{"collections":[{"abstract":"<span class=\"intro\">Distributed here are control network data</span> for solar system bodies (planets, moons, and asteroids) other than the Earth. Each control network is essentially a set of photogrammetric or radargrammetric solution (input","geoform":["Collection"],"name":"control-networks","onlink":"https://astrogeology.usgs.gov/search/map/control-networks","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/c14e7072-decf-4997-925f-c7f305d2dd44/resource/f41d1d4e-daa4-484b-b6e2-439a93c3af58/download/control-networks-thumb.jpeg","title":"Control Networks"},{"abstract":"<span class=\"intro\">Download, print, and make your own planetary globes!</span> The number, size, and placement of text annotations were chosen to provide a general orientation of prominent features on a 12-inch globe. Features","geoform":["Collection"],"name":"planetary-globes","onlink":"https://astrogeology.usgs.gov/search/map/planetary-globes","pubdate":"2023-10-04","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a3780310-85a8-44a6-abf6-f0fd547c8999/resource/8d8ff004-0d4d-4de6-b491-93023d3f23ba/download/mars-globe-thumb.png","title":"Planetary Globes"},{"abstract":"These Jupiter global mosaics utilized the best image quality and moderate resolution coverage supplied by Galileo SSI (Solid State Imaging instrument) and Voyager 1 and 2. The image processing was performed at","geoform":["Collection"],"name":"jupiter-voyager-and-galileo-global-mosaics","onlink":"https://astrogeology.usgs.gov/search/map/jupiter-voyager-and-galileo-global-mosaics","pubdate":"2023-06-22","thumb":"https://astrogeology.usgs.gov/ckan/dataset/bdb6d8d9-d8e9-4776-8182-1d86914091dc/resource/ee69505e-dbb0-4821-9845-2b699c4fc130/download/jupiter_galileossi_global_thumb.jpg","title":"Jupiter Voyager and Galileo Global Mosaics"},{"abstract":"This page introduces the Kaguya Multiband Imager derived spectral and derived mineral maps by the Japan Aerospace Exploration Agency (JAXA) and the University of Hawaii. The mosaics were created from topographically-corrected MI","geoform":["Collection"],"name":"lunar-kaguya-multiband-imager-mosaics","onlink":"https://astrogeology.usgs.gov/search/map/lunar-kaguya-multiband-imager-mosaics","pubdate":"2015-01-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a53c9dbf-e03a-4d7a-8641-fc7af97a75c2/resource/a7e1a610-f8ef-4080-99e0-1b637d6c269f/download/moon-selene-kaguya-mi-thumb.jpg","title":"Lunar Kaguya Multiband Imager Mosaics"},{"abstract":"<span class=\"intro\">The following products were the first step of cartography planning</span> in support of the Cassini-Huygens mission to the Saturian System. Five of Saturans moons are linked below in a standard cartographic","geoform":["Collection"],"name":"saturn-voyager-airbrush-global-products","onlink":"https://astrogeology.usgs.gov/search/map/saturn-voyager-airbrush-global-products","pubdate":"2023-10-05","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0872355e-41d2-48be-a3f3-474c571911e0/resource/fe0f7b0d-3a95-40f3-ad90-103ee20b2342/download/rhea-voyager-thumb.png","title":"Saturn Voyager Airbrush Global Products"},{"abstract":"<span class=\"intro\">This gallery features several digitized photographs</span> from Apollo Mission explorations of the lunar surface. Anaglyph or 3D images require red-blue or red-green 3D glasses. The imagery and maps were prepared as","geoform":["Collection"],"name":"moon-apollo-anaglyph-3d-images","onlink":"https://astrogeology.usgs.gov/search/map/moon-apollo-anaglyph-3d-images","pubdate":"2023-10-20","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8cd5663b-8ad1-44d4-9ef9-bac956de07a4/resource/2adf2528-8613-4545-a184-c8b31e08669f/download/apollo_stereo-thumb.jpg","title":"Moon Apollo Anaglyph 3D Images"},{"abstract":"<span class=\"intro\">This page features several maps showing routes</span> the astronauts took during extravehicular activities (EVAs). The imagery and maps were prepared as part of a project by a USGS team under