{ "id": 10932, "url": "https://svs.gsfc.nasa.gov/10932/", "page_type": "Produced Video", "title": "Trapped In The Troposphere", "description": "The air above the icy and remote Arctic experiences larger carbon dioxide fluctuations than anywhere on the planet. Driven by the disparate forces of plants and winds, the seasonal rise and fall of this greenhouse gas cycles in tune with the vegetation scattered across the vast landmasses of the Northern Hemisphere. Levels first start to rise in winter after forests and fields go dormant and plants stop photosynthesizing carbon dioxide from the air. But then they spike in early spring as warmer weather arrives and dead vegetation decays, releasing bursts of stored carbon that's confined to the pole by the polar jet stream's fast-moving winds. The visualization uses data from the Atmospheric Infrared Sounder on NASA's Aqua satellite to show the changing carbon dioxide levels above the Arctic from February 2010 to February 2011. || ", "release_date": "2012-03-20T00:00:00-04:00", "update_date": "2023-05-03T13:53:11.171686-04:00", "main_image": { "id": 478227, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010900/a010932/cov_CO2_alt_1024x576.jpg", "filename": "cov_CO2_alt_1024x576.jpg", "media_type": "Image", "alt_text": "Powerful winds hold carbon dioxide hostage in the Arctic.", "width": 1024, "height": 576, "pixels": 589824 }, "main_video": null, "main_credits": { "Visualizations by": [ { "name": "Lori Perkins", "employer": "NASA/GSFC" } ], "Scientific consulting by": [ { "name": "Edward Olsen", "employer": "NASA/JPL CalTech" }, { "name": "Hai Nguyen", "employer": "California Institute of Technology" } ], "Written by": [ { "name": "Christina Coleman", "employer": "Telophase" } ] }, "progress": "Complete", "media_groups": [ { "id": 349688, "url": "https://svs.gsfc.nasa.gov/10932/#media_group_349688", "widget": "Basic text with HTML", "title": "", "caption": "", "description": "The air above the icy and remote Arctic experiences larger carbon dioxide fluctuations than anywhere on the planet. Driven by the disparate forces of plants and winds, the seasonal rise and fall of this greenhouse gas cycles in tune with the vegetation scattered across the vast landmasses of the Northern Hemisphere. Levels first start to rise in winter after forests and fields go dormant and plants stop photosynthesizing carbon dioxide from the air. But then they spike in early spring as warmer weather arrives and dead vegetation decays, releasing bursts of stored carbon that's confined to the pole by the polar jet stream's fast-moving winds. 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"caption": "", "description": "As plants photosynthesize in summer, carbon dioxide levels fall sharply from the spring peak.", "items": [ { "id": 322486, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 478244, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010900/a010932/2_Arctic_CO2_1024x576_0895.jpg", "filename": "2_Arctic_CO2_1024x576_0895.jpg", "media_type": "Image", "alt_text": "As plants photosynthesize in summer, carbon dioxide levels fall sharply from the spring peak.", "width": 1024, "height": 576, "pixels": 589824 } }, { "id": 322489, "type": "media", "extra_data": null, "title": null, "caption": null, "instance": { "id": 478246, "url": "https://svs.gsfc.nasa.gov/vis/a010000/a010900/a010932/2_Arctic_CO2_1280x72030fps_0895.jpg", "filename": "2_Arctic_CO2_1280x72030fps_0895.jpg", "media_type": "Image", "alt_text": "As plants photosynthesize in summer, carbon dioxide levels fall sharply from the spring peak.", "width": 1280, "height": 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of NASA's Earth Observing System Afternoon Constellation of satellites known as the 'A-Train. The most important trace gas retrieved by AIRS for the study of anthropogenic effects on climate is carbon dioxide. AIRS CO2 retrievals use an analytical method for the determination of carbon dioxide and other minor gases in the troposphere from AIRS spectra. AIRS has provided the first satellite retrieval of mid-tropospheric CO2 under cloudy conditions, without the use of a priori information from models. AIRS retrievals use cloud-cleared thermal IR radiance spectra in the 15 micron band with an accuracy better than 2 ppm, making it ideal for mapping the distribution and transport of carbon dioxide levels in the free troposphere. || ", "release_date": "2011-04-01T12:00:00-04:00", "update_date": "2025-02-02T22:02:19.186789-05:00", "main_image": { "id": 487690, "url": "https://svs.gsfc.nasa.gov/vis/a000000/a003800/a003812/compositeFSKairs1080p0473.jpg", "filename": "compositeFSKairs1080p0473.jpg", "media_type": "Image", "alt_text": "Arctic CO2 in the mid-troposphere (8-12 km altitude) over the period February 2010 through February 2011. The AIRS data have been combined over a 9-day window and then assimilated by a Fixed Rank Kriging (FRK) process that smoothes the data based upon spatial covariances that are neither stationary nor isotropic. The FRK methodology was developed by a group in the Program in Spatial Statistics and Environmental Sciences at The Ohio State University. For More information on this methodology, click here.", "width": 1920, "height": 1080, "pixels": 2073600 } } ], "sources": [], "products": [], "newer_versions": [], "older_versions": [], "alternate_versions": [] }