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            "id": 5616,
            "url": "https://svs.gsfc.nasa.gov/5616/",
            "result_type": "Visualization",
            "release_date": "2026-03-09T13:00:00-04:00",
            "title": "Global Views of ICESat-2 Data",
            "description": "ICESat-2 data products on a rotating Earth. Together they illustrate the satellite’s measurements of Earth’s land, ice, oceans, forests, and atmosphere.",
            "hits": 344
        },
        {
            "id": 5618,
            "url": "https://svs.gsfc.nasa.gov/5618/",
            "result_type": "Visualization",
            "release_date": "2026-03-04T11:00:00-05:00",
            "title": "SWOT River Volume Variations",
            "description": "SWOT River Volume Variations",
            "hits": 103
        },
        {
            "id": 5619,
            "url": "https://svs.gsfc.nasa.gov/5619/",
            "result_type": "Visualization",
            "release_date": "2026-03-04T11:00:00-05:00",
            "title": "SWOT River Volume Variations (rivers only)",
            "description": "No description available.",
            "hits": 138
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        {
            "id": 14844,
            "url": "https://svs.gsfc.nasa.gov/14844/",
            "result_type": "Produced Video",
            "release_date": "2025-07-17T10:30:00-04:00",
            "title": "NASA Interview Opportunity: Ready for Takeoff - Trailblazing Satellite Will Kick Off New Era Of Earth Observations",
            "description": "Click here for more information about NISAR.Associated cut b-roll for the live shots will be added on Monday, July 21 by 5:00 p.m. EDTNASA will host a news conference to preview the mission on Monday, July 21 at 12 p.m. EDT. More information can be found here: NASA to Preview Advanced US-India Radar Mission Ahead of Launch || Unknown-4.jpeg (1600x640) [196.7 KB] || Unknown-4_print.jpg (1024x409) [135.5 KB] || Unknown-4_searchweb.png (320x180) [91.6 KB] || Unknown-4_thm.png (80x40) [7.2 KB] || ",
            "hits": 63
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            "id": 5436,
            "url": "https://svs.gsfc.nasa.gov/5436/",
            "result_type": "Visualization",
            "release_date": "2025-07-04T00:00:00-04:00",
            "title": "DYAMOND Global Carbon Dioxide for Science On A Sphere",
            "description": "This is the Science-on-a-Sphere version of svs.gsfc.nasa.gov/5196.SOS label file: dyamond_timestamps.txt ||",
            "hits": 76
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            "id": 5565,
            "url": "https://svs.gsfc.nasa.gov/5565/",
            "result_type": "Visualization",
            "release_date": "2025-06-26T00:00:00-04:00",
            "title": "Water Cycle Extremes 2002-2024: Droughts and Pluvials",
            "description": "In a study of 20 years of data from the NASA/German GRACE and GRACE-FO satellites, NASA scientists confirmed that major droughts and pluvials — periods of excessive precipitation and water storage on the landscape — have been occurring more often. They also found that the worldwide intensity of these extreme wet and dry events – a metric that combines extent, duration, and severity — is closely linked to global warming.",
            "hits": 412
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        {
            "id": 14802,
            "url": "https://svs.gsfc.nasa.gov/14802/",
            "result_type": "Produced Video",
            "release_date": "2025-03-28T14:31:59-04:00",
            "title": "Earth to Space: A National Symphony Orchestra Concert",
            "description": "Explore the vastness of space with music inspired by the planets, stars, and beyond! In anticipation of the upcoming voyage of Artemis II, the National Symphony Orchestra celebrates the discoveries and beauty of space through music and images produced by NASA. Explore this page to learn more about the visuals used in the Kennedy Center's 2025 Earth to Space Festival NSO Family Concert.",
            "hits": 117
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        {
            "id": 14772,
            "url": "https://svs.gsfc.nasa.gov/14772/",
            "result_type": "B-Roll",
            "release_date": "2025-01-29T11:00:00-05:00",
            "title": "Discoveries from Asteroid Bennu: Media Briefing Graphics",
            "description": "OSIRIS-REx MISSION RECAPThis highlight reel recaps the OSIRIS-REx mission, from assembly and launch of the spacecraft in 2016, to arrival at asteroid Bennu in 2018, TAG sample collection in 2020, the delivery of the sample to Earth in 2023, and curation of the Bennu samples in 2024.Credit: NASA || OSIRIS-REx_Collier_Present_2024_Preview_print.jpg (1024x576) [180.7 KB] || OSIRIS-REx_Collier_Present_2024_Preview.png (3840x2160) [8.3 MB] || OSIRIS-REx_Collier_Present_2024_Preview_searchweb.png (320x180) [116.3 KB] || OSIRIS-REx_Collier_Present_2024_Preview_thm.png [9.7 KB] || OSIRIS-REx_Collier_Present_2024_V3_Small.mp4 (1920x1080) [179.0 MB] || OSIRIS-REx_Collier_Present_2024_V3_Medium.mp4 (3840x2160) [500.9 MB] || OSIRIS-REx_Collier_Present_2024_V3_Large.mp4 (3840x2160) [1.6 GB] || ",
            "hits": 474
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        {
            "id": 14747,
            "url": "https://svs.gsfc.nasa.gov/14747/",
            "result_type": "Produced Video",
            "release_date": "2025-01-16T10:15:00-05:00",
            "title": "Pandora Spacecraft Animations",
            "description": "Animated beauty pass of an artist's concept of the Pandora spacecraft, viewed without thermal blankets, set in a neutral gray volume. Credit: NASA's Goddard Space Flight Center/Conceptual Image LabAlt text: Pandora spacecraft animation no. 1Image description: An artist’s concept of NASA’s exoplanet explorer, Pandora, floats in a light gray background. The body of the small satellite looks like a black box with metal hardware. A long metallic cylinder extends upward from the body with multiple thin rings that slightly protrude from the surface and a flat metal rectangle on one side. On the underside of the body is a shiny dark circle. Pandora’s three solar panels extend from one side of the spacecraft’s body. The visible side is gray and laced with white wires, and the panels are connected with small silver fasteners. || Pandora_Beauty_S1_Still.jpg (3840x2160) [1.0 MB] || Pandora_Beauty_S1_Still_searchweb.png (320x180) [37.2 KB] || Pandora_Beauty_S1_Still_thm.png [4.0 KB] || Pandora_Beauty_S1_1080.mp4 (1920x1080) [14.7 MB] || Pandora_Beauty_S1_4k.mp4 (3840x2160) [36.6 MB] || Pandora_Beauty_S1_ProRes_3840x2160_30.mov (3840x2160) [1.1 GB] || ",
            "hits": 97
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        {
            "id": 14749,
            "url": "https://svs.gsfc.nasa.gov/14749/",
            "result_type": "Produced Video",
            "release_date": "2025-01-14T10:00:00-05:00",
            "title": "OpenUniverse: Simulated Universe Views for Roman",
            "description": "This video begins with a tiny one-square-degree portion of the full OpenUniverse simulation area (about 70 square degrees, equivalent to an area of sky covered by more than 300 full moons). It spirals in toward a particularly galaxy-dense region, zooming by a factor of 75. This simulation showcases the cosmos as NASA’s Nancy Grace Roman Space Telescope could see it, allowing scientists to preview the next generation of cosmic discovery now. Roman’s real future surveys will enable a deep dive into the universe with highly resolved imaging, as demonstrated in this video.Credit: NASA’s Goddard Space Flight Center and M. Troxel || OpenUniverseFullZoom_4k_Best.00001_print.jpg (1024x576) [111.9 KB] || OpenUniverseFullZoom_4k_Good.mp4 (3840x2160) [101.9 MB] || OpenUniverseFullZoom_4k_Best.mp4 (3840x2160) [249.3 MB] || OpenUniverseFullZoom_ProRes_3840x2160_30.mov (3840x2160) [2.9 GB] || ",
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        {
            "id": 5131,
            "url": "https://svs.gsfc.nasa.gov/5131/",
            "result_type": "Visualization",
            "release_date": "2024-12-09T10:00:00-05:00",
            "title": "Hurricane Ian's Clouds, Lightning, Humidity and Winds",
            "description": "This visualization begins with an image sequence of cloud and lightning images of Hurricane Ian created by Cooperative Institute for Research in the Atmosphere (CIRA) and NOAA.  The image sequence fades to show the volume of humidity (shown in blue) along with the wind flows near the surface.  As the camera pulls back we see the humidity in a  9 degree by 9 degree region off the western coast of Florida.  A box containing this region gradually grows in altitude showing the fast wind circulation above the humidity volume up to an altitude of 17 km. || Hurricane_Ian_comp_v03_4k.1728_print.jpg (1024x576) [192.5 KB] || Hurricane_Ian_comp_v03_4k.1728_searchweb.png (320x180) [67.7 KB] || Hurricane_Ian_comp_v03_4k.1728_thm.png (80x40) [5.3 KB] || Hurricane_Ian_comp_v03_30p_1080p30.mp4 (1920x1080) [98.3 MB] || Hurricane_Ian_comp_v03_4k_1080p60.mp4 (1920x1080) [106.1 MB] || Hurricane_Ian_comp (3840x2160) [0 Item(s)] || Hurricane_Ian_comp (3840x2160) [0 Item(s)] || Hurricane_Ian_comp_v03_4k_2160p60.mp4 (3840x2160) [338.6 MB] || Hurricane_Ian_comp_v03_4k_30p_2160p30.mp4 (3840x2160) [310.0 MB] || Hurricane_Ian_comp_v03_4k_30p_2160p30.mp4.hwshow || ",
            "hits": 51
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        {
            "id": 5392,
            "url": "https://svs.gsfc.nasa.gov/5392/",
            "result_type": "Visualization",
            "release_date": "2024-10-01T00:00:00-04:00",
            "title": "Water Cycle Extremes 2002-2023: Droughts and Pluvials",
            "description": "This visualization shows extremes of the water cycle — droughts and pluvials — over a twenty-year period (2002-2023) based on observations from the GRACE and GRACE-FO satellites. D. A total of 1,138 extreme wet and dry events are shown the visualization. The plots at the bottom of the figure show that the total intensity of extreme events increased as global temperatures increased. |",
            "hits": 202
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        {
            "id": 14515,
            "url": "https://svs.gsfc.nasa.gov/14515/",
            "result_type": "Produced Video",
            "release_date": "2024-02-01T09:55:00-05:00",
            "title": "Sonification of the Mice Galaxies",
            "description": "The Mice Galaxies are a colliding pair of galaxies, that will eventually merge into a single galaxy. They’re located about 300 million light-years away in the constellation Coma Berenices. In this data sonification, scientists represented brightness with volume and pitch – brighter light is louder and lower pitched. The vertical position of objects in the image is used to control the pitch of sustained musical strings, and cymbals swell following the brightness of the galaxy cores. Listen for a cymbal crash played for the foreground star with diffraction spikes, too! Credit: NASA, H. Ford (JHU), G. Illingworth (UCSC/LO), M. Clampin (STScI), G. Hartig (STScI), the ACS Science Team, and ESA; Sonification: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 53
        },
        {
            "id": 14727,
            "url": "https://svs.gsfc.nasa.gov/14727/",
            "result_type": "Produced Video",
            "release_date": "2024-01-22T00:00:00-05:00",
            "title": "Fort Sumner, New Mexico: 2024 Drone Views",
            "description": "This clip contains various shots of the NASA payload processing facility at Fort Sumner as well as general views of the surrounding area, acquired Aug. 23, 2024. Credit: NASA/Francis ReddyVideo playback is at half speed (30 fps). 0:00 A slow, early morning approach to the staging facility as its doors open, revealing the EXCITE (EXoplanet Climate Infrared TElescope) payload. 0:45 The camera descends, with the rising sun moving behind the staging facility. 0:58 A closer, lower approach to the EXCITE payload. 1:10 A higher, more distant arc that starts by showing the low sun and the NASA sign on the staging facility, moving north. 1:41 A slow ascent looking toward EXCITE and the morning sun. 1:28 Hovering as the doors close on EXCITE. 03:20 Overview flying back across the airport revealing various vehicles and structures. 4:41 Similar, but at higher altitude and flying in a different direction. || Drone_Shots_of_EXCITE_at_Balloon_Launch_Facility.00001_print.jpg (1024x576) [139.0 KB] || Drone_Shots_of_EXCITE_at_Balloon_Launch_Facility.webm (3840x2160) [67.5 MB] || Drone_Shots_of_EXCITE_at_Balloon_Launch_Facility.mp4 (3840x2160) [2.9 GB] || Drone_Shots_of_EXCITE_at_Balloon_Launch_Facility_ProRes.mov (3840x2160) [22.1 GB] || ",
            "hits": 53
        },
        {
            "id": 5116,
            "url": "https://svs.gsfc.nasa.gov/5116/",
            "result_type": "Visualization",
            "release_date": "2023-06-20T16:00:00-04:00",
            "title": "Global Atmospheric Methane (CH₄)",
            "description": "Volumetric visualization of the total Methane (CH₄) on a global scale added on Earth's atmosphere over the course of the year 2021. || TotalCH4_Comp_1920x19020p30_00080.png (1920x1920) [2.5 MB] || TotalCH4_Comp_1920x19020p30_00080_print.jpg (1024x1024) [114.9 KB] || VolumetricCH4_Composite (1920x1920) [0 Item(s)] || VolumetricCH4_Composite_1920x19020p30.mp4 (1920x1920) [353.5 MB] || ",
            "hits": 274
        },
        {
            "id": 5115,
            "url": "https://svs.gsfc.nasa.gov/5115/",
            "result_type": "Visualization",
            "release_date": "2023-06-20T15:00:00-04:00",
            "title": "Global Atmospheric Carbon Dioxide (CO₂)",
            "description": "Volumetric visualization of the total carbon dioxide (CO₂) on a global scale added on Earth's atmosphere over the course of the year 2021. || TotalCO2_Comp_1920x1920p30_00080.png (1920x1920) [3.2 MB] || TotalCO2_Comp_1920x1920p30_00080_print.jpg (1024x1024) [168.5 KB] || VolumetricCO2_Composite (1920x1920) [0 Item(s)] || VolumetricCO2_Composite_1920x1920p30.mp4 (1920x1920) [806.2 MB] || ",
            "hits": 556
        },
        {
            "id": 14353,
            "url": "https://svs.gsfc.nasa.gov/14353/",
            "result_type": "Produced Video",
            "release_date": "2023-05-19T09:55:00-04:00",
            "title": "Sonification of V838 Monocerotis Light Echo",