funding","geoform":["Collection"],"name":"moon-apollo-traverse-maps","onlink":"https://astrogeology.usgs.gov/search/map/moon-apollo-traverse-maps","pubdate":"2023-10-16","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b499160d-149f-4a79-8aee-e4a09d50fb80/resource/af3a32f8-eb16-48cc-8fd4-0b0881d440d5/download/apollo14_traverse-thumb.jpg","title":"Moon Apollo Traverse Maps"},{"abstract":"<span class=\"intro\">The USGS Astrogeology Science Center created some of the finest cartographic products</span> of Mars using data from Viking Oribter. Some of these products include global mosaics, north and south polar stereographic","geoform":["Collection"],"name":"mars-viking-global-products","onlink":"https://astrogeology.usgs.gov/search/map/mars-viking-global-products","pubdate":"2023-10-16","thumb":"https://astrogeology.usgs.gov/ckan/dataset/817ca072-b931-49d2-9056-c07e62c4038f/resource/9c90727e-5452-465d-9bb3-9d5a260b4607/download/mars-viking-thumb.jpg","title":"Mars Viking Global Products"}],"facets":{"geoform":{"facet":{"Archive":1,"Collection":3,"Control Network":1,"Data":1,"Digital Elevation Model":1,"Geologic Map":5,"Global Mosaic":10,"Globe":1,"Image":2,"Nomenclature":2,"Raster Data":5,"Regional Mosaic":1,"Remote-sensing Data":6,"Shaded-Relief Map":5,"Tabular Data":1,"Topographic Map":1,"Vector Data":4},"label":"Geo Format"},"mapprojn":{"facet":{"":1,"Equirectangular":1,"Mercator":2,"Simple Cylindrical":6},"label":"Map Projection"},"missikey":{"facet":{"Galileo":11,"Voyager":15},"label":"Mission"}},"page":null,"results":[{"abstract":"","geoform":["Global Mosaic"],"name":"io_preliminary_pictorial_map","onlink":"https://astrogeology.usgs.gov/search/map/io_preliminary_pictorial_map","pubdate":"1979-12-31","thumb":"https://astrogeology.usgs.gov/ckan/dataset/42b4c4be-2005-49f3-b2c1-78098548e855/resource/f021c4b3-9f3b-4676-ba37-338ef47959dd/download/thumb.png","title":"Io Preliminary Pictorial Map"},{"abstract":"Planetary nomenclature, like terrestrial nomenclature, is used to uniquely identify a feature on the surface of a planet or satellite so that the feature can be easily located, described, and discussed (Hargitai","geoform":["Nomenclature"],"name":"io_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/io_nomenclature","pubdate":"2012-08-03","thumb":"https://astrogeology.usgs.gov/ckan/dataset/90ceedb5-d5f6-456e-b016-a92e8cb20e86/resource/91f307ca-669a-4d79-ab32-cbe1a313f6db/download/thumb.png","title":"Io Nomenclature"},{"abstract":"<span class=\"intro\">Download, print, and make your own planetary globes!</span> The number, size, and placement of text annotations were chosen to provide a general orientation of prominent features on a 12-inch globe. Features","geoform":["Collection"],"name":"planetary-globes","onlink":"https://astrogeology.usgs.gov/search/map/planetary-globes","pubdate":"2023-10-04","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a3780310-85a8-44a6-abf6-f0fd547c8999/resource/8d8ff004-0d4d-4de6-b491-93023d3f23ba/download/mars-globe-thumb.png","title":"Planetary Globes"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"io_geologic_map_of_the_ruwa_patera_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/io_geologic_map_of_the_ruwa_patera_quadrangle","pubdate":"1989-11-13","thumb":"https://astrogeology.usgs.gov/ckan/dataset/448ddbc0-57f4-4fec-8a67-c7e46ac1076f/resource/57a5323d-c916-4d64-8e2a-fb4c8ba5a2b2/download/thumb.png","title":"Io Geologic Map of the Ruwa Patera Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"io_geologic_map_of_the_lerna_region","onlink":"https://astrogeology.usgs.gov/search/map/io_geologic_map_of_the_lerna_region","pubdate":"2021-12-30","thumb":"https://astrogeology.usgs.gov/ckan/dataset/6c4edc37-cc44-4a9b-abfd-5605d30388ae/resource/fe9839be-62fa-4c2b-8923-73622d0f2999/download/thumb.png","title":"Io Geologic Map of the Lerna Region"},{"abstract":"A global monochrome mosaic of the best resolution images from both Galileo and Voyager 1 was created that includes 51 Voyager 1 images with spatial resolutions sometimes exceeding the 1 km/pixel scale","geoform":["Global Mosaic","Globe"],"name":"io_voyager_galileo_image_mosaic_globe","onlink":"https://astrogeology.usgs.gov/search/map/io_voyager_galileo_image_mosaic_globe","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/11dcdc82-4269-4ba9-82fa-61969f4fe9d9/resource/07edb545-3d72-427a-a627-e1eb7c2985d9/download/thumb.png","title":"Io