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    "results": [
        {
            "id": 14366,
            "url": "https://svs.gsfc.nasa.gov/14366/",
            "result_type": "Produced Video",
            "release_date": "2023-06-20T22:00:00-04:00",
            "title": "Solstice Animations",
            "description": "Earth orbits at an angle, so half the year, the Northern Hemisphere is tilted toward the Sun — this is summer in the Northern Hemisphere, and winter in the Southern Hemisphere. The other half of the year, the Northern Hemisphere is tilted away from the Sun, creating winter in the north and summer in the south.Solstices happen twice per year, at the points in Earth’s orbit where this tilt is most pronounced. These days are the longest (in the summer hemisphere) and shortest (in the winter hemisphere) of the year, and mark the change of seasons to summer and winter, respectively. || ",
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        {
            "id": 12879,
            "url": "https://svs.gsfc.nasa.gov/12879/",
            "result_type": "Produced Video",
            "release_date": "2018-02-28T14:00:00-05:00",
            "title": "NASA Studies an Unusual Arctic Warming Event",
            "description": "Winter temperatures are soaring in the Arctic for the fourth winter in a row. The heat, accompanied by moist air, is entering the Arctic not only through the sector of the North Atlantic Ocean that lies between Greenland and Europe, as it has done in previous years, but is also coming from the North Pacific through the Bering Strait. “We have seen winter warming events before, but they’re becoming more frequent and more intense,” said Alek Petty, a sea ice researcher at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. Scientists are waiting to see how much this heat wave will impact the wintertime sea ice maximum extent, which has been shrinking in the past decades and has hit record lows each of the past three years. The sea ice levels are already at record lows or near-record lows in several areas of the Arctic. Another exceptional event this winter is the opening up of the sea ice cover north of Greenland, releasing heat from the ocean to the atmosphere and making the sea ice more vulnerable to further melting.  “This is a region where we have the thickest multi-year sea ice and expect it to not be mobile, to be resilient,” Petty said. “But now this ice is moving pretty quickly, pushed by strong southerly winds and probably affected by the warm temperatures, too.” || ",
            "hits": 37
        },
        {
            "id": 11507,
            "url": "https://svs.gsfc.nasa.gov/11507/",
            "result_type": "Produced Video",
            "release_date": "2014-03-19T00:00:00-04:00",
            "title": "Early Spring 3.20.2014 Live Shots",
            "description": "Broll for live shots talking about how signs of spring are coming earlier. || Early Spring Live Shot Roll Ins || Early_Spring_Roll_Ins-sm.1_print.jpg (1280x720) [129.0 KB] || Early_Spring_Roll_Ins-sm_web.png (320x180) [72.5 KB] || Early_Spring_Roll_Ins-sm_thm.png (80x40) [5.7 KB] || Early_Spring_Roll_Ins.webmhd.webm (960x540) [41.6 MB] || Early_Spring_Roll_Ins-sm.mov (650x366) [64.4 MB] || Early_Spring_Roll_Ins.mov (1280x720) [2.7 GB] || ",
            "hits": 21
        },
        {
            "id": 3907,
            "url": "https://svs.gsfc.nasa.gov/3907/",
            "result_type": "Visualization",
            "release_date": "2012-01-31T12:00:00-05:00",
            "title": "NASA's DC-8 Airborne Science Laboratory Flight Path Jan 19, 2012",
            "description": "NASA is flying an airborne science laboratory through Canadian snowstorms for six weeks in support of a difficult task of the upcoming Global Precipitation Measurement (GPM) mission: measuring snowfall from space. GPM is an international satellite mission scheduled for launch in 2014 that will provide next-generation observations of worldwide rain and snow every three hours. It is the first precipitation mission designed to detect falling snow from space.  NASA's DC-8 flying laboratory flew this flight path on Jan 19, 2012 in support of NASA's Global Precipitation Measurement Cold-season Precipitation Experiment (GCPEx) snow study.  The GCPEx field campaign will help scientists match measurements of snow in the air and on the ground. || ",
            "hits": 21
        },
        {
            "id": 10890,
            "url": "https://svs.gsfc.nasa.gov/10890/",
            "result_type": "Produced Video",
            "release_date": "2012-01-10T12:00:00-05:00",
            "title": "NASA Airborne Cold Weather Experiment Measures Falling Snow",
            "description": "NASA is flying an airborne science laboratory through Canadian snowstorms for six weeks in support of a difficult task of the upcoming Global Precipitation Measurement (GPM) mission: measuring snowfall from space. GPM is an international satellite mission scheduled for launch in 2014 that will provide next-generation observations of worldwide rain and snow every three hours. It is the first precipitation mission designed to detect falling snow from space. || ",
            "hits": 56
        },
        {
            "id": 20011,
            "url": "https://svs.gsfc.nasa.gov/20011/",
            "result_type": "Animation",
            "release_date": "2003-12-09T12:00:00-05:00",
            "title": "Pollution Reduces Winter Precipitation",
            "description": "In winter, moist air flows off the ocean and rises over the hills downwind of  a coastal city, dropping its rain and snow mainly as it ascends the hills.  As pollution from the city is pushed into the clouds by the hills downwind of the city, it interferes with droplet formation in the clouds as observed by NASA's satellites.  The smaller cloud droplets convert more slowly into precipitation.  Instead of precipitating, much of the water in the clouds evaporates, reducing the net rainfall downwind of the urban area by up to 15% to 25% on a seasonal basis.  First is the unpolluted case. || ",
            "hits": 63
        },
        {
            "id": 20012,
            "url": "https://svs.gsfc.nasa.gov/20012/",
            "result_type": "Animation",
            "release_date": "2003-12-09T12:00:00-05:00",
            "title": "Pollution Increases Summer Precipitation",
            "description": "In summer, weaker winds move the clouds more slowly.  Heat absorbed by the city and pollution's interference with raindrop formation interact to cause the clouds to intensify before producing precipitation.  The onset of rainfall from a cloud leads eventually to its demise by cooling off the air near the ground.  the air pollution delays the onset of precipitation, so that the intense storm clouds can build higher and larger before they start precipitating and subsequently dissipating.  Therefore, these larger and more intense thunderstorm clouds produce eventually heavier rainfall on the city and the downwind areas.  First is the unpolluted, then the polluted case. || ",
            "hits": 90
        },
        {
            "id": 2118,
            "url": "https://svs.gsfc.nasa.gov/2118/",
            "result_type": "Visualization",
            "release_date": "2001-04-19T12:00:00-04:00",
            "title": "Looking at Minnesota in Winter",
            "description": "Minnesota isn't always covered in snow during winter. This is a dissolve between images of Minnesota in 2000 and 2001. || ",
            "hits": 8
        },
        {
            "id": 2119,
            "url": "https://svs.gsfc.nasa.gov/2119/",
            "result_type": "Visualization",
            "release_date": "2001-04-19T12:00:00-04:00",
            "title": "Minnesota Winter Comparison 2000-2001",
            "description": "Minnesota isn't always covered by snow in winter. Zooming down to St. Paul and dissolving between data sets collected during March 2000 and March 2001. || ",
            "hits": 8
        }
    ]
}