            "description": "This data sonification of the star V838 Monocerotis, or V838 Mon, shows two Hubble images taken almost seven months apart. A pulse of light from the central star illuminates clouds of dust and gas surrounding V838 Mon. This star is located about 20,000 light-years away, at the outer edge of our Milky Way Galaxy. In this sonification, scientists mapped brightness to pitch and volume, and the surrounding stars are pitched to musical notes. Sonification credits: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 39
        },
        {
            "id": 5087,
            "url": "https://svs.gsfc.nasa.gov/5087/",
            "result_type": "Visualization",
            "release_date": "2023-03-13T12:00:00-04:00",
            "title": "Water Cycle Extremes: Droughts and Pluvials",
            "description": "This visualization shows extremes of the water cycle — droughts and pluvials — over a twenty-year period (2002-2021) based on observations from the GRACE and GRACE-FO satellites. Dry events are shown as red spheres and wet events as blue spheres, with earlier years being shown as lighter shades and later years as darker shades. The volume of the sphere is proportional to the intensity of the event, a quantity measured in cubic kilometer months.",
            "hits": 218
        },
        {
            "id": 14260,
            "url": "https://svs.gsfc.nasa.gov/14260/",
            "result_type": "Produced Video",
            "release_date": "2022-12-22T09:55:00-05:00",
            "title": "Sonification of RS Puppis",
            "description": "RS Puppis is a glittering star 200 times larger than our Sun and wreathed with dust reflecting starlight. Located about 6,500 light-years away, this star rhythmically brightens and dims over a six-week cycle. In this sonification, scientists represent data in the image as sound for a new, festive way of experiencing RS Puppis. Pitch is assigned based on direction from the center; as the circle travels inward, light closer to the top is high pitched, and light closer to the bottom is lower. Light toward the left is heard more in the left speaker and light toward the right is heard more in the right speaker. Additionally, brightness in the image is mapped to louder volume. Sonification credits: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 47
        },
        {
            "id": 14246,
            "url": "https://svs.gsfc.nasa.gov/14246/",
            "result_type": "Produced Video",
            "release_date": "2022-11-29T09:55:00-05:00",
            "title": "Data Sonification: Pismis 24",
            "description": "Pismis 24 is a stunning star cluster that lies within the nebula NGC 6357, which resides about 8,000 light-years away. In this sonification of the Hubble image, a top-down scan maps brightness to volume and pitch for both the stars and nebula.  The stars are assigned to musical pitches played on a classical guitar (brighter stars are louder and higher pitched), and the nebula uses a continuous range of frequencies (brighter regions are louder and higher pitched). Red, green, and blue channels are mapped to low, medium, and high frequency ranges respectively. Credits: Image: NASA, ESA and Jesús Maíz Apellániz (Instituto de Astrofísica de Andalucía, Spain); Acknowledgment: Davide De Martin (ESA/Hubble); Sonification: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 39
        },
        {
            "id": 14171,
            "url": "https://svs.gsfc.nasa.gov/14171/",
            "result_type": "Produced Video",
            "release_date": "2022-06-29T10:00:00-04:00",
            "title": "13 Years and More at the Moon",
            "description": "As the LRO mission celebrates 13 years orbiting the Moon, we look to what tasks it will take on in its extended mission phase (ESM5).Music provided by Universal Production Music: \"We're Getting Started\" - Frederick Kron; \"Whoop It Up\" - Paul Joseph Smith. || 13YearsatMoon_Thumbnail.jpg (1920x1080) [425.0 KB] || 13YearsatMoon_Thumbnail_print.jpg (1024x576) [183.2 KB] || 13YearsatMoon_Thumbnail_searchweb.png (320x180) [80.5 KB] || 13YearsatMoon_Thumbnail_thm.png (80x40) [6.0 KB] || 14171_13yearsMoon_YouTubeHD.mp4 (1920x1080) [439.9 MB] || 14171_13yearsMoon_MASTER.mov (1920x1080) [3.6 GB] || 14171_13yearsMoon_YouTubeHD.webm (1920x1080) [29.7 MB] || 14171_13yearsMoon_CAPTIONS.en_US.srt [6.2 KB] || 14171_13yearsMoon_CAPTIONS.en_US.vtt [6.0 KB] || ",
            "hits": 310
        },
        {
            "id": 14157,
            "url": "https://svs.gsfc.nasa.gov/14157/",
            "result_type": "Produced Video",
            "release_date": "2022-05-26T09:00:00-04:00",
            "title": "Sonification of NGC 1300",
            "description": "The majestic spiral galaxy NGC 1300’s arms hold blue clusters of young stars, pink clouds of star formation, and dark lanes of dust. To represent this image with sound, scientists assigned louder volume to brighter light. Light farther from the center is pitched higher as a counterclockwise radar scans across the galaxy. NGC 1300 resides nearly 70 million light-years away in the constellation Eridanus. Sonification credits: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 68
        },
        {
            "id": 14155,
            "url": "https://svs.gsfc.nasa.gov/14155/",
            "result_type": "Produced Video",
            "release_date": "2022-05-11T09:00:00-04:00",
            "title": "Sonification of Hoag’s Object",
            "description": "Stretching over 100,000 light-years across, the galaxy dubbed Hoag’s Object is slightly larger than our own home galaxy, the Milky Way. The blue ring is dominated by clusters of young, massive stars, while the yellow nucleus consists of mostly older stars. In this sonification, a clockwise radar scan transforms data in the image into sound. Bright light is represented with louder volume, and light farther from the center is higher-pitched. Sonification credits: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 272
        },
        {
            "id": 4983,
            "url": "https://svs.gsfc.nasa.gov/4983/",
            "result_type": "Visualization",
            "release_date": "2022-04-11T12:00:00-04:00",
            "title": "Global Carbon Dioxide 2020-2021 for Hyperwalls",
            "description": "This webpage provides a wide aspect ratio version of: Global Carbon Dioxide 2020-2021, released on November 2, 2021. This version has been created for wide aspect ratio display systems with resolution up to 9600x3240. It is recommended to use content from this version for display systems with 16:9 aspect ratio. || ",
            "hits": 81
        },
        {
            "id": 14105,
            "url": "https://svs.gsfc.nasa.gov/14105/",
            "result_type": "Produced Video",
            "release_date": "2022-03-22T10:00:00-04:00",
            "title": "Simulated Galaxy Redshift Cubes",
            "description": "This video dissolves between the entire collection of redshift cubes in 55 seconds. A shorter, faster version is available below.Credit: NASA’s Goddard Space Flight Center/F. Reddy and Z. Zhai, Y. Wang (IPAC) and A. Benson (Carnegie Observatories)Watch this video on the NASA.gov Video YouTube channel.Complete transcript available. || Cube_Spin_110-Short_mkII_still.jpg (1920x1080) [577.0 KB] || Cube_Spin_110-Short_mkII_still_print.jpg (1024x576) [158.1 KB] || Cube_Spin_110-Short_mkII_still_thm.png (80x40) [6.3 KB] || Cube_Spin_110-Short_mkII_still_searchweb.png (320x180) [79.4 KB] || 14105_110_RedshiftGalaxyCube_Dissolve_1080.mp4 (1920x1080) [59.2 MB] || 14105_110_RedshiftGalaxyCube_Dissolve_ProRes_1920x1080_2997.mov (1920x1080) [970.0 MB] || 14105_110_RedshiftGalaxyCube_Dissolve_1080.webm (1920x1080) [7.0 MB] || 14105_110_RedshiftGalaxyCube_Dissolve_SRT_Captions.en_US.srt [956 bytes] || 14105_110_RedshiftGalaxyCube_Dissolve_SRT_Captions.en_US.vtt [969 bytes] || ",
            "hits": 185
        },
        {
            "id": 13999,
            "url": "https://svs.gsfc.nasa.gov/13999/",
            "result_type": "Produced Video",
            "release_date": "2021-11-24T09:55:00-05:00",
            "title": "Sonification of the Bubble Nebula",
            "description": "In this Hubble image, a super-hot, massive star is blowing an enormous bubble into space. Fittingly named the Bubble Nebula, this beautiful cosmic object is roughly seven light-years across and resides 7,100 light-years from Earth. Scanned from top to bottom, color is mapped to pitch in this sonification of the nebula. The bright blue of the bubble can be heard as higher pitches; the red and orange regions’ lower pitches are heard most clearly at the beginning on the left and in the top half of the bubble in the middle. Brightness controls the volume and stars are represented by chimes.Sonification credits: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 219
        },
        {
            "id": 13998,
            "url": "https://svs.gsfc.nasa.gov/13998/",
            "result_type": "Produced Video",
            "release_date": "2021-11-16T09:55:00-05:00",
            "title": "Sonification of the Butterfly Nebula",
            "description": "This spectacular Hubble image of the Butterfly Nebula shows a colorful view of star death. The \"wings\" of the butterfly are regions of gas heated to more than 36,000° F (about 20,000° C) that are tearing across space at more than 600,000 miles an hour (966,000 kph)! Vertical position is mapped to pitch – meaning that light towards the top of the image is higher pitched. The nebula is played on strings and synthetic tones, while stars are represented by digital harp. Brightness controls the volume, and the tilted hourglass orientation of the nebula produces an overall rising motion, with the prominent iron-rich jet producing a quick rise near the center.Sonification credits: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 104
        },
        {
            "id": 14003,
            "url": "https://svs.gsfc.nasa.gov/14003/",
            "result_type": "Produced Video",
            "release_date": "2021-11-10T00:00:00-05:00",
            "title": "Elements of Webb: Gold Part 1 Ep01",
            "description": "Elements of Webb EP01: Gold Part One || 1-Gold_1_-_Dark.jpg (1920x1080) [958.4 KB] || 1-Gold_1_-_Dark_print.jpg (1024x576) [388.7 KB] || 1-Gold_1_-_Dark_searchweb.png (320x180) [90.4 KB] || 1-Gold_1_-_Dark_web.png (320x180) [90.4 KB] || 1-Gold_1_-_Dark_thm.png (80x40) [7.4 KB] || 1-Elements-_Gold_1.webm (1920x1080) [25.6 MB] || 1-Elements-_Gold_1.en_US.srt [4.1 KB] || 1-Elements-_Gold_1_ProRes.mov (1920x1080) [3.2 GB] || 1-Elements-_Gold_1.mp4 (1920x1080) [239.5 MB] || elements-of-webb-gold-part-1-ep01.hwshow [291 bytes] || ",
            "hits": 29
        },
        {
            "id": 13997,
            "url": "https://svs.gsfc.nasa.gov/13997/",
            "result_type": "Produced Video",
            "release_date": "2021-11-05T09:55:00-04:00",
            "title": "Sonification of NGC 2392",
            "description": "About 5,000 light-years from Earth, the stunning nebula NGC 2392 formed after the demise of a star like our Sun. In this sonification, the image is scanned clockwise like a radar. The radius is mapped to pitch, so light farther from the center is higher pitched. The outline of the nebula’s shell can be heard in the rising and falling of pitch, punctuated by its spokes. Brightness controls the volume. Sonification credits: SYSTEM Sounds (M. Russo, A. Santaguida)For more information about the Hubble Space Telescope and its images, visit https://nasa.gov/hubble. || ",
            "hits": 90
        },
        {
            "id": 4949,
            "url": "https://svs.gsfc.nasa.gov/4949/",
            "result_type": "Visualization",
            "release_date": "2021-11-02T00:00:00-04:00",
            "title": "Global Carbon Dioxide 2020-2021",
            "description": "Data visualization featuring volumetric carbon dioxide on a global scale for the period June 1, 2020 - July 31, 2021.Coming soon to our YouTube channel. || CO2Volumetric_1024x576_02582_print.jpg (1024x576) [90.6 KB] || CO2Volumetric_1024x576_02582.png (1024x576) [569.1 KB] || CO2Volumetric_1024x576_02582_searchweb.png (180x320) [60.0 KB] || CO2Volumetric_1024x576_02582_thm.png (80x40) [5.1 KB] || CO2Volumetric_1920x1080p30.mp4 (1920x1080) [65.3 MB] || CO2Volumetric_1920x1080p30.webm (1920x1080) [13.3 MB] || 3840x2160_16x9_30p (3840x2160) [0 Item(s)] || CO2Volumetric_3840x2160_30fps_02582.exr (3840x2160) [63.3 MB] || CO2Volumetric_3840x2160_30fps_02582.tif (3840x2160) [44.5 MB] || captions_silent.31831.en_US.srt [43 bytes] || CO2Volumetric_3840x2160p30.mp4 (3840x2160) [931.2 MB] || ",
            "hits": 121
        },
        {
            "id": 4936,
            "url": "https://svs.gsfc.nasa.gov/4936/",
            "result_type": "Visualization",
            "release_date": "2021-09-17T00:00:00-04:00",
            "title": "Studying vegetation canopy with ICESAT-2",
            "description": "This visualization depicts how ICESat-2 data is being used to study vegetation canopy. The visualization begins with a view of 6 beams passing over forested mountains, before zooming in on a single beam and introducing the data classification scheme.  Data points are classified as ground (light brown), vegetation (green), vegetation canopy (tan), or unclassified (grey).  A transparent scale using meters for distance and altitude is overlaid momentarily before the camera moves on and explores the rest of the beam data. Altitude is exaggerated 5x. || ICESat-2_vegetation_canopy.03680_print.jpg (1024x576) [106.5 KB] || ICESat-2_vegetation_canopy.03680_searchweb.png (320x180) [47.1 KB] || ICESat-2_vegetation_canopy.03680_thm.png (80x40) [4.0 KB] || ICESat-2_vegetation_canopy_1080p60.webm (1920x1080) [31.0 MB] || icesat2_vegetation_canopy (3840x2160) [1.0 MB] || ICESat-2_vegetation_canopy_1080p60.mp4 (1920x1080) [134.2 MB] || ",
            "hits": 99
        },
        {
            "id": 10662,
            "url": "https://svs.gsfc.nasa.gov/10662/",
            "result_type": "Produced Video",
            "release_date": "2021-04-14T00:00:00-04:00",
            "title": "Webb Science Simulations: Planetary Systems and Origins of Life",