Voyager / Galileo Image Mosaic Globe"},{"abstract":"","geoform":["Global Mosaic"],"name":"io_high_resolution_controlled_photomosaics","onlink":"https://astrogeology.usgs.gov/search/map/io_high_resolution_controlled_photomosaics","pubdate":"1983-12-31","thumb":"https://astrogeology.usgs.gov/ckan/dataset/9a5a0ddf-cf62-4b6d-9f16-c6e837c1a01c/resource/5db796b2-6e40-40dc-a820-1f84e36c7847/download/thumb.png","title":"Io High Resolution Controlled Photomosaics"},{"abstract":"<span class=\"intro\">Distributed here are control network data</span> for solar system bodies (planets, moons, and asteroids) other than the Earth. Each control network is essentially a set of photogrammetric or radargrammetric solution (input","geoform":["Collection"],"name":"control-networks","onlink":"https://astrogeology.usgs.gov/search/map/control-networks","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/c14e7072-decf-4997-925f-c7f305d2dd44/resource/f41d1d4e-daa4-484b-b6e2-439a93c3af58/download/control-networks-thumb.jpeg","title":"Control Networks"},{"abstract":"<P>This archive has been created as part of a project to put planetary control networks on the web. These control networks originated from the RAND corporation (Merton Davies and Tim Colvin) and","geoform":["Control Network"],"name":"io_voyager_image_control_network","onlink":"https://astrogeology.usgs.gov/search/map/io_voyager_image_control_network","pubdate":"2025-04-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/cdd61d89-27e9-424a-9ed5-cc3bb74c842a/resource/409a995e-863f-4f16-b86c-bb195967074a/download/io_controlled-100.jpg","title":"Io Voyager Image Control Network"},{"abstract":"Io is one of the most geologically active planetary objects observed so far in the exploration of the Solar System. It is dominated by volcanism, and it shows only minor surface modification","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"io_geologic_map_of_the_ra_patera_area","onlink":"https://astrogeology.usgs.gov/search/map/io_geologic_map_of_the_ra_patera_area","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/06ad74cb-eb79-4651-834a-8a083841c4b4/resource/9c52ea31-b1e9-48be-ae74-fa8fd59b20a6/download/thumb.png","title":"Io Geologic Map of the Ra Patera Area"},{"abstract":"Io, the innermost Galilean satellite of Jupiter, is about the same size as Earth\u00e2\u0080\u0099s Moon, but its surface properties and geologic processes are significantly different. Impact craters and basins, which dominate the","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"io_geologic_map_of_the_maasaw_patera_area","onlink":"https://astrogeology.usgs.gov/search/map/io_geologic_map_of_the_maasaw_patera_area","pubdate":"2021-11-13","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f450d0c4-b1ec-45af-9684-df5deda64d64/resource/aa2d2582-9b06-415b-9b23-20cc01152be8/download/thumb.png","title":"Io Geologic Map of the Maasaw Patera Area"},{"abstract":"This basemap of Jupiter\u00e2\u0080\u0099s moon Io was produced by combining the best images from both the Voyager 1 and Galileo Missions. Although the subjovian hemisphere of Io was poorly seen by Galileo,","geoform":["Global Mosaic"],"name":"io_voyager_galileo_global_mosaic_rotation_animation","onlink":"https://astrogeology.usgs.gov/search/map/io_voyager_galileo_global_mosaic_rotation_animation","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/5f72107a-5a9c-4844-aa50-2194cae94eeb/resource/1aaa41e2-e2e9-4835-b052-1d0c5c3ef863/download/thumb.png","title":"Io Voyager - Galileo Global Mosaic Rotation Animation"},{"abstract":"","geoform":["Global Mosaic","Shaded-Relief Map"],"name":"io_shaded_relief_and_surface_markings_map_shaded_relief_map_and_controlled_photomosaic","onlink":"https://astrogeology.usgs.gov/search/map/io_shaded_relief_and_surface_markings_map_shaded_relief_map_and_controlled_photomosaic","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/1d9c5505-af53-4f9c-a4fb-eca8ed7c200b/resource/0dbe6d2f-a39b-4179-8a34-e92cc8910135/download/thumb.png","title":"Io Shaded Relief and Surface