were produced for the Smithsonian Institution's HoloGlobe Exhibit which opened to the public on August 10, 1996 at the Museum of Natural History in Washington, DC. The various data sets show progressive global change mapped onto a rotating globe and projected into space to create a holographic image of the Earth. The exhibit shows that Earth's atmosphere, hydrosphere, geosphere, and biosphere are dynamic, changing on timescales of days, minutes, or even seconds. The exhibit has since been relocated to the west coast. This is a revised version from Animation #116 [The HoloGlobe Project (version 2)]. || ", "hits": 96 } ] }