            "description": "Supercomputer simulations of planeratry evolution. Part 1: Turbulent Molecular Cloud Nebula with Protostellar ObjectsThe Advanced Visualization Laboratory (AVL) at the National Center for Supercomputing Applications (NCSA) collaborated with NASA and Drs. Alexei Kritsuk and Michael Norman to visualize a computational data set of a turbulent molecular cloud nebula forming protostellar objects and accretion disks approximately 100 AU in diameter, on the order of the size of our solar system. AVL used its Amore software to interpolate and render the Adaptive Mesh Refinement (AMR) simulation generated from ENZO code for cosmology and astrophysics. The AMR simulation was developed by Drs. Kritsuk and Norman at the Laboratory for Computational Astrophysics. The AMR simulation generated more than 2 terabytes of data and follows star formation processes in a self-gravitating turbulent molecular cloud with a dynamic range of half-a-million in linear scale, resolving both the large-scale filamentary structure of the molecular cloud (~5 parsec) and accretion disks around emerging young protostellar objects (down to 2 AU).  Part 2: Protoplanetary Disk and Planet FormationThe Advanced Visualization Laboratory (AVL) at the National Center for Supercomputing Applications (NCSA) collaborated with NASA and Dr. Aaron Boley to visualize the 16,000 year evolution of a young, isolated protoplanetary disk which surrounds a newly-formed protostar. The disk forms spiral arms and a dense clump as a result of gravitational collapse. Dr. Aaron Boley developed this computational model to investigate the response of young disks to mass accretion from their surrounding envelopes, including the direct formation of planets and brown dwarfs through gravitational instability.  The main formation mechanism for gas giant planets has been debated within the scientific community for over a decade. One of these theories is 'direct formation through gravitational instability.' If the self-gravity of the gas overwhelms the disk's thermal pressure and the stabilizing effect of differential rotation, the gas closest to the protostar rotates faster than gas farther away. In this scenario, regions of the gaseous disk collapse and form a planet directly. The study, presented in Boley (2009), explores whether mass accretion in the outer regions of disks can lead to such disk fragmentation. The simulations show that clumps can form in situ at large disk radii. If the clumps survive, they can become gas giants on wide orbits, e.g., Fomalhaut b, or even more massive objects called brown dwarfs. Whether a disk forms planets at large radii and, if so, the number of planets that form, depend on how much of the envelope mass is distributed at large distances from the protostar.  The results of the simulations suggest that there are two modes of gas giant planet formation. The first mode occurs early in the disk's lifetime, at large radii, and through the disk instability mechanism. After the main accretion phase is over, gas giants can form in the inner disk, over a period of a million years, through the core accretion mechanism, which researchers are addressing in other studies.Thanks to R. H. Durisen, L. Mayer, and G. Lake for comments and discussions relating to this research. This study was supported in part by the University of Zurich, Institute for Theoretical Physics, and by a Swiss Federal Grant. Resources supporting this work were provided by the NASA High-End Computing (HEC) Program through the NASA Advanced Supercomputing (NAS) Division at Ames Research Center.AVL at NCSA, University of Illinois. || ",
            "hits": 236
        },
        {
            "id": 4839,
            "url": "https://svs.gsfc.nasa.gov/4839/",
            "result_type": "Animation",
            "release_date": "2021-03-09T14:00:00-05:00",
            "title": "Juno Interplanetary Dust: Visualizations",
            "description": "This visualization depicts a region of interplanetary dust that was detected by the Juno spacecraft.  The visualization begins with a solar system view of Juno departing Earth and heading to Jupiter.   The camera rotates down and a region of dust is revealed between Earth and Mars.  Two distinct regions of density are represented using different colors.   As the camera pushes into the volume, a portion of the volume is removed to show the interior shape and how it corresponds to the orbit of Mars. || juno_22.3000_print.jpg (1024x576) [69.0 KB] || juno_22.3000_searchweb.png (320x180) [53.2 KB] || juno_22.3000_thm.png (80x40) [3.6 KB] || juno_dust_1080p30.mp4 (1920x1080) [32.3 MB] || juno_dust_1080p60.mp4 (1920x1080) [34.5 MB] || juno_dust_1080p30.webm (1920x1080) [5.9 MB] || juno_dust (3840x2160) [0 Item(s)] || juno_dust_2160p30.mp4 (3840x2160) [170.8 MB] || juno_dust_2160p60.mp4 (3840x2160) [185.7 MB] || juno_dust_1080p30.mp4.hwshow [183 bytes] || ",
            "hits": 60
        },
        {
            "id": 4834,
            "url": "https://svs.gsfc.nasa.gov/4834/",
            "result_type": "Visualization",
            "release_date": "2020-08-31T11:00:00-04:00",
            "title": "First Global Survey of Glacial Lakes Shows 30-Years of Dramatic Growth",
            "description": "Data visualization featuring the glacier rich region of the Himalayas, along with many of Earth’s highest peaks. The visualization sequence starts with a wide view of the Tibetan plateau and moves along a hiking path highlighting Mt. Everest, Mt. Lhotse, Mt Nuptse, the Everest Base Camp, the Khumbhu glacier, all the way to Imja Lake. Moving to a top-down view of Imja Lake, a time series of Landsat data unveils its dramatic growth for the period 1989-2019.This video is also available on our YouTube channel. || imja_final_4k.4600_print.jpg (1024x576) [114.8 KB] || imja_final_4k.4600_searchweb.png (320x180) [101.5 KB] || imja_final_4k.4600_web.png (320x180) [101.5 KB] || imja_final_4k.4600_thm.png (80x40) [7.5 KB] || imja_final_HD_1080p60.mp4 (1920x1080) [72.9 MB] || 1920x1080_16x9_60p (1920x1080) [0 Item(s)] || imja_final_HD_1080p60.webm (1920x1080) [19.7 MB] || with_cities (3840x2160) [0 Item(s)] || captions_silent.30013.en_US.srt [43 bytes] || imja_final_4k_2160p60.mp4 (3840x2160) [215.1 MB] || imja_final_2160p60_prores.mov (3840x2160) [16.9 GB] || ",
            "hits": 89
        },
        {
            "id": 13699,
            "url": "https://svs.gsfc.nasa.gov/13699/",
            "result_type": "Produced Video",
            "release_date": "2020-08-31T11:00:00-04:00",
            "title": "Tracking Three Decades of Dramatic Glacial Lake Growth",
            "description": "Music: \"Dew\" by Matthew Nicholson [PRS], Suki Jeanette Finn [PRS]This video can be freely shared and downloaded. While the video in its entirety can be shared without permission, some individual imagery provided by pond5.com is obtained through permission and may not be excised or remixed in other products. Specific details on stock footage may be found here. For more information on NASA’s media guidelines, visit https://www.nasa.gov/multimedia/guidelines/index.html.Complete transcript available. || ImjaLake.jpg (1920x1080) [1.2 MB] || ImjaLake_print.jpg (1024x576) [382.8 KB] || ImjaLake_searchweb.png (320x180) [109.6 KB] || ImjaLake_web.png (320x180) [109.6 KB] || ImjaLake_thm.png (80x40) [7.5 KB] || 13699_GlacierLake820.mov (1920x1080) [1.9 GB] || 13699_GlacierLake820.mp4 (1920x1080) [138.4 MB] || 13699_GlacierLake820.webm (1920x1080) [15.0 MB] || GlacierLake820.en_US.srt [2.1 KB] || GlacierLake820.en_US.vtt [2.1 KB] || ",
            "hits": 69
        },
        {
            "id": 13667,
            "url": "https://svs.gsfc.nasa.gov/13667/",
            "result_type": "Produced Video",
            "release_date": "2020-07-24T16:00:00-04:00",
            "title": "The Roman Space Telescope's Immense Data Volume",
            "description": "This infographic showcases the difference in data volume between the Nancy Grace Roman, Webb and Hubble space telescopes. Each day, Roman will send over 500 times more data back to Earth than Hubble.Credit: NASA's Goddard Space Flight Center || Roman_Data_Scale_Final_1080.png (1920x1080) [9.7 MB] || Roman_Data_Scale_Final_1080.jpg (1920x1080) [515.8 KB] || Roman_Data_Scale_Final_1080_print.jpg (1024x576) [99.3 KB] || Roman_Data_Scale_Final.png (3840x2160) [38.9 MB] || Roman_Data_Scale_Final.jpg (3840x2160) [1.9 MB] || ",
            "hits": 105
        },
        {
            "id": 4782,
            "url": "https://svs.gsfc.nasa.gov/4782/",
            "result_type": "Visualization",
            "release_date": "2020-03-04T00:00:00-05:00",
            "title": "Vegetation Index Anomalies and Rift Valley fever (RVF) outbreaks in South Africa region: 2008-2011",
            "description": "This visualization with corresponding data dashboard shows the relationship between vegetation index anomalies and outbreaks of Rift Valley fever (RVF) during 2008 and 2011 in the South Africa region. The sequence starts in 2007 looking at the entire continent of Africa and zooms in the region of South Africa to take a closer look at the patterns between ENSO events (El Niño and La Niña), above normal vegetaion over land (green) and RVF outbreak locations (orange pins). || NDVI_RVF_SAfrica_Composite_3840x2160_2657_print.jpg (1024x576) [102.7 KB] || NDVI_RVF_SAfrica_Composite_3840x2160_2657_searchweb.png (320x180) [57.8 KB] || NDVI_RVF_SAfrica_Composite_3840x2160_2657_thm.png (80x40) [5.0 KB] || NDVI_RVF_SAfrica_Composite_1920x1080p30.mp4 (1920x1080) [35.6 MB] || NDVI_RVF_SAfrica_Composite_1920x1080p30.webm (1920x1080) [7.1 MB] || Composite (3840x2160) [0 Item(s)] || Composite (3840x2160) [0 Item(s)] || NDVI_RVF_SAfrica_Composite_3840x2160_p30.mp4 (3840x2160) [72.6 MB] || NDVI_RVF_SAfrica_Composite_3840x2160_2657.tif (3840x2160) [31.6 MB] || ",
            "hits": 36
        },
        {
            "id": 4724,
            "url": "https://svs.gsfc.nasa.gov/4724/",
            "result_type": "Visualization",
            "release_date": "2020-02-21T00:00:00-05:00",
            "title": "Vegetation index anomalies and Rift Valley fever (RVF) outbreaks in Africa and Middle East during 2000-2018",
            "description": "Data visualization featuring vegetation index anomalies over Africa and Middle East and locations of Rift Valley Fever (RVF) outbreaks (orange pins) during the period of 2000-2018. Frames are provided in 4K resolution. || Africa_NDVIRVF_2000_2018_3840x2160_2430_print.jpg (1024x576) [78.8 KB] || Africa_NDVIRVF_2000_2018_3840x2160_2430_searchweb.png (320x180) [48.8 KB] || Africa_NDVIRVF_2000_2018_3840x2160_2430_thm.png (80x40) [4.4 KB] || Africa_NDVIRVFComposite_2000_2018_3840x2160_1080p30.mp4 (1920x1080) [88.7 MB] || Africa_NDVIRVFComposite_2000_2018_3840x2160_1080p30.webm (1920x1080) [25.5 MB] || Africa_NDVIRVF_2000_2018_Composite (3840x2160) [0 Item(s)] || Africa_NDVIRVF_2000_2018_3840x2160_2430.tif (3840x2160) [6.0 MB] || Africa_NDVIRVFComposite_2000_2018_3840x2160_p30.mp4 (3840x2160) [283.2 MB] || ",
            "hits": 40
        },
        {
            "id": 4747,
            "url": "https://svs.gsfc.nasa.gov/4747/",
            "result_type": "Visualization",
            "release_date": "2020-02-21T00:00:00-05:00",
            "title": "Vegetation index anomalies and Rift Valley fever (RVF) outbreaks in South Africa during 2009-2011",
            "description": "This visualization shows the relationship between vegetation index anomalies (Normalized Difference Vegetation Index - NDVI) data and outbreak locations of Rift Valley fever (RVf) during 2008 and 2011. The sequence starts in 2007 looking at the entire continent of Africa and zooms in the region of South Africa slowly to take a closer look at the above normal vegetation (green) and RVF outbreak locations (orange pins). Frames are provided in 4K resolution. || SAfrica_NDVIRVFwDates_3840x2160_1263_print.jpg (1024x576) [86.2 KB] || SAfrica_NDVIRVFwDates_3840x2160_1263_searchweb.png (320x180) [56.0 KB] || SAfrica_NDVIRVFwDates_3840x2160_1263_thm.png (80x40) [4.5 KB] || SAfrica_NDVIRVFComposite_1080p30.mp4 (1920x1080) [31.6 MB] || SAfrica_NDVIRVFComposite_1080p30.webm (1920x1080) [7.0 MB] || Composite (3840x2160) [0 Item(s)] || SAfrica_NDVIRVFwDates_3840x2160_1263.tif (3840x2160) [7.6 MB] || SAfrica_NDVIRVFComposite_3840x2160_p30.mp4 (3840x2160) [96.4 MB] || ",
            "hits": 36
        },
        {
            "id": 4784,
            "url": "https://svs.gsfc.nasa.gov/4784/",
            "result_type": "Visualization",
            "release_date": "2020-02-21T00:00:00-05:00",
            "title": "ENSO Teleconnections and Rift Valley fever (RVF) Outbreaks",
            "description": "During the 2008-2011 period, ENSO events brought changes to weather conditions across the globe that triggered infectious disease outbreaks, such as mosquito-borne Rift Valley fever (RVF) in South Africa. This visualization with corresponding data dashboard shows how Sea Surface Temperature (SST) anomalies in the equatorial Pacific Ocean (left) gave rise to Precipitation (center) and Vegetation (right) Index Anomalies in South Africa. During La Niña events, Southern Africa receives persistent and above normal rainfall, which floods habitats of RVF mosquito vectors triggering hatching of RVF virus infected eggs. The above-normal rainfall is followed by an increase in vegetation creating appropriate habitats for the mosquito vectors setting the stage for RVF outbreak activity, which in simple terms means an uptick in mosquito populations that cause infections of domestic livestock and human populations with the RVF virus. However, in rare cases there is a departure from this canonical response, as we can observe in 2009-2010, when a mild El Niño event resulted in above normal vegetaton and a large RVF outbreak in  South Africa. || ENSO_TeleconnectionsRVF_2008_2011_3840x2160_2960_print.jpg (1024x576) [107.8 KB] || ENSO_TeleconnectionsRVF_2008_2011_3840x2160_3525_searchweb.png (320x180) [63.0 KB] || ENSO_TeleconnectionsRVF_2008_2011_3840x2160_3525_thm.png (80x40) [6.5 KB] || ENSO_Teleconnections (1920x1080) [0 Item(s)] || SST_Precip_NDVI_Dashboard_2008_2011_1920x1080_p30.mp4 (1920x1080) [22.7 MB] || ENSO_Teleconnections (3840x2160) [0 Item(s)] || ENSO_Teleconnections (3840x2160) [0 Item(s)] || ENSO_TeleconnectionsRVF_2008_2011_3840x2160_p30.mp4 (3840x2160) [56.0 MB] || ENSO_TeleconnectionsRVF_2008_2011_3840x2160_p30.webm (3840x2160) [10.2 MB] || ENSO_TeleconnectionsRVF_2008_2011_3840x2160_2960.tif (3840x2160) [3.4 MB] || ENSO_TeleconnectionsRVF_2008_2011_3840x2160_3525.tif (3840x2160) [3.4 MB] || ",
            "hits": 35
        },
        {
            "id": 4754,
            "url": "https://svs.gsfc.nasa.gov/4754/",
            "result_type": "Visualization",
            "release_date": "2019-12-09T00:00:00-05:00",
            "title": "The Complex Chemistry of Surface Ozone Depicted in a New GEOS Simulation",
            "description": "96 chemical species are shown from a GEOS atmospheric simulation || gmao_chem_3x3_pass02_09.05630_no_overlay_print.jpg (1024x576) [126.9 KB] || gmao_chem_3x3_pass02_09.05630_no_overlay.png (5760x3240) [2.5 MB] || gmao_chem_3x3_pass02_09.05630_no_overlay_searchweb.png (320x180) [82.3 KB] || gmao_chem_3x3_pass02_09.05630_no_overlay_thm.png (80x40) [6.8 KB] || 1920x1080_16x9_p30 (1920x1080) [0 Item(s)] || gmao_chem_HD_1080p30.webm (1920x1080) [36.0 MB] || gmao_chem_HD_1080p30.mp4 (1920x1080) [267.3 MB] || 9600x3240_16x9_30p (9600x3240) [0 Item(s)] || 3840x2160_16x9_p30 (3840x2160) [0 Item(s)] || gmao_chem_5x3_preview.mp4 (3200x1080) [429.0 MB] || gmao_chem_4k_2160p30.mp4 (3840x2160) [762.1 MB] || gmao_chem_HD_1080p30.mp4.hwshow [212 bytes] || ",