Markings Map, Shaded Relief Map, and Controlled Photomosaic"},{"abstract":"","geoform":["Shaded-Relief Map"],"name":"io_shaded_relief_and_surface_markings_of_the_colchis_region","onlink":"https://astrogeology.usgs.gov/search/map/io_shaded_relief_and_surface_markings_of_the_colchis_region","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/e0a128d7-0e44-4f93-ae4f-0120451d1077/resource/da4a9ec3-53d3-4cc3-ace1-cb7d228c16c7/download/thumb.png","title":"Io Shaded Relief and Surface Markings of the Colchis Region"},{"abstract":"These Jupiter global mosaics utilized the best image quality and moderate resolution coverage supplied by Galileo SSI (Solid State Imaging instrument) and Voyager 1 and 2. The image processing was performed at","geoform":["Collection"],"name":"jupiter-voyager-and-galileo-global-mosaics","onlink":"https://astrogeology.usgs.gov/search/map/jupiter-voyager-and-galileo-global-mosaics","pubdate":"2023-06-22","thumb":"https://astrogeology.usgs.gov/ckan/dataset/bdb6d8d9-d8e9-4776-8182-1d86914091dc/resource/ee69505e-dbb0-4821-9845-2b699c4fc130/download/jupiter_galileossi_global_thumb.jpg","title":"Jupiter Voyager and Galileo Global Mosaics"},{"abstract":"CARTOGRAPHIC CONTROL Mercator and polar stereographic projections used for the maps of Io are based on a sphere with a radius of 1816 km and a common scale of 1: 4,268,000 at","geoform":["Shaded-Relief Map"],"name":"io_shaded_relief_and_surface_markings_of_the_ruwa_patera_region","onlink":"https://astrogeology.usgs.gov/search/map/io_shaded_relief_and_surface_markings_of_the_ruwa_patera_region","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/c369bdbe-0b26-426e-9a56-a7d782dfa3eb/resource/ac44b533-4101-4f9b-85ed-c43582f92988/download/thumb.png","title":"Io Shaded Relief and Surface Markings of the Ruwa Patera Region"},{"abstract":"","geoform":["Shaded-Relief Map"],"name":"io_shaded_relief_and_surface_markings_of_the_lerna_region","onlink":"https://astrogeology.usgs.gov/search/map/io_shaded_relief_and_surface_markings_of_the_lerna_region","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/04aecc5a-c7d1-4a91-ad4b-f83d6c8b8e3a/resource/eae23449-f78d-47b9-bd14-c4245c8b5d06/download/thumb.png","title":"Io Shaded Relief and Surface Markings of the Lerna Region"},{"abstract":"<b>Product Information:</b> This uncontrolled Digital Elevation Model (DEM) was created to investigate the terrain of the Tvashtar Paterae volcanic region on Io, using stereo imagery from the Galileo spacecraft's Solid-State Imaging (SSI)","geoform":["Digital Elevation Model","Image","Regional Mosaic","Shaded-Relief Map","Topographic Map"],"name":"io_galileo_ssi_tvashtar_paterae_dem_and_orthoimages_900m","onlink":"https://astrogeology.usgs.gov/search/map/io_galileo_ssi_tvashtar_paterae_dem_and_orthoimages_900m","pubdate":"2017-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0fb0dbb3-0c27-4088-9c4f-12396b7ed3c1/resource/59f20c50-8abe-4ecd-872d-dc8a93f432cd/download/tvashtarpaterae_clrshade_900m_50.jpg","title":"Io Galileo SSI Tvashtar Paterae DEM and Orthoimages 900m"},{"abstract":"Given the renewed interest in the outer solar system by NASA, including efforts toward developing viable Europa orbital and lander missions and line items in the decadal survey calling for an Io","geoform":["Archive","Data","Image","Raster Data","Remote-sensing Data"],"name":"galileo-nims-tubes-and-g-cubes-pds4-archive","onlink":"https://pdsimage2.wr.usgs.gov/Individual_Investigations/multi_galileo_nims_tube.gcube_cahill_2019/","pubdate":"2019-05-31","thumb":"https://astrogeology.usgs.gov/ckan/dataset/24265074-f8fb-4f6f-b678-c681e96c379e/resource/4bef3c08-ef62-4ca2-a0b9-d17828276f79/download/cahill_gmins_image100.jpg","title":"Galileo NIMS Tubes and G-Cubes PDS4 Archive"},{"abstract":"Io, discovered by Galileo Galilei on January 7-13, 1610, is the innermost of the four Galilean satellites of the planet Jupiter. It is the most volcanically active object in the Solar System,","geoform":["Geologic