            "hits": 159
        },
        {
            "id": 31076,
            "url": "https://svs.gsfc.nasa.gov/31076/",
            "result_type": "Hyperwall Visual",
            "release_date": "2019-11-28T00:00:00-05:00",
            "title": "Global Carbon Monoxide",
            "description": "Colorless, odorless, and poisonous, carbon monoxide is a major air pollutant regulated in the United States and in many other nations around the world. When carbon-based fuels, such as coal, wood, and oil burn, they produce carbon monoxide.These maps show monthly averages of carbon monoxide from March 2000 to the present, as derived using data from the Measurements Of Pollution In The Troposphere (MOPITT) sensor on NASA's Terra satellite. Surface concentrations of carbon monoxide are expressed in parts per billion by volume (ppbv). A concentration of 1 ppbv means that for every billion molecules of gas in the measured volume, one of them is a carbon monoxide molecule. Total column carbon monoxide is expressed in number of molecules (times 10^18) per centimeter squared. A total column amount of 1 means that the total amount of carbon monoxide in a vertical column from the top of the atmosphere to the surface is 10^18 molecules per square centimeter.In these maps, yellow areas have little or no carbon monoxide, while progressively higher concentrations are shown in orange, red, and dark red. || ",
            "hits": 40
        },
        {
            "id": 13784,
            "url": "https://svs.gsfc.nasa.gov/13784/",
            "result_type": "Produced Video",
            "release_date": "2019-11-13T00:00:00-05:00",
            "title": "Seasonal Variations in Oxygen at Gale Crater",
            "description": "For the first time in the history of space exploration, scientists have measured the seasonal changes in the gases that fill the air directly above the surface of Gale Crater on Mars. As a result, they noticed something baffling: oxygen, the gas many Earth creatures use to breathe, behaves in a way that so far scientists cannot explain through any known chemical processes. || ",
            "hits": 257
        },
        {
            "id": 13300,
            "url": "https://svs.gsfc.nasa.gov/13300/",
            "result_type": "Produced Video",
            "release_date": "2019-08-29T06:10:00-04:00",
            "title": "New NASA Images Show Summer Melting In The Arctic Live Shots",
            "description": "Click HERE for quick link to audio soundbites.Click for quick link to B-ROLL  for these live shotsClick for quick link to canned interview with NASA Scientist Tom NeumannClick for quick link to canned interview with NASA scientist Nathan KurtzClick for quick lin to canned interview in Spanish with NASA Scientist Edil Sepulveda || Screen_Shot_2019-08-28_at_3.03.24_PM.png (2956x450) [1.9 MB] || Screen_Shot_2019-08-28_at_3.03.24_PM_print.jpg (1024x155) [36.0 KB] || Screen_Shot_2019-08-28_at_3.03.24_PM_searchweb.png (320x180) [75.9 KB] || Screen_Shot_2019-08-28_at_3.03.24_PM_thm.png (80x40) [4.9 KB] || ",
            "hits": 168
        },
        {
            "id": 13243,
            "url": "https://svs.gsfc.nasa.gov/13243/",
            "result_type": "Produced Video",
            "release_date": "2019-06-26T11:00:00-04:00",
            "title": "NASA Tracks the Future of Asia's Glaciers",
            "description": "Asia’s high mountains are a crucial freshwater source to one-seventh of the world’s population. Snow and glaciers in these mountains contain the largest volume of freshwater outside of Earth's polar ice sheets, leading hydrologists to nickname this region the Third Pole. Rapid changes in the region's climate are affecting glacier flows and snowmelt. Local people are already modifying their land-use practices in response to the changing supply, and the region's ecology is transforming. Scientists estimate that by 2100, these glaciers could be up to 75% smaller in volume. NASA's satellites observe and measure snow and ice cover remotely with multiple types of sensors. This allows scientists to create an authoritative estimate of the water budget of this region and a set of products local policy makers can use in responding to hazards and planning for a changing water supply. || ",
            "hits": 43
        },
        {
            "id": 4693,
            "url": "https://svs.gsfc.nasa.gov/4693/",
            "result_type": "Visualization",
            "release_date": "2019-02-28T09:00:00-05:00",
            "title": "Precipitation Anomaly and Dengue Outbreaks in South East Asia: 2015-2016",
            "description": "The 2015-2016 El Niño event brought changes to weather conditions across the globe that triggered regional disease outbreaks, including mosquito-borne dengue fever in Southeast Asia. This visualization with corresponding timeplot graph reveals the relationship between precipitation anomaly in Southeast Asia and dengue outbreaks. Drier than normal habitats drew mosquitoes into populated, urban areas containing the open water needed for laying eggs. As the air warmed, mosquitoes also grew hungrier and reached sexual maturity more quickly, resulting in an increase in mosquito bites. || SEAsia_PrecipDengueComposite_1920x1080_1211_print.jpg (1024x576) [75.8 KB] || SEAsia_PrecipDengueComposite_1920x1080_1211_searchweb.png (320x180) [52.9 KB] || SEAsia_PrecipDengueComposite_1920x1080_1211_thm.png (80x40) [5.4 KB] || SEAsia_PrecipDengueComposite_1920x1080_p30.webm (1920x1080) [6.4 MB] || SEAsia_PrecipDengue_Composite (1920x1080) [0 Item(s)] || SEAsia_PrecipDengueComposite_1920x1080_p30.mp4 (1920x1080) [14.8 MB] || SEAsia_PrecipDengueComposite_1920x1080_1211.tif (1920x1080) [1.5 MB] || SEAsia_PrecipDengueComposite (3840x2160) [0 Item(s)] || ",
            "hits": 36
        },
        {
            "id": 4695,
            "url": "https://svs.gsfc.nasa.gov/4695/",
            "result_type": "Visualization",
            "release_date": "2019-02-28T09:00:00-05:00",
            "title": "Niño 3.4 Index and Sea Surface Temperature Anomaly Timeline: 1982-2017",
            "description": "This visualization captures Sea Surface Temperature (SST) anomalies around the world from 1982 to 2017, along with a corresponding timeplot graph focusing on the Niño 3.4 SST Index region (5N-5S, 120W-170W), which represents average equatorial sea surface temperatures in the Pacific Ocean from about the International Date Line to the coast of South America. Highlighted in the timeline are the El Niño years, in which sea surface temperature anomalies peaked: 1982-1983, 1997-1998, and 2015-2016. || NINO3.4SST_FlatMapComposite_1920x1080_00932_print.jpg (1024x576) [104.9 KB] || NINO3.4SST_FlatMapComposite_1920x1080_00932_searchweb.png (320x180) [72.1 KB] || NINO3.4SST_FlatMapComposite_1920x1080_00932_thm.png (80x40) [6.8 KB] || SST_Nino3.4Index_1982_2017_Composite (1920x1080) [0 Item(s)] || NINO3.4SST_FlatMapComposite_1920x1080_p30.mp4 (1920x1080) [57.2 MB] || NINO3.4SST_FlatMapComposite_1920x1080_00932.tif (1920x1080) [1.4 MB] || NINO3.4SST_FlatMapComposite_1920x1080_p30.webm (1920x1080) [9.3 MB] || SSTNino3.4Index_1982_2017_Composite (3840x2160) [0 Item(s)] || ",
            "hits": 359
        },
        {
            "id": 4696,
            "url": "https://svs.gsfc.nasa.gov/4696/",
            "result_type": "Visualization",
            "release_date": "2019-02-28T09:00:00-05:00",
            "title": "Land Surface Temperature Anomaly and Dengue Outbreaks in South East Asia Region: 2015-2016",
            "description": "The 2015-2016 El Niño event brought changes to weather conditions across the globe that triggered regional disease outbreaks, including mosquito-borne dengue fever in Southeast Asia. This visualization with corresponding timeplot graph reveals the relationship between land surface temperature anomaly in Southeast Asia and dengue outbreaks. Higher than normal land surface temperatures results in an increase of dengue reported locations. || SEAsia_LSTDiseases_1920x1080_1730_print.jpg (1024x576) [85.1 KB] || SEAsia_LSTDiseases_1920x1080_1730_searchweb.png (320x180) [54.4 KB] || SEAsia_LSTDiseases_1920x1080_1730_thm.png (80x40) [5.3 KB] || SEAsia_LSTDengue_Composite (1920x1080) [0 Item(s)] || SEAsia_LSTDiseases_1920x1080_p30.mp4 (1920x1080) [33.8 MB] || SEAsia_LSTDiseases_1920x1080_1730.tif (1920x1080) [1.7 MB] || SEAsia_LSTDiseases_1920x1080_p30.webm (1920x1080) [6.2 MB] || SEAsia_LSTDengue_Composite (3840x2160) [0 Item(s)] || ",
            "hits": 25
        },
        {
            "id": 4697,
            "url": "https://svs.gsfc.nasa.gov/4697/",
            "result_type": "Visualization",
            "release_date": "2019-02-28T09:00:00-05:00",
            "title": "ENSO teleconnections in South East Asia for the period of 2015-2016",
            "description": "The 2015-2016 strong El Niño event brought changes to weather conditions across the globe that triggered regional infectious disease outbreaks, including mosquito-borne dengue fever in South East Asia. This visualization with corresponding multi-plot graph shows how Sea Surface Temperature anomalies in the equatorial Pacific Ocean (left), resulted in anomalous drought conditions (center) and increase in land surface temperatures (right) in South East Asia.  During the 2015-2016 El Niño event, the South East Asia region received below than normal precipitation resulting in drier and warner than normal conditions, which increased the populations of mosquito vectors in urban areas, where there are open water storage containers providing ideal habitats for mosquito production. In addition, the higher than normal temperature on land shortens the maturation time of larvae to adult mosquitos and induces frequent blood feeding/biting of humans by mosquito vectors resulting in the amplification of dengue disease outbreaks over the South East Asia region. || SST_LST_Precip_2014_2016_Comp_print.jpg (1024x576) [82.9 KB] || SST_LST_Precip_2014_2016_Comp_searchweb.png (320x180) [51.5 KB] || SST_LST_Precip_2014_2016_Comp_thm.png (80x40) [6.0 KB] || SST_Precip_LST_Plot_Composite (1920x1080) [0 Item(s)] || SST_LST_Precip_2014_2016_Comp_1080p30.mp4 (1920x1080) [9.7 MB] || SST_LST_Precip_2014_2016_Comp.tif (1920x1080) [1.1 MB] || SST_LST_Precip_2014_2016_Comp_1080p30.webm (1920x1080) [4.2 MB] || TeleconnectionsSEAsia (3840x2160) [0 Item(s)] || SST_LST_Precip_2014_2016_Comp_1080p30.mp4.hwshow [203 bytes] || ",
            "hits": 82
        },
        {
            "id": 4694,
            "url": "https://svs.gsfc.nasa.gov/4694/",
            "result_type": "Visualization",
            "release_date": "2018-10-26T00:00:00-04:00",
            "title": "GPM Satellite observes powerful super Typhoon Yutu hitting Northern Marianas",
            "description": "GPM passed over Super Typhoon Yutu on October 24th at 11:07 a.m. EDT . As the camera moves in on the storm, DPR's volumetric view of the storm is revealed. A slicing plane moves across the volume to display precipitation rates throughout the storm. Shades of green to red represent liquid precipitation. Frozen precipitation is shown in cyan and purple.This video is also available on our YouTube channel. || Yutu.2320_print.jpg (1024x576) [145.9 KB] || Yutu.2320_searchweb.png (320x180) [100.2 KB] || Yutu.2320_thm.png (80x40) [7.8 KB] || yutu (1920x1080) [0 Item(s)] || Yutu_1080p30.webm (1920x1080) [7.7 MB] || Yutu_1080p30.mp4 (1920x1080) [102.3 MB] || captions_silent.27091.en_US.srt [43 bytes] || captions_silent.27091.en_US.vtt [56 bytes] || Yutu_1080p30.mp4.hwshow || ",
            "hits": 54
        },
        {
            "id": 4682,
            "url": "https://svs.gsfc.nasa.gov/4682/",
            "result_type": "Visualization",
            "release_date": "2018-09-19T00:00:00-04:00",
            "title": "GPM Captures Super Typhoon Mangkhut Approaching The Philippines",
            "description": "At nearly the same time that the US East Coast was experiencing the arrival of Hurricane Florence, a much more powerful storm was also arriving half a world away in the Philippines—Super Typhoon Mangkhut.  While the slow-moving Florence arrived as a Category 1 hurricane that brought record flooding to the Carolinas, less than 7 hours later Mangkhut (known as Ompong in the Philippines) made landfall on the northern main island of Luzon as a full on Category 5 super typhoon with sustained winds reported at 165 mph. The visualization starts with a view of Integrated Multi-satellitE Retrievals for GPM (IMERG) precipitation rates from 15:11 UTC (11:11 pm PST) 12 September to 15:41 UTC (11:41 pm PST) 13 September 2018 as the storm was making its way across the Philippine Sea headed for Luzon.  Before entering the Philippine Sea, Mangkhut passed just north of Guam on the evening of the 10th as a Category 2 typhoon with sustained winds reported at 105 mph by the Joint Typhoon Warning Center (JTWC) causing widespread power outages.  The next day on the 11th as it entered the eastern Philippine Sea, Mangkhut underwent a rapid intensification cycle wherein the storm’s intensity shot from Category 2 on the afternoon of the 10th (local time) to Category 5 with sustained winds estimated at 160 mph by JTWC by the evening of the 11th (local time).  Mangkhut is estimated to have reached its peak intensity at 18:00 UTC on the 12th (2:00 am PST 13 September) with maximum sustained winds estimated at 180 mph by JTWC, making it the strongest tropical cyclone of the year thus far.At the start of the visualization, Mangkhut was an extremely powerful Category 5 super typhoon and just approaching its peak intensity.  Over the next 24 hours, Mangkhut’s intensity leveled out such that when the GPM core satellite over flew the storm, Mangkhut’s peak intensity was estimated at 165 mph, a still very powerful Category 5 storm.  The end of the visualization shows the surface rainfall within Mangkhut as well as a 3D flyby of the storm courtesy of the GPM core satellite, which passed over the storm at around 15:40 UTC (11:40 pm PST) on the 13th.  At the surface, a distinct eye is present surrounded by a large area of very heavy to intense rain (shown in dark red and magenta).  Further out, heavy rain bands are rotating counter clockwise around the storm’s center.   The flyby shows a 3D rendering of the radar structure of Mangkhut using data collected from GPM’s Dual-frequency Precipitation Radar or DPR.  At the heart of the storm surrounding the eye is a ring of elevated echo tops associated with Mangkhut’s eyewall.  The strong symmetry and continuity of the ring is consistent with an intense tropical cyclone and suggests no inhibiting effects such as dry air or wind shear are affecting the storm.  In fact, after these images were taken, Mangkhut would continue on to strike the northern part of Luzon at the same estimated intensity, becoming the strongest typhoon to hit the Philippines since Super Typhoon Haiyan in 2013.  So far the storm is being blamed for at least 95 fatalities in the Philippines, many due to a large landslide around the town of Itogon.  After crossing Luzon, Mangkhut continued on to strike Hong Kong with winds reported at 121 mph before dissipating over mainland China, where it is being blamed for 6 fatalities.   GPM data is part of the toolbox of satellite data used by forecasters and scientists to understand how storms behave. GPM is a joint mission between NASA and the Japan Aerospace Exploration Agency. Current and future data sets are available with free registration to users from NASA Goddard's Precipitation Processing Center website. || ",
            "hits": 41
        },
        {
            "id": 4681,
            "url": "https://svs.gsfc.nasa.gov/4681/",
            "result_type": "Visualization",
            "release_date": "2018-09-12T10:00:00-04:00",
            "title": "GOES and GPM Capture Florence Trying to Intensify Over the Atlantic",
            "description": "Hurricane Florence originally formed from an African Easterly wave that emerged off the west coast of Africa back on the 30th of August.  When it reached the vicinity of the Cape Verde Islands the next day, it was organized enough to become a tropical depression.  The following day the depression strengthened enough to become a tropical storm and Florence was born on the 1st of September.  Over the next 3 days, Florence gradually strengthened as it moved in a general west-northwest direction into the central Atlantic.  Then, on the 4th of September, Florence began to rapidly intensify.  By the morning of the 5th, Florence was a Category 3 hurricane before reaching Category 4 intensity later that afternoon with maximum sustained winds estimated at 130 mph by the National Hurricane Center (NHC).  At this point, Florence became the victim of increasingly strong southwesterly wind shear, which greatly weakened the storm all the way back down to a tropical storm the by evening of the 6th.The following GOES-East Infrared (IR) loop shows Florence from 17:54 UTC (1:54 pm EDT) 6 September to 19:27 UTC (3:27 pm EDT) 7 September when it was struggling against the strong southwesterly wind shear in the Central Atlantic.  A very interesting looking feature is the arc-shaped cloud that propagates outward from the storm towards the west.  This cloud feature is occurring at upper-levels and is likely tied to a gravity wave propagating outward from an area of intense convection that erupted from deep within the storm.  When the tops of these smaller scale storms within a storm reach the upper troposphere, they can trigger gravity waves.  As these waves progagate outward they can enhance cloud formation where they induce rising motion and erode cloud where they induce downward motion or subsidence.  As this arc-shaped cloud is able to propagate outward uniformly from the center, it must be occurring above the shear layer. Compensating areas of subsidence can also surround the strong rising motion occurring within the tall convective clouds.  This can help to erode surrounding clouds and may be contributing to the clearing that occurs between the arc-shaped cloud and the mainarea of convection.The end of the loop shows surface rainfall and a 3D flyby of Florence courtesy of the GPM core satellite, which passed over the storm at around 19:21 UTC (3:21 pm EDT) on the 7th.  At the surface, two areas of intense rain (shown in magenta) reveal the presence of two areas of strong thunderstorms within Florence north and northeast of the center.  The flyby shows a 3D rendering of the radar structure of the storm.  The darker blue tower indicates an area of deep convection that has penetrated well over 10 km high and is associated with the southernmost area of intense rain just north of the center.  It is these areas of deep convection that fuel the storm by releasing heat, known as latent heat, mainly from condensation, near the core.  Although it would be nearly 2 days before Florence re-gained hurricane intensity, these convective towers are what helped Florence to survive the effects of the wind shear and eventually grow back into a Category 4 hurricane.GPM is a joint mission between NASA and the Japanese space agency JAXA.Caption by Stephen Lang (SSAI/NASA GSFC) and Joe Munchak (GSFC). || ",
            "hits": 35
        },
        {
            "id": 12984,
            "url": "https://svs.gsfc.nasa.gov/12984/",
            "result_type": "Produced Video",
            "release_date": "2018-09-10T12:00:00-04:00",
            "title": "ICESat-2's Eye on Ice",
            "description": "ICESat-2 measuring the height of ice from space || Icesat2-HQprint_1024x576.jpg (1024x576) [100.7 KB] || Icesat2-HQprint_print.jpg (1024x576) [100.7 KB] || Icesat2-HQprint_searchweb.png (320x180) [78.6 KB] || Icesat2-HQprint_thm.png (80x40) [6.0 KB] || Icesat2-HQprint.tiff (1920x1080) [7.9 MB] || ",
            "hits": 34
        },
        {
            "id": 4674,
            "url": "https://svs.gsfc.nasa.gov/4674/",
            "result_type": "Visualization",
            "release_date": "2018-08-06T15:00:00-04:00",
            "title": "GPM passes directly over Tropical Storm John off the coast of Mexico",
            "description": "GPM passed over Tropical Storm John on August 6, 2018. As the camera moves in on the storm, DPR's volumetric view of the storm is revealed. A slicing plane moves across the volume to display precipitation rates throughout the storm. Shades of green to red represent liquid precipitation extending down to the ground. Frozen precipitation is displayed in cyan and purple. This video is also available on our YouTube channel. || john01.2330_print.jpg (1024x576) [146.4 KB] || john01.2330_searchweb.png (320x180) [100.1 KB] || john01.2330_thm.png (80x40) [7.8 KB] || 1920x1080_16x9_30p (1920x1080) [0 Item(s)] || john01_1080p30.webm (1920x1080) [6.0 MB] || john01_1080p30.mp4 (1920x1080) [114.4 MB] || captions_silent.26529.en_US.srt [43 bytes] || captions_silent.26529.en_US.vtt [56 bytes] || john01_1080p30.mp4.hwshow [180 bytes] || ",
            "hits": 26
        },
        {
            "id": 30955,
            "url": "https://svs.gsfc.nasa.gov/30955/",
            "result_type": "Hyperwall Visual",
            "release_date": "2018-05-23T15:00:00-04:00",
            "title": "Crash of the Titans: Milky Way & Andromeda Collision",
            "description": "This scientific visualization of a computer simulation depicts the joint evolution of the Milky Way and Andromeda galaxies over the next several billion years and features the inevitable massive collision. || mw_m31_m33_a-example_frame2-1920x1080.png (1920x1080) [224.3 KB] || mw_m31_m33_a-example_frame2-1920x1080_print.jpg (1024x576) [40.3 KB] || mw_m31_m33_a-example_frame2-1920x1080_searchweb.png (320x180) [22.9 KB] || mw_m31_m33_a-example_frame2-1920x1080_thm.png (80x40) [2.0 KB] || mw_m31_m33_a-b-1920x1080.m4v (1920x1080) [59.1 MB] || mw_m31_m33_a-b-1920x1080.wmv (1920x1080) [60.1 MB] || mw_m31_m33_a-b-1920x1080.webm (1920x1080) [59.4 MB] || mw_m31_m33_a-b-3840x2160.mp4 (3840x2160) [369.1 MB] || crash-of-the-titans-milky-way-andromeda-collision.hwshow [319 bytes] || crash-of-the-titans-milky-way-andromeda-collision-hd.hwshow [322 bytes] || ",
            "hits": 1136
        },
        {
            "id": 4631,
            "url": "https://svs.gsfc.nasa.gov/4631/",
            "result_type": "Visualization",
            "release_date": "2018-04-26T10:00:00-04:00",
            "title": "Global Landslide Hazard Assessment Model (LHASA) with Global Landslide Catalog (GLC) data",
            "description": "Landslides occur when an environmental trigger like an extreme rain event, often a severe storm or hurricane, and gravity's downward pull sets soil and rock in motion. Conditions beneath the surface are often unstable already, so the heavy rains act as the last straw that causes mud, rocks, or debris- or all combined- to move rapidly down mountains and hillsides. Unfortunately, people and property are often swept up in these unexpected mass movements. Landslides can also be caused by earthquakes, surface freezing and thawing, ice melt, the collapse of groundwater reservoirs, volcanic eruptions, and erosion at the base of a slope from the flow of river or ocean water. But torrential rains most commonly activate landslides. A new model has been developed to look at how potential landslide activity is changing around the world. A global Landslide Hazard Assessment model for Situational Awareness (LHASA) has been developed to provide an indication of where and when landslides may be likely around the world every 30min. This model uses surface susceptibility (including slope, vegetation, road networks, geology, and forest cover loss) and satellite rainfall data from the Global Precipitation Measurement (GPM) mission to provide moderate to high “nowcasts.” This visualization shows the landslide nowcast results leveraging nearly two decades of Tropical Rainfall Measurement Mission (TRMM) rainfall over 2001-2016 to identify a landslide climatology by month at a 1 km grid cell. The average nowcast values by month highlight the key landslide hotspots, such as the Southeast Asia during the monsoon season in June through August and the U.S. Pacific Northwest in December and January. Overlaid with these nowcasts values are a Global Landslide Catalog (GLC) was developed with the goal of identifying rainfall-triggered landslide events around the world, regardless of size, impact, or location. The GLC considers all types of mass movements triggered by rainfall, which have been reported in the media, disaster databases, scientific reports, or other sources. The visualization shows the distribution of landslides each month based on the estimated number of fatalities the event caused. The GLC has been compiled since 2007 at NASA Goddard Space Flight Center and contains over 11,000 reports and growing. A new project called the Community the Cooperative Open Online Landslide Repository, or COOLR, provides the opportunity for the community to view landslide reports and contribute their own. The goal of the COOLR project is to create the largest global public online landslide catalog available and open to for anyone everyone to share, download, and analyze landslide information. More information on this system is available at: https://landslides.nasa.govThe Global Landslide Catalog is currently available here: https://catalog.data.gov/dataset/global-landslide-catalog-export || ",
            "hits": 176
        },
        {
            "id": 4640,
            "url": "https://svs.gsfc.nasa.gov/4640/",
            "result_type": "Visualization",
            "release_date": "2018-04-25T12:00:00-04:00",
            "title": "Close-up Views of the Global Landslide Hazard Assessment Model (LHASA) overlaid with Global Landslide Catalog (GLC) data",
            "description": "A close-up view of the potential landslide activity during July in Southeast Asia as evaluated by NASA's Landslide Hazard Assessment model for Situational Awareness. In the Download tab to the right, a set of 12 still images provides high-resolution (9,600x5,400) global maps to allow for close-up views in any location around the world. The images showcase the landslide climatology by month overload with the distribution of reported landslide fatalities for the period 2007-2017. || 07_ClimatologyMonthlyFatalities_032818_Asia_CloseUp_print.jpg (1024x576) [188.1 KB] || 07_ClimatologyMonthlyFatalities_032818_Asia_CloseUp_searchweb.png (320x180) [84.5 KB] || 07_ClimatologyMonthlyFatalities_032818_Asia_CloseUp_thm.png (80x40) [7.7 KB] || 07_ClimatologyMonthlyFatalities_032818_Asia_CloseUp.tif (1920x1080) [7.9 MB] || MonthlyClimatologyFatalities (9600x5400) [0 Item(s)] || ",
            "hits": 44
        },
        {
            "id": 40348,
            "url": "https://svs.gsfc.nasa.gov/gallery/esddatafor-societal-benefits/",
            "result_type": "Gallery",
            "release_date": "2018-04-24T00:00:00-04:00",
            "title": "ESD data for Societal Benefit",
            "description": "No description available.",
            "hits": 228
        },
        {
            "id": 4632,
            "url": "https://svs.gsfc.nasa.gov/4632/",
            "result_type": "Visualization",
            "release_date": "2018-04-23T15:00:00-04:00",
            "title": "Global Landslide Catalog (Update 2017)",
            "description": "This entry contains updated maps generated for Glocal Landslide Catalog Aids View From Space, released on April 16, 2015Landslides are among the most common and dramatic natural hazards, reshaping landscapes -- and anything in their path. Tracking when and where landslides occur worldwide has historically been difficult, because of the lack of a centralized database across all nations. But NASA researchers have updated the first publicly available Global Landslide Catalog (GLC), based on media reports and online databases that bring together many sources of information on landslides that have occurred. The GLC has been compiled since 2007 at NASA's Goddard Space Flight Center and was originally released in 2010. Around 10,804 landslides are noted in the catalog for the period 2007-2017. This wealth of data gives scientists a starting point to analyze where, how and why landslides are likely to occur. The catalog is currently available here:  https://catalog.data.gov/dataset/global-landslide-catalog-exportRecently, a new model was developed to look at how potential landslide activity is changing around the world. A global Landslide Hazard Assessment model for Situational Awareness (LHASA) has been developed to provide an indication of where and when landslides may be likely around the world every 30 minutes. This model uses surface susceptibility (including slope, vegetation, road networks, geology, and forest cover loss) and satellite rainfall data from the Global Precipitation Measurement (GPM)  mission to provide moderate to high “nowcasts.” For more information about this new model, please visit: New NASA Model Finds Landslide Threats in Near Real-Time During Heavy Rains\" || ",
            "hits": 68
        },
        {
            "id": 4633,
            "url": "https://svs.gsfc.nasa.gov/4633/",
            "result_type": "Visualization",