Map","Nomenclature"],"name":"geologic_map_of_io_sim_3168","onlink":"https://astrogeology.usgs.gov/search/map/geologic_map_of_io_sim_3168","pubdate":"2012-03-13","thumb":"https://astrogeology.usgs.gov/ckan/dataset/eaf47c91-e3b5-4dca-8bd9-a6e3472d6b8e/resource/b4e927fb-379c-4a13-a81c-775d50789344/download/io_global_geology_100.jpg","title":"Geologic Map of Io, SIM 3168"},{"abstract":"The Io occultation lightcurve dataset consists of observations of Io while it is in eclipse and being occulted by Jupiter. The observations are obtained in the L' prime (3.5 micron) band at","geoform":["Tabular Data"],"name":"io_occultation_lightcurve_dataset_2018","onlink":"https://astrogeology.usgs.gov/search/map/io_occultation_lightcurve_dataset_2018","pubdate":"2021-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/66ff6bf3-137e-4e34-8aeb-e93167c2c6f6/resource/f7dd0829-67bb-4445-a66c-834670b0aec9/download/io_mko_irtf3m0_volcanoes_rathbun_2018_100.jpg","title":"Io Occultation Lightcurve Dataset 2018"},{"abstract":"<b>Product Information:</b> This new basemap of Jupiter\u00e2\u0080\u0099s moon Io was produced by combining the best images from both the Voyager 1 and Galileo Missions. Although the subjovian hemisphere of Io was poorly","geoform":["Global Mosaic","Remote-sensing Data"],"name":"io_voyager_galileo_ssi_false_color_global_mosaic_1km","onlink":"https://astrogeology.usgs.gov/search/map/io_voyager_galileo_ssi_false_color_global_mosaic_1km","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/3072a685-011c-40c3-9a7b-fdd121e80308/resource/4df6ff73-dd0e-4c23-bd60-dbe0a4e4129f/download/thumb.png","title":"Io Voyager - Galileo SSI False Color Global Mosaic 1km"},{"abstract":"<b>Product Information:</b> Although the subjovian hemisphere of Io was poorly seen by Galileo, superbly detailed Voyager 1 images cover longitudes from 240\u00cb\u009aW to 40\u00cb\u009aW and the nearby southern latitudes. A global mosaic","geoform":["Global Mosaic","Remote-sensing Data"],"name":"io_voyager_galileo_ssi_global_mosaic_1km","onlink":"https://astrogeology.usgs.gov/search/map/io_voyager_galileo_ssi_global_mosaic_1km","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/b9102ce8-3ee4-4848-8558-3dab5f52091a/resource/5a451bff-04e5-4de2-9807-70f51485abfb/download/thumb.png","title":"Io Voyager - Galileo SSI Global Mosaic 1km"},{"abstract":"<b>Product Information:</b> This global false color mosaic was constructed from low phase angle violet, green, and near-infrared (756 nanometer) images from orbits G2, E6, C9, and C21 of the Galileo spacecraft and","geoform":["Global Mosaic","Remote-sensing Data"],"name":"io_galileo_ssi_global_color_merge_mosaic_1km","onlink":"https://astrogeology.usgs.gov/search/map/io_galileo_ssi_global_color_merge_mosaic_1km","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/0fc15885-24ee-4d9d-9666-11de0667c10c/resource/f191a661-ce7e-48d1-b482-79905d482675/download/thumb.png","title":"Io Galileo SSI Global Color Merge Mosaic 1km"},{"abstract":"<b>Product Information:</b> The best quality global monitoring images taken by the Galileo spacecraft's Solid-State Imaging (SSI) camera at spatial resolutions up to 1 kilometer per pixel (km) have been assembled here to","geoform":["Global Mosaic","Remote-sensing Data"],"name":"io_galileo_ssi_grayscale_global_mosaic_1km","onlink":"https://astrogeology.usgs.gov/search/map/io_galileo_ssi_grayscale_global_mosaic_1km","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/72b1ba18-1256-43c1-a5c4-e42b0da4b4c3/resource/1aecbbcf-5bc3-4af9-bab1-63dc19a6a8cc/download/thumb.png","title":"Io Galileo SSI Grayscale Global Mosaic 1km"},{"abstract":"To present more information-rich views of Io, the global color derived from the Galileo color images was superimposed on the more detailed, higher resolution monochrome mosaics. The procedure adopted was to calculate","geoform":["Global Mosaic","Remote-sensing Data"],"name":"io_galileo_ssi_voyager_color_merged_global_mosaic_1km","onlink":"https://astrogeology.usgs.gov/search/map/io_galileo_ssi_voyager_color_merged_global_mosaic_1km","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/f6924861-ce9c-490d-8a4b-7812a20f2de5/resource/b2432b15-096c-46c0-a421-17cac4e330b8/download/thumb.png","title":"Io Galileo SSI / Voyager Color Merged Global Mosaic 1km"}],"title":"Io","total":26}