            "release_date": "2018-03-22T10:00:00-04:00",
            "title": "Landslide Activity in the Americas for the Cover of <i>Earth's Future</i>",
            "description": "A view of the potential landslide activity during January in the Americas, as evaluated by NASA's Landslide Hazard Assessment model for Situational Awareness (LHASA). This still image is provided in 300dpi (print resolution) and in separate layers (water, data, land, outlines). || ClimatologyJanuary_Cover_Light_Layers_Preview_print.jpg (1024x1024) [125.1 KB] || ClimatologyJanuary_Cover_Light_Layers_Preview.png (2550x2550) [2.5 MB] || ClimatologyJanuary_Cover_Light_Layers_Preview_searchweb.png (320x180) [34.2 KB] || ClimatologyJanuary_Cover_Light_Layers_Preview_thm.png (80x40) [3.4 KB] || ClimatologyJanuary_Cover_Light_Layers_300dpi.tif (2550x2550) [16.4 MB] || ",
            "hits": 25
        },
        {
            "id": 4617,
            "url": "https://svs.gsfc.nasa.gov/4617/",
            "result_type": "Visualization",
            "release_date": "2018-01-31T14:00:00-05:00",
            "title": "Interface to Space: The Equatorial Fountain",
            "description": "Visualization illustrating the Fountain Effect of ions in the near-Earth electric and magnetic fields. || IRIConceptual.Limb2PullOut_OionFountainIGRF.noslate_CRTT.HD1080i.000660_print.jpg (1024x576) [114.5 KB] || IRIConceptual.Limb2PullOut_OionFountainIGRF.noslate_CRTT.HD1080i.000660_searchweb.png (320x180) [87.8 KB] || IRIConceptual.Limb2PullOut_OionFountainIGRF.noslate_CRTT.HD1080i.000660_thm.png (80x40) [7.2 KB] || 1920x1080_16x9_30p (1920x1080) [0 Item(s)] || IRIConceptual.Limb2PullOut_OionFountainIGRF.HD1080i_p30.mp4 (1920x1080) [32.1 MB] || IRIConceptual.Limb2PullOut_OionFountainIGRF.HD1080i_p30.webm (1920x1080) [4.2 MB] || 3840x2160_16x9_30p (3840x2160) [0 Item(s)] || IRIConceptual.Limb2PullOut_OionFountainIGRF_2160p30.mp4 (3840x2160) [96.1 MB] || IRIConceptual.Limb2PullOut_OionFountainIGRF.HD1080i_p30.mp4.hwshow [221 bytes] || ",
            "hits": 81
        },
        {
            "id": 12800,
            "url": "https://svs.gsfc.nasa.gov/12800/",
            "result_type": "Produced Video",
            "release_date": "2017-12-11T16:00:00-05:00",
            "title": "The Birth of a New Island: Press Materials",
            "description": "Music: Fountain by Mailcoat Sheppard; Data Visions by Pike; Guilty Curiosity by Brice Davoli; Concerning Nymphs by Hammond Roberts. Complete transcript available. || NewTongaIsland_Long_print.jpg (1024x573) [107.5 KB] || NewTongaIsland_Long.png (2552x1429) [3.6 MB] || NewTongaIsland_Long_searchweb.png (320x180) [99.0 KB] || NewTongaIsland_Long_thm.png (80x40) [7.8 KB] || FACEBOOK_720_NewTongaIsland_Long_facebook_720.webm (1280x720) [43.3 MB] || TWITTER_720_NewTongaIsland_Long_twitter_720.mp4 (1280x720) [96.7 MB] || NewTongaIsland_Long_large.mp4 (1920x1080) [404.5 MB] || FACEBOOK_720_NewTongaIsland_Long_facebook_720.mp4 (1280x720) [504.5 MB] || YOUTUBE_720_NewTongaIsland_Long_youtube_720.mp4 (1280x720) [660.6 MB] || YOUTUBE_1080_NewTongaIsland_Long_youtube_1080.mp4 (1920x1080) [694.2 MB] || TongaNewIslandCaptions.en_US.srt [7.9 KB] || TongaNewIslandCaptions.en_US.vtt [7.8 KB] || CH28_NewTongaIsland_Long_ch28.mov (1280x720) [3.7 GB] || NewTongaIsland_Long.mov (1920x1080) [10.5 GB] || ",
            "hits": 119
        },
        {
            "id": 4594,
            "url": "https://svs.gsfc.nasa.gov/4594/",
            "result_type": "Visualization",
            "release_date": "2017-10-31T10:00:00-04:00",
            "title": "ICON Scans the Ionosphere",
            "description": "ICON orbits Earth at 575 kilometers altitude, measuring the composition and motions of the ionosphere. || IRIDaily.limbwICON_OionHwindIGRF.clockSlate_CRTT.HD1080i.000870_print.jpg (1024x576) [105.7 KB] || IRIDaily.limbwICON_OionHwindIGRF.clockSlate_CRTT.HD1080i.000870_searchweb.png (320x180) [63.8 KB] || IRIDaily.limbwICON_OionHwindIGRF.clockSlate_CRTT.HD1080i.000870_thm.png (80x40) [5.0 KB] || 1920x1080_16x9_30p (1920x1080) [0 Item(s)] || IRIDaily.limbwICON_OionHwindIGRF.HD1080i_p30.mp4 (1920x1080) [76.4 MB] || IRIDaily.limbwICON_OionHwindIGRF.HD1080i_p30.webm (1920x1080) [10.9 MB] || 3840x2160_16x9_30p (3840x2160) [0 Item(s)] || IRIDaily.limbwICON_OionHwindIGRF.UHD3840_2160p30.mp4 (3840x2160) [217.4 MB] || IRIDaily.limbwICON_OionHwindIGRF.HD1080i_p30.mp4.hwshow [210 bytes] || ",
            "hits": 105
        },
        {
            "id": 4585,
            "url": "https://svs.gsfc.nasa.gov/4585/",
            "result_type": "Visualization",
            "release_date": "2017-09-19T00:00:00-04:00",
            "title": "Hurricane Jose lingers in the Atlantic as Hurricane Maria approaches Puerto Rico",
            "description": "GPM passed over both Hurricane Maria and Hurricane Jose on September 18th, 2017.  As the camera moves in on the Maria, DPR's volumetric view of the storm is revealed. A slicing plane moves across the volume to display precipitation rates throughout the storm. Shades of green to red represent liquid precipitation extending down to the ground. || JoseMaria_03.6000_print.jpg (576x1024) [192.4 KB] || JoseMaria_03.6000_searchweb.png (320x180) [112.5 KB] || JoseMaria_03.6000_thm.png (80x40) [7.7 KB] || JoseMaria_09-18 (1920x1080) [0 Item(s)] || JoseMaria_03_1080p30.webm (1920x1080) [4.8 MB] || JoseMaria_03_1080p30.mp4 (1920x1080) [81.8 MB] || JoseMaria_09-18 (3840x2160) [0 Item(s)] || JoseMaria_03_2160p30.mp4 (3840x2160) [232.0 MB] || JoseMaria_03_1080p30.mp4.hwshow [186 bytes] || ",
            "hits": 49
        },
        {
            "id": 12620,
            "url": "https://svs.gsfc.nasa.gov/12620/",
            "result_type": "Produced Video",
            "release_date": "2017-06-05T10:00:00-04:00",
            "title": "Winter School Class of 2017",
            "description": "Participants in the 2017 Planetary Science Winter School discuss what it takes to go from science concept to engineering reality. Complete transcript available.Watch this video on the NASA Goddard YouTube channel.Music provided by Killer Tracks:\"Nature Exploration\" – Laurent Dury\"On the Plate\" – Daniel Pemberton || WinterSchoolThumbnail2017_v4.jpg (1920x1080) [892.5 KB] || WinterSchoolThumbnail2017_v4_searchweb.png (320x180) [146.3 KB] || WinterSchoolThumbnail2017_v4_thm.png (80x40) [9.5 KB] || 12620_Winter_School_2017_MASTER.mp4 (1920x1080) [451.9 MB] || 12620_Winter_School_2017_Facebook.mp4 (1280x720) [273.7 MB] || 12620_Winter_School_2017_Twitter.mp4 (1280x720) [48.8 MB] || WEBM-12620_Winter_School_2017_MASTER.webm (960x540) [91.9 MB] || 12620_Winter_School_2017_MASTER_Output.en_US.srt [5.2 KB] || 12620_Winter_School_2017_MASTER_Output.en_US.vtt [5.2 KB] || ",
            "hits": 16
        },
        {
            "id": 4568,
            "url": "https://svs.gsfc.nasa.gov/4568/",
            "result_type": "Visualization",
            "release_date": "2017-05-18T10:00:00-04:00",
            "title": "Exploring Reconnection - Guide Field Off",
            "description": "This visualization shows an oblique view of the reconnection region.  Magnetic field direction is represented by the cyan lines.  The color trail represents an electron moving in the field.  Color of the particle trail represents a dimensionless speed of the particle, with blue for slow and red for fast. || GuideFieldOff_oblique_inertial.HD1080i.0300_print.jpg (1024x576) [118.2 KB] || GuideFieldOff_oblique_inertial.HD1080i.0300_searchweb.png (320x180) [70.8 KB] || GuideFieldOff_oblique_inertial.HD1080i.0300_thm.png (80x40) [4.4 KB] || GuideFieldOff_oblique (1920x1080) [0 Item(s)] || GuideFieldOff_oblique_inertial.HD1080i_p30.mp4 (1920x1080) [6.3 MB] || GuideFieldOff_oblique_inertial.HD1080i_p30.webm (1920x1080) [776.5 KB] || GuideFieldOff_oblique_inertial.HD1080i_p30.mp4.hwshow [208 bytes] || ",
            "hits": 65
        },
        {
            "id": 4569,
            "url": "https://svs.gsfc.nasa.gov/4569/",
            "result_type": "Visualization",
            "release_date": "2017-05-18T10:00:00-04:00",
            "title": "Exploring Reconnection - Guide Field On",
            "description": "This visualization shows an oblique view of the reconnection region. Magnetic field direction is represented by the cyan lines. The color trail represents an electron moving in the field. Color of the particle trail represents a dimensionless speed of the particle, with blue for slow and red for fast. || GuideFieldOn_oblique_inertial.HD1080i.0300_print.jpg (1024x576) [129.7 KB] || GuideFieldOn_oblique_inertial.HD1080i.0300_searchweb.png (320x180) [76.2 KB] || GuideFieldOn_oblique_inertial.HD1080i.0300_thm.png (80x40) [4.6 KB] || GuideFieldOn_oblique (1920x1080) [0 Item(s)] || GuideFieldOn_oblique.HD1080i_p30.mp4 (1920x1080) [6.5 MB] || GuideFieldOn_oblique.HD1080i_p30.webm (1920x1080) [761.3 KB] || GuideFieldOn_oblique.HD1080i_p30.mp4.hwshow [198 bytes] || ",
            "hits": 153
        },
        {
            "id": 4565,
            "url": "https://svs.gsfc.nasa.gov/4565/",
            "result_type": "Visualization",
            "release_date": "2017-05-04T19:00:00-04:00",
            "title": "Seasonal Changes in Carbon Dioxide",
            "description": "Narrated visualization showing seasonal drawdown in carbon dioxideThis video is also available on our YouTube channel. || co2_science_comp.0740_print.jpg (1024x576) [118.8 KB] || co2_science_comp.0740_searchweb.png (180x320) [75.9 KB] || co2_science_comp.0740_thm.png (80x40) [6.1 KB] || CO2_Science_001_DDMMYY.m4v (1280x720) [66.6 MB] || CO2_Science_001_DDMMYY.webmhd.webm (1080x606) [17.7 MB] || CO2_Science_001_MM.m4v (1280x720) [66.5 MB] || comp (1920x1080) [0 Item(s)] || CO2_Science_001_DDMMYY.mp4 (1920x1080) [147.8 MB] || CO2_Science_001_MM.mp4 (1920x1080) [147.9 MB] || CO2_Science.en_US.srt [1.7 KB] || CO2_Science.en_US.vtt [1.7 KB] || CO2_Science_001_DDMMYY.mov (1920x1080) [1.1 GB] || CO2_Science_001_MM.mov (1920x1080) [1.1 GB] || ",
            "hits": 419
        },
        {
            "id": 12587,
            "url": "https://svs.gsfc.nasa.gov/12587/",
            "result_type": "Produced Video",
            "release_date": "2017-05-02T13:00:00-04:00",
            "title": "Gigantic Wave Discovered in Perseus Galaxy Cluster",
            "description": "A wave spanning 200,000 light-years is rolling through the Perseus galaxy cluster, according to observations from NASA's Chandra X-ray Observatory coupled with a computer simulation. The simulation shows the gravitational disturbance resulting from the distant flyby of a galaxy cluster about a tenth the mass of the Perseus cluster. The event causes cooler gas at the heart of the Perseus cluster to form a vast expanding spiral, which ultimately forms giant waves lasting hundreds of millions of years at its periphery. Merger events like this are thought to occur as often as every three to four billion years in clusters like Perseus.Credit: NASA's Goddard Space Flight CenterMusic: \"The Undiscovered\" from Killer TracksWatch this video on the NASA Goddard YouTube channel.Complete transcript available. || Perseus_Simulation_Final_Frame_print.jpg (1024x575) [47.6 KB] || Perseus_Simulation_Final_Frame.png (7342x4129) [4.0 MB] || Perseus_Simulation_Final_Frame_thm.png (80x40) [3.3 KB] || Perseus_Simulation_Final_Frame_searchweb.png (320x180) [39.3 KB] || 12587_Perseus_Wind_FINAL_VX-281959_appletv_subtitles.m4v (1280x720) [85.7 MB] || 12587_Perseus_Wind_1080.webm (1920x1080) [18.2 MB] || 12587_Perseus_Wind_FINAL_VX-281959_appletv.m4v (1280x720) [85.6 MB] || 12587_Perseus_Wind_1080.m4v (1920x1080) [160.3 MB] || 12587_Perseus_Wind_1080.mov (1920x1080) [241.7 MB] || 12587_Perseus_Wind_SRT_Caption.en_US.vtt [1.7 KB] || 12587_Perseus_Wind_SRT_Caption.en_US.srt [1.7 KB] || WMV_12587_Perseus_Wind_FINAL_VX-281959_HD.wmv (3840x2160) [154.8 MB] || 12587_Perseus_Wind.mp4 (3840x2160) [306.3 MB] || 12587_Perseus_Wind_Good_4k.mov (3840x2160) [468.4 MB] || 12587_Perseus_Wind_4K.m4v (3840x2160) [792.0 MB] || 12587_Perseus_Wind_FINAL_VX-281959_youtube_hq.mov (3840x2160) [1.2 GB] || 12587_Perseus_Wind_ProRes_3840x2160_2997.mov (3840x2160) [5.2 GB] || ",
            "hits": 94
        },
        {
            "id": 20267,
            "url": "https://svs.gsfc.nasa.gov/20267/",
            "result_type": "Animation",
            "release_date": "2017-04-26T00:00:00-04:00",
            "title": "Neutron Star Animations",
            "description": "The Neutron star Interior Composition Explorer (NICER) mission will study neutron stars, the densest known objects in the cosmos. These neutron star animations and graphics highlight some of their unique characteristics.For more information about NICER visit: nasa.gov/nicer. || ",
            "hits": 493
        },
        {
            "id": 20268,
            "url": "https://svs.gsfc.nasa.gov/20268/",
            "result_type": "Animation",
            "release_date": "2017-04-26T00:00:00-04:00",
            "title": "NICER Lensing",
            "description": "The Neutron star Interior Composition Explorer (NICER) mission will study neutron stars, the densest known objects in the cosmos. These neutron star animations and graphics highlight some of their unique characteristics.For more information about NICER visit: nasa.gov/nicer. || ",
            "hits": 181
        },
        {
            "id": 12497,
            "url": "https://svs.gsfc.nasa.gov/12497/",
            "result_type": "Produced Video",
            "release_date": "2017-02-08T00:00:00-05:00",
            "title": "Snow Live Shots (Feb. 17, 2017)",
            "description": "B-roll for NASA interviews on Friday, February 17, 2017. || B-Roll.00001_print.jpg (1024x576) [182.9 KB] || B-Roll.00001_searchweb.png (320x180) [86.4 KB] || B-Roll.00001_web.png (320x180) [86.4 KB] || B-Roll.00001_thm.png (80x40) [6.6 KB] || B-Roll.webm (1280x720) [47.7 MB] || B-Roll.mov (1280x720) [6.2 GB] || ",
            "hits": 23
        },
        {
            "id": 40317,
            "url": "https://svs.gsfc.nasa.gov/gallery/vcearth-video-wall/",
            "result_type": "Gallery",
            "release_date": "2017-02-02T00:00:00-05:00",
            "title": "VC Earth Video Wall",
            "description": "list of videos to display on video wall in Earth science exhibit at Goddard Visitor Center",
            "hits": 6
        },
        {
            "id": 4539,
            "url": "https://svs.gsfc.nasa.gov/4539/",
            "result_type": "Visualization",
            "release_date": "2017-01-13T10:00:00-05:00",
            "title": "Exploring Earth's Ionosphere: Limb view with approach",
            "description": "Oxygen ion enhancements at 350km altitude, ionospheric winds at altitudes of 100 km (white) and 350 km (violet) and the low-latitude geomagnetic field. || IRIDaily.zoom2limb_OionHwindIGRF.clockSlate_CRTT.HD1080i.000400_print.jpg (1024x576) [92.1 KB] || IRIDaily.zoom2limb_OionHwindIGRF.clockSlate_CRTT.HD1080i.000400_searchweb.png (320x180) [58.1 KB] || IRIDaily.zoom2limb_OionHwindIGRF.clockSlate_CRTT.HD1080i.000400_thm.png (80x40) [4.9 KB] || IRIDaily.zoom2limb_OionHwindIGRF.HD1080i_p30.mp4 (1920x1080) [89.8 MB] || OionHwindIGRF (1920x1080) [0 Item(s)] || IRIDaily.zoom2limb_OionHwindIGRF.HD1080i_p30.webm (1920x1080) [8.6 MB] || OionHwindIGRF (3840x2160) [0 Item(s)] || IRIDaily.zoom2limb_OionHwindIGRF.2160p30.mp4 (3840x2160) [274.0 MB] || IRIDaily.zoom2limb_OionHwindIGRF.HD1080i_p30.mp4.hwshow [210 bytes] || ",
            "hits": 80
        },
        {
            "id": 4540,
            "url": "https://svs.gsfc.nasa.gov/4540/",
            "result_type": "Visualization",
            "release_date": "2017-01-13T10:00:00-05:00",
            "title": "Exploring Earth's Ionosphere: Limb view",
            "description": "This visualization presents data on the concentration of the singly-ionized oxygen atom (rainbow color table, red is highest concentration), the low-latitude geomagnetic field (gold field lines) and the ionospheric winds at two altitude levels, 100km (white) and 350 km (violet). || IRIDaily.limb_OionHwindIGRF.clockSlate_CRTT.HD1080i.000750_print.jpg (1024x576) [101.4 KB] || IRIDaily.limb_OionHwindIGRF.clockSlate_CRTT.HD1080i.000750_thm.png (80x40) [5.0 KB] || IRIDaily.limb_OionHwindIGRF.clockSlate_CRTT.HD1080i.000750_searchweb.png (320x180) [62.5 KB] || IRIDaily.limb_OionHwindIGRF.HD1080i_p30.mp4 (1920x1080) [88.3 MB] || OionHwindIGRF (1920x1080) [0 Item(s)] || OionHwindIGRF (3840x2160) [0 Item(s)] || IRIDaily.limb_OionHwindIGRF.2160p30.webm (3840x2160) [12.4 MB] || IRIDaily.limb_OionHwindIGRF.2160p30.mp4 (3840x2160) [274.0 MB] || IRIDaily.limb_OionHwindIGRF.HD1080i_p30.mp4.hwshow [205 bytes] || ",
            "hits": 82
        },
        {
            "id": 4514,
            "url": "https://svs.gsfc.nasa.gov/4514/",
            "result_type": "Visualization",
            "release_date": "2016-12-13T14:00:00-05:00",
            "title": "Carbon Dioxide from GMAO using Assimilated OCO-2 Data",
            "description": "Carbon Dioxide from the GEOS-5 modelThis video is also available on our YouTube channel. || co2_30.with_labels.2000_print.jpg (1024x576) [90.1 KB] || co2_30.with_labels.2000_searchweb.png (180x320) [64.0 KB] || co2_30.with_labels.2000_thm.png (80x40) [5.9 KB] || co2_30.with_labels_1080p30.mp4 (1920x1080) [75.6 MB] || co2_30.with_labels_1080p30.webm (1920x1080) [11.3 MB] || co2_30.with_labels_360p30.mp4 (640x360) [12.2 MB] || final_no_dates (3840x2160) [0 Item(s)] || final_with_labels (3840x2160) [0 Item(s)] || co2_30.with_labels.key [77.8 MB] || co2_30.with_labels.pptx [77.4 MB] || co2_30.with_labels_2160p30.mp4 (3840x2160) [306.7 MB] || co2_30.with_labels_1080p30.mp4.hwshow [192 bytes] || ",
            "hits": 89
        },
        {
            "id": 4519,
            "url": "https://svs.gsfc.nasa.gov/4519/",
            "result_type": "Visualization",
            "release_date": "2016-12-09T00:00:00-05:00",
            "title": "Assimilation of OCO-2 Carbon Dioxide into the GEOS Simulation",
            "description": "This visualization starts by showing carbon dioxide values (colored squares) being measured by the OCO-2 sensor.  Soon the total carbon dioxide from the GEOS global atmosphere simulation is shown under the OCO-2 data.  Every six hours, the OCO-2 measurements are used to adjust the GEOS simulation values to agree with observed values at those locations, a process called data assimilation.  In order to see this process, look for locations where OCO-2 values are shortly followed by local changes in the background data.  Carbon dioxide is shown in parts per million by volume (ppmv).This video is also available on our YouTube channel. || ocogeoscomp.01560_print.jpg (1024x576) [98.7 KB] || ocogeoscomp.01560_searchweb.png (320x180) [64.2 KB] || ocogeoscomp.01560_thm.png (80x40) [5.8 KB] || ocogeoscomp-annotated_1080p30.webm (1920x1080) [19.5 MB] || ocogeoscomp-annotated_1080p30.mp4 (1920x1080) [108.6 MB] || ocogeoscomp_new_1080p30.mp4 (1920x1080) [106.2 MB] || newannotated (3840x2160) [0 Item(s)] || newcomp (3840x2160) [0 Item(s)] || ocogeoscomp-annotated_4519.key [109.8 MB] || ocogeoscomp-annotated_4519.pptx [109.5 MB] || ocogeoscomp-annotated_2160p30.mp4 (3840x2160) [336.7 MB] || ocogeoscomp_new_2160p30.mp4 (3840x2160) [333.7 MB] || the-earth-observing-fleet-by-theme-aerosols-atmospheric-chemistry.hwshow [1.5 KB] || ocogeoscomp_new_1080p30.mp4.hwshow [218 bytes] || ",
            "hits": 128
        },
        {
            "id": 40302,
            "url": "https://svs.gsfc.nasa.gov/gallery/svsyoutube-candidates/",
            "result_type": "Gallery",
            "release_date": "2016-06-03T00:00:00-04:00",
            "title": "SVS YouTube Candidates",
            "description": "These are the proposed visualization candidates to be included in the SVS YouTube Channel.",
            "hits": 183
        },
        {
            "id": 4448,
            "url": "https://svs.gsfc.nasa.gov/4448/",
            "result_type": "Visualization",
            "release_date": "2016-05-09T00:00:00-04:00",
            "title": "KORUS_AQ: CH<sub>2</sub>O Levels over the Korean Peninsula in June 2013",
            "description": "These visuals were created in anticipation of the 2016 Korean United States Air Quality study (KORUS-AQ) field campaign which will combine observations from aircraft, satellties, ships and ground stations with air quality models to assess and monitor air quality acorss urban, rural and coastal areas.These visuals are showing the formaldehyde levels over the Korean peninsula in June 2013 according to the GEOS-5 Nature Run chemistry model data. || ",
            "hits": 14
        },
        {
            "id": 4449,
            "url": "https://svs.gsfc.nasa.gov/4449/",
            "result_type": "Visualization",
            "release_date": "2016-05-09T00:00:00-04:00",
            "title": "KORUN_AQ: NO<sub>2</sub> levels over the Korean Peninsula in June 2013",
            "description": "These visuals were created in anticipation of the 2016 Korean United States Air Quality study (KORUS-AQ) field campaign which will combine observations from aircraft, satellties, ships and ground stations with air quality models to assess and monitor air quality acorss urban, rural and coastal areas.These visuals are showing the nitrogen dioxide levels over the Korean peninsula in June 2013 according to the GEOS-5 Nature Run chemistry model data. || ",
            "hits": 15
        },
        {
            "id": 4447,
            "url": "https://svs.gsfc.nasa.gov/4447/",
            "result_type": "Visualization",
            "release_date": "2016-05-06T00:00:00-04:00",
            "title": "KORUS-AQ: Surface Ozone Levels Over the Korean Peninsula in June 2013",
            "description": "These visuals were created in anticipation of the 2016 Korean United States Air Quality study (KORUS-AQ) field campaign which will combine observations from aircraft, satellties, ships and ground stations with air quality models to assess and monitor air quality acorss urban, rural and coastal areas.Ozone gas and particle pollution are two of the main factors that contribute to poor air quality around the world.  While ozone gas located high in the stratosphere protects us from the sun’s harmful UV rays, pollution from cars and other human emissions near ground level can cause chemical reactions that lead to ozone formation near the surface. Breathing in high levels of ozone is also bad for human health, causing lung diseases and health impacts on sensitive populations such as children, the elderly and people with asthma. These visuals are showing the ozone that formed near the surface, or 'surface ozone', over the Korean peninsula in June 2013 according to the GEOS-5 Nature Run chemistry model data.  Peak ozone in Korea occurs between April and June.Since Seoul is located on a peninsula, the metropolitan area and the pollution produced here are separated from other sources of emissions. In addition, Seoul’s human-produced emissions are concentrated in its urban areas but are surrounded by more rural agricultural areas. The contrast between urban and rural zones on the peninsula allow scientists to study and differentiate human and naturally-produced emissions and better understand how they interact chemically.  Understanding the chemical reactions between urban and agricultural emissions is extremely important for improving models that forecast air quality. || ",
            "hits": 21
        },
        {
            "id": 30771,
            "url": "https://svs.gsfc.nasa.gov/30771/",
            "result_type": "Hyperwall Visual",
            "release_date": "2016-04-29T00:00:00-04:00",
            "title": "4K Video from the ISS, April 2016",
            "description": "ISS crew Earth observations, || earth_obs_00720_print.jpg (1024x576) [164.4 KB] || earth_obs_00720.png (3840x2160) [31.7 MB] || earth_obs_00720_searchweb.png (320x180) [85.1 KB] || earth_obs_00720_thm.png (80x40) [6.3 KB] || ISS_Crew_Earth_Observations_720p.mp4 (1280x720) [19.7 MB] || ISS_Crew_Earth_Observations_720p.webm (1280x720) [7.5 MB] || ISS_Crew_Earth_Observations_2160p.mp4 (3840x2160) [80.1 MB] || ",
            "hits": 720
        },
        {
            "id": 12176,
            "url": "https://svs.gsfc.nasa.gov/12176/",
            "result_type": "Produced Video",
            "release_date": "2016-04-04T00:00:00-04:00",
            "title": "How El Niño Impacts Marine Plant Life",
            "description": "El Niño years can have a big impact on the littlest plants in the ocean, and NASA scientists are studying the relationship between the two. Ocean color maps, based on a month’s worth of satellite data, show El Niño’s impact on phytoplankton. In El Niño years, huge masses of warm water – equivalent to about half of the volume of the Mediterranean Sea – slosh east across the Pacific Ocean towards South America. That mass of warm water puts a lid on the normal currents of cold, deep water that typically rise to the surface along the equator and off the coast of Chile and Peru.\"An El Niño basically stops the normal upwelling,\" Uz said. \"There’s a lot of starvation that happens to the marine food web.\" These small plants, called phytoplankton, are fish food – without them, fish populations drop, and the fishing industries that many coastal regions depend on can collapse. || ",
            "hits": 133
        },
        {
            "id": 30629,
            "url": "https://svs.gsfc.nasa.gov/30629/",
            "result_type": "Hyperwall Visual",
            "release_date": "2015-12-27T16:00:00-05:00",
            "title": "El Niño Watch 2015",
            "description": "Animation of Sea Surface Height Anomaly for 2015 compared to 1997 || ssha_1997vs2015_print.jpg (1024x574) [142.6 KB] || ssha_1997vs2015_searchweb.png (180x320) [71.4 KB] || ssha_1997vs2015_thm.png (80x40) [7.0 KB] || ssha_1997vs2015_720p.webm (1280x720) [2.4 MB] || ssha_1997vs2015_720p.mp4 (1280x720) [4.0 MB] || ssha_1997vs2015_1080p.mp4 (1920x1080) [5.1 MB] || ssha_1997vs2015_2304p.mp4 (4096x2304) [15.3 MB] || ssha_1997vs2015_360p.mp4 (640x360) [1.7 MB] || ssha_1997vs2015.tif (4104x2304) [4.3 MB] || ssha_1997vs2015_30629.key [7.5 MB] || ssha_1997vs2015_30629.pptx [4.9 MB] || el_nino_1997vs2015_recent_still.hwshow [230 bytes] || ",
            "hits": 43
        },
        {
            "id": 40269,
            "url": "https://svs.gsfc.nasa.gov/gallery/carbon-gallery/",
            "result_type": "Gallery",
            "release_date": "2015-11-10T00:00:00-05:00",
            "title": "Carbon and Climate",
            "description": "As carbon dioxide levels in Earth's atmosphere have increased in recent decades, the planet's land and ocean have continued to absorb about half of manmade emissions.  NASA’s Earth science program works to improve our understanding of how carbon absorption and emission processes work in nature. It also seeks to track how these processes might change in a warming world with increasing levels of carbon dioxide and methane emissions from human activities.\nThe volume of carbon dioxide pumped into the atmosphere by human activities is the dominant force driving ongoing and future climate change. While NASA isn’t involved in policies around emissions levels, the agency’s scientists are targeting what can be called the \"other half\" of this carbon and climate equation – what will happen with the 50 percent of carbon dioxide emissions that are currently absorbed by the ocean, forests and other land ecosystems?\n\nThe twenty-first Conference of Parties (COP-21) to the United Nations Framework Convention on Climate Change will take place in Paris, France, November 30 to December 11, 2015. Each year, the COP meets for two weeks to discuss the state of Earth’s climate and how best to deal with future climate change. Hosted by the U.S. Department of State, the U.S. Center at COP-21 is a major public outreach initiative to inform attendees about key climate initiatives and scientific research taking place in the U.S. As has been the standard for several years, NASA scientists will be present to show examples of our ongoing research.",
            "hits": 204
        },
        {
            "id": 12028,
            "url": "https://svs.gsfc.nasa.gov/12028/",
            "result_type": "Produced Video",
            "release_date": "2015-10-26T10:00:00-04:00",
            "title": "Suzaku Finds Common Chemical Composition at Largest Cosmic Scales",
            "description": "Suzaku mapped iron, magnesium, silicon and sulfur in four directions all across the Virgo Galaxy Cluster for the first time. The northern arm of the survey (top) extends 5 million light-years from M87 (center), the massive galaxy at the cluster's heart. Ratios of these elements are constant throughout the cluster, which means they were mixed well early in cosmic history. The dashed circle shows what astronomers call the virial radius, the boundary where gas clouds are just entering the cluster. Some prominent members of the cluster are labeled as well. The background image is part of the all-sky X-ray survey acquired by the German ROSAT satellite. The blue box at center indicates the area shown in the visible light image.    Credit: A. Simionescu (JAXA) and Hans Boehringer (MPE) || Suzaku_probes_Virgo_Cluster_labeled_print.jpg (1024x1259) [574.7 KB] || Suzaku_probes_Virgo_Cluster_labeled.jpg (2218x2729) [1.6 MB] || Suzaku_probes_Virgo_Cluster_labeled_web.png (320x393) [122.4 KB] || Suzaku_crop_searchweb.png (320x180) [64.0 KB] || Suzaku_crop_thm.png (80x40) [6.7 KB] || ",
            "hits": 83
        },
        {
            "id": 30680,
            "url": "https://svs.gsfc.nasa.gov/30680/",
            "result_type": "Hyperwall Visual",
            "release_date": "2015-09-25T13:00:00-04:00",
            "title": "Active Galaxy Hercules A: Visible & Radio Comparison",
            "description": "A comparison of visible and radio views of the active galaxy Hercules A || hercules_a-example_frame-1920x1080.png (1920x1080) [532.7 KB] || hercules_a-example_frame-1920x1080.jpg (1920x1080) [67.4 KB] || hercules_a-example_frame-1920x1080_searchweb.png (180x320) [25.1 KB] || hercules_a-example_frame-1920x1080_thm.png (80x40) [3.2 KB] || hercules_a-b-1920x1080.m4v (1920x1080) [8.7 MB] || hercules_a-b-1920x1080.wmv (1920x1080) [21.8 MB] || hercules_a-b-1920x1080p30.mov (1920x1080) [21.7 MB] || hercules_a-b-1280x720.m4v (1280x720) [3.4 MB] || hercules_a-b-1280x720.wmv (1280x720) [11.8 MB] || hercules_a-b-1920x1080p30.webm (1920x1080) [4.1 MB] || hercules_a-b-30680.key [6.0 MB] || hercules_a-b-30680.pptx [3.6 MB] || active-galaxy-hercules-a.hwshow [217 bytes] || ",
            "hits": 52
        },
        {
            "id": 12009,
            "url": "https://svs.gsfc.nasa.gov/12009/",
            "result_type": "Produced Video",
            "release_date": "2015-09-23T09:30:00-04:00",
            "title": "Earth’s Oceans Show Decline In Microscopic Plant Life",
            "description": "The world's oceans have seen significant declines in certain types of microscopic plant-life at the base of the marine food chain, according to a new NASA study. The research is the first to look at global, long-term phytoplankton community trends based on a model driven by NASA satellite data. Diatoms, the largest type of phytoplankton algae, have declined more than 1 percent per year from 1998 to 2012 globally, with significant losses occurring in the North Pacific, North Indian and Equatorial Indian oceans. The reduction in population may have an impact on the amount of carbon dioxide drawn out of the atmosphere and transferred to the deep ocean for long-term storage. || ",
            "hits": 47
        },
        {
            "id": 30626,
            "url": "https://svs.gsfc.nasa.gov/30626/",
            "result_type": "Hyperwall Visual",
            "release_date": "2015-08-17T00:00:00-04:00",
            "title": "A Satellite View of River Width",
            "description": "Continental-scale map of river widths || riversHyperWall_print.jpg (1024x574) [105.9 KB] || riversHyperWall.png (3078x1728) [2.6 MB] || riversHyperWall_searchweb.png (180x320) [49.1 KB] || riversHyperWall_thm.png (80x40) [3.8 KB] || river_width_30626.pptx [189.9 KB] || river_width_30626.key [2.7 MB] || a-satellite-view-of-river-width.hwshow [285 bytes] || ",
            "hits": 55
        },
        {
            "id": 30600,
            "url": "https://svs.gsfc.nasa.gov/30600/",
            "result_type": "Hyperwall Visual",
            "release_date": "2015-05-18T00:00:00-04:00",
            "title": "OCO-2 Early Glint Retrievals Over Water",
            "description": "XCO2 estimates from OCO-2 glint retrievals compared to model - transition animation || OCO2_glint_Q_print.jpg (1024x574) [165.5 KB] || OCO2_glint_Q.png (4104x2304) [1.8 MB] || OCO2_glint_Q_searchweb.png (320x180) [74.9 KB] || OCO2_glint_Q_thm.png (80x40) [5.9 KB] || JpGU_OCO2_glint_720p.webm (1280x720) [318.6 KB] || JpGU_OCO2_glint_1080p.mp4 (1920x1080) [400.9 KB] || JpGU_OCO2_glint_720p.mp4 (1280x720) [237.7 KB] || 4104x2304_16x9_30p (4104x2304) [4.0 KB] || JpGU_OCO2_glint_360p.mp4 (640x360) [82.6 KB] || JpGU_OCO2_glint_4k.mp4 (4104x2304) [905.5 KB] || JpGU_OCO2_glint_30600.key [4.7 MB] || JpGU_OCO2_glint_30600.pptx [2.1 MB] || ",
            "hits": 47
        },
        {
            "id": 30599,
            "url": "https://svs.gsfc.nasa.gov/30599/",
            "result_type": "Hyperwall Visual",
            "release_date": "2015-05-17T00:00:00-04:00",
            "title": "Soil Moisture Maps and Australian Rainfall",
            "description": "A series of images shows soil moisture and flooding in Australia. || smap_rainfall_australia_april_2015_print.jpg (1024x574) [129.9 KB] || smap_rainfall_australia_april_2015.png (4104x2304) [1.6 MB] || smap_rainfall_australia_april_2015_searchweb.png (180x320) [62.4 KB] || smap_rainfall_australia_april_2015_thm.png (80x40) [6.9 KB] || smap_rainfall_australia_april_2015_30599.key [4.6 MB] || smap_rainfall_australia_april_2015_30599.pptx [2.0 MB] || smap_rainfall_australia_april_2015.hwshow [236 bytes] || ",
            "hits": 30
        },
        {
            "id": 4303,
            "url": "https://svs.gsfc.nasa.gov/4303/",
            "result_type": "Visualization",
            "release_date": "2015-04-08T12:00:00-04:00",
            "title": "GPM Examines Super Typhoon Maysak",
            "description": "Visualization depicting Typhoon Maysak in the Southwest Pacific region as observed by the Global Precipitation Measurement (GPM) Core Satellite on March 30th, 2015.  GPM/GMI precipitation rates are displayed as the camera moves in on the storm. A slicing plane moves across the volume to display precipitation rates throughout the structure of the storm.  Shades of green to red represent liquid precipitation extending down to the ground. This video is also available on our YouTube channel. || Maysak_1080.1345_print.jpg (1024x576) [104.6 KB] || Maysak_1080.1345_print_thm.png (80x40) [6.4 KB] || Maysak_1080.1345_searchweb.png (320x180) [91.5 KB] || Maysak_720p30.mp4 (1280x720) [10.1 MB] || Maysak_1080p30.mp4 (1920x1080) [17.4 MB] || 1920x1080_16x9_30p (1920x1080) [128.0 KB] || Mayask_colorbar_1080p_p30.mp4 (1920x1080) [36.3 MB] || Mayask_colorbar_1080p_p30.webm (1920x1080) [4.0 MB] || Maysak_360p30.mp4 (640x360) [3.9 MB] || ",
            "hits": 15
        },
        {
            "id": 11760,
            "url": "https://svs.gsfc.nasa.gov/11760/",
            "result_type": "Produced Video",
            "release_date": "2015-03-31T11:00:00-04:00",
            "title": "A Once-Blue Planet",
            "description": "NASA research suggests an ocean once covered the surface of Mars. || c-1280.jpg (1280x720) [229.4 KB] || c-1024.jpg (1024x576) [157.9 KB] || c-1024_print.jpg (1024x576) [150.3 KB] || c-1024_searchweb.png (320x180) [80.7 KB] || c-1024_print_thm.png (80x40) [18.5 KB] || ",
            "hits": 114
        },
        {
            "id": 4243,
            "url": "https://svs.gsfc.nasa.gov/4243/",
            "result_type": "Visualization",
            "release_date": "2015-03-03T13:00:00-05:00",
            "title": "Volume-Rendered Global Atmospheric Model: Photorealistic Rendering",
            "description": "This is a photorealistic rendering of clouds using GEOS-5 model data. The camera is looking westard - from above the Pacific Ocean towards Asia.  A simulated typhoon is visible near the center. || photoreal_composite.1400_print.jpg (1024x576) [62.8 KB] || photoreal_composite.1400_searchweb.png (320x180) [48.0 KB] || photoreal_composite.1400_thm.png (80x40) [4.3 KB] || photoreal_composite11_720.mp4 (1280x720) [3.5 MB] || 1280x720_16x9_30p (1280x720) [128.0 KB] || photoreal_composite11_720.webm (1280x720) [4.0 MB] || photoreal_composite11_720.m4v (640x360) [6.0 MB] || ",
            "hits": 25
        },
        {
            "id": 4273,
            "url": "https://svs.gsfc.nasa.gov/4273/",
            "result_type": "Visualization",
            "release_date": "2015-02-24T09:55:00-05:00",
            "title": "CALIPSO observes Saharan dust crossing the Atlantic Ocean",
            "description": "Subtitled visualization depicting Saharan dust travelling across the Atlantic Ocean to the Amazon Basin.  MODIS imagery shows a 2D representation of the dust cloud, which is then compared to CALIPSO data curtains showing dust throughout the air column.  Seasonal dust flux measurements are visualized using particles systems. Finally, average annual dust deposition into the Amazon Basin is shown by Amazon boundary import/export measurements. || Dust_Entire_1080p_60fps.3072_print.jpg (1024x576) [124.9 KB] || Dust_Entire_1080p_60fps.3072_searchweb.png (180x320) [69.8 KB] || Dust_Entire_1080p_60fps.3072_web.png (320x180) [69.8 KB] || Dust_Entire_1080p_60fps.3072_thm.png (80x40) [5.4 KB] || SaharanDust_720p_60fps.mp4 (1280x720) [73.6 MB] || SaharanDust_1080p_60fps.webm (1920x1080) [12.3 MB] || SaharanDust_1080p_60fps.mp4 (1920x1080) [189.6 MB] || entire_4k (3840x2160) [0 Item(s)] || Dust_4k_30fps_2160p.mp4 (3840x2160) [365.9 MB] || ",
            "hits": 183
        },
        {
            "id": 4249,
            "url": "https://svs.gsfc.nasa.gov/4249/",
            "result_type": "Visualization",
            "release_date": "2015-01-23T09:00:00-05:00",
            "title": "Greenland Ice Sheet Stratigraphy",
            "description": "The above movie shows the new 3D map of the age of the Greenland ice sheet, using a collage of live footage and animation to explain how scientists determined the age from data collected by ice-penetrating radar.  The full script of the narration is available here.   This video is also available on our YouTube channel. || GIS_age_structure.jpg (1024x576) [166.8 KB] || 4249_Greenland_Radiostratigraphy_MASTER.webmhd.webm (1080x606) [51.7 MB] || 4249_Greenland_Radiostratigraphy_MASTER_1280x720.wmv (1280x720) [115.8 MB] || 4249_Greenland_Radiostratigraphy_MASTER_appletv.m4v (960x540) [99.6 MB] || 4249_Greenland_Radiostratigraphy_MASTER_appletv_subtitles.m4v (960x540) [99.7 MB] || 4249_Greenland_Radiostratigraphy_MASTER_youtube_hq.mov (1920x1080) [450.8 MB] || 4249_Greenland_Radiostratigraphy_MASTER_ipod_lg.m4v (640x360) [40.0 MB] || 4249_Greenland_Radiostratigraphy.en_US.srt [4.7 KB] || 4249_Greenland_Radiostratigraphy.en_US.vtt [4.7 KB] || 4249_Greenland_Radiostratigraphy_MASTER_nasaportal.mov (640x360) [98.5 MB] || 4249_Greenland_Radiostratigraphy_MASTER_ipod_sm.mp4 (320x240) [21.5 MB] || 4249_Greenland_Radiostratigraphy_MASTER_prores.mov (1920x1080) [6.7 GB] || ",
            "hits": 176
        },
        {
            "id": 4248,
            "url": "https://svs.gsfc.nasa.gov/4248/",
            "result_type": "Visualization",
            "release_date": "2014-12-09T17:00:00-05:00",
            "title": "GPM Dissects Typhoon Hagupit",
            "description": "Animation revealing a swath of GPM/GMI precipitation rates over Typhoon Hagupit. As the camera moves in on the storm, DPR's volumetric view of the storm is revealed. A slicing plane moves across the volume to display precipitation rates throughout the storm. Shades of green to red represent liquid precipitation extending down to the ground.This video is also available on our YouTube channel. || Hagupit_1080p_01.0396_print.jpg (1024x576) [146.6 KB] || Hagupit_1080p_01.0396_searchweb.png (320x180) [80.3 KB] || Hagupit_1080p_01.0396_thm.png (80x40) [6.7 KB] || Hagupit_1080p_01.0396_web.png (320x180) [80.3 KB] || Hagupit_1080p_01_1080.mp4 (1920x1080) [39.7 MB] || Hagupit_720p_01_720.mp4 (1280x720) [10.1 MB] || Hagupit_540p_30.mp4 (960x540) [6.9 MB] || 1920x1080_16x9_30p (1920x1080) [128.0 KB] || Hagupit_colorbar_1080p_p30.mp4 (1920x1080) [40.6 MB] || Hagupit_colorbar_1080p_p30.webm (1920x1080) [4.1 MB] || Hagupit_1080p_01_1080.mp4.hwshow [214 bytes] || ",
            "hits": 36
        },
        {
            "id": 4230,
            "url": "https://svs.gsfc.nasa.gov/4230/",
            "result_type": "Visualization",
            "release_date": "2014-10-16T00:00:00-04:00",
            "title": "GPM Explores Hurricane Gonzalo",
            "description": "Animation revealing a swath of GPM/GMI precipitation rates over Hurricane Gonzalo. As the camera moves in on the storm, DPR's volumetric view of the storm is revealed. A slicing plane moves across the volume to display precipitation rates throughout the storm. Shades of green to red represent liquid precipitation extending down to the ground. || Gonzalo.0340_print.jpg (1024x576) [105.8 KB] || 1920x1080_16x9_30p (1920x1080) [64.0 KB] || Gonzalo_720.webmhd.webm (960x540) [7.5 MB] || Gonzalo_720.mp4 (1280x720) [7.2 MB] || Gonzalo_1080.mp4 (1920x1080) [13.0 MB] || Gonzalo_360.mp4 (640x360) [2.9 MB] || ",
            "hits": 30
        },
        {
            "id": 4229,
            "url": "https://svs.gsfc.nasa.gov/4229/",
            "result_type": "Visualization",
            "release_date": "2014-10-14T12:00:00-04:00",
            "title": "GPM Explores Typhoon Vongfong",
            "description": "Animation revealing a swath of GPM/GMI precipitation rates over Typhoon Vongfong.  As the camera moves in on the storm, DPR's volumetric view of the storm is revealed.  A slicing plane moves across the volume to display precipitation rates throughout the storm. Shades of green to red represent liquid precipitation extending down to the ground. This video is also available on our YouTube channel. || vongfong_720p.0690_print.jpg (1024x576) [146.8 KB] || 1920x1080_16x9_30p (1920x1080) [64.0 KB] || 1280x720_16x9_30p (1280x720) [64.0 KB] || vongfong_1080p.mp4 (1920x1080) [19.2 MB] || vongfong_720p.mp4 (1280x720) [10.5 MB] || Vongfong_colorbar_1080p_p30.mp4 (1920x1080) [44.1 MB] || Vongfong_colorbar_1080p_p30.webm (1920x1080) [3.1 MB] || vongfong_640x360.mp4 (640x360) [4.2 MB] || vongfong_1080p.mp4.hwshow [200 bytes] || ",
            "hits": 11
        },
        {
            "id": 4206,
            "url": "https://svs.gsfc.nasa.gov/4206/",
            "result_type": "Visualization",
            "release_date": "2014-09-18T09:00:00-04:00",
            "title": "Average September Arctic Sea Ice Comparison: 1979 vs 2013",
            "description": "This visualization compares the difference in the area, volume and depth of the average September Arctic sea ice between 1979, shown in blue, and 2013, shown in orange.  The data from these two years has been projected onto a circle to provide for easy visual comparison without altering its area or volume.  The depth is shown as a histogram that is uniform rotationally around the central axis.  Each grid cell of the ground plane is 1,000 kilometers in width, or one million square kilometers per cell.  The depth of the sea ice is measured in meters.This data comes from the Pan-Arctic Ice Ocean Modeling and Assimilation System (PIOMAS).  This system combines real observations of the Arctic sea ice from 1979 through the present with data of the ocean and atmosphere to produce a complete picture of the changes in Arctic Sea ice area, thickness, and volume.  The sharp spike at the center of the visualization represents the very real phenomenon of thick ice ridges formed by ice dynamics.  PIOMAS is more completely described here. || ",
            "hits": 16
        }
    ]
}