{"collections":[{"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\">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\">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\">In May and June of 1994, the NASA/DoD Clementine Mission acquired</span> global, 11-band, multispectral data of the lunar surface using the ultraviolet-visible (UVVIS) and near-infrared (NIR) camera systems (e.g., Nozette et","geoform":["Collection"],"name":"moon-clementine-nir-global-map","onlink":"https://astrogeology.usgs.gov/search/map/moon-clementine-nir-global-map","pubdate":"2023-10-06","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d6325dc3-6dd3-466e-b3fe-338723e8ea8a/resource/e88bd63b-d122-48a7-a87d-94805c6847ea/download/moon-clementine-nir-thumb.jpg","title":"Moon Clementine NIR Global Map"},{"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":"This near-global lunar mosaic (474 m/pixel, 64 pixel/degree) was generated using data from the SELenological and Engineering Explorer (SELENE) \u201cKaguya\u201d Terrain Camera (TC) instrument. TC source data originated as map-projected tiles at","geoform":["Collection"],"name":"moon-kaguya-tc-global-mosaic","onlink":"https://astrogeology.usgs.gov/search/map/moon-kaguya-tc-global-mosaic","pubdate":"2023-06-29","thumb":"https://astrogeology.usgs.gov/ckan/dataset/6363d489-8e0f-424a-94be-e990e374280e/resource/db1aa510-7681-4867-bec4-13082cb066b2/download/moon-kaguay-tc-thumb.png","title":"Moon Kaguya TC Global Mosaic"},{"abstract":"The following 360\u00b0 panoramas were created using digitized photographs collected by the astronauts during the Apollo 11 - 17 lunar exploration missions. The imagery and maps were prepared as part of a","geoform":["Collection"],"name":"moon-apollo-landing-panoramas","onlink":"https://astrogeology.usgs.gov/search/map/moon-apollo-landing-panoramas","pubdate":"2023-06-22","thumb":"https://astrogeology.usgs.gov/ckan/dataset/77ce00c9-30b3-42ec-89a4-ce38d5140eba/resource/cd766698-d203-430f-a573-dcfb28ba9e3d/download/apollo11-thumb.jpg","title":"Moon Apollo Landing Panoramas"}],"facets":{"geoform":{"facet":{"3D":4,"Anaglyph":4,"Archive":3,"Collection":8,"Color":1,"Control Network":3,"Database":1,"Digital Elevation Model":15,"Document":9,"Geologic Map":77,"Global Mosaic":16,"Globe":1,"Grey Scale":10,"Grids":2,"Image":8,"Landing Site Map":1,"Merge":1,"Mineral Map":14,"Model":2,"Nomenclature":144,"Panorama":38,"Polar Map":1,"Presentation":2,"Raster Data":100,"Remote-sensing Data":31,"Shaded-Relief Map":10,"Tabular Data":1,"Topographic Map":10,"Traverse Map":6,"Vector Data":80},"label":"Geo Format"},"mapprojn":{"facet":{"":6,"Equirectangular":5,"Lambert Conformal":106,"Mercator":38,"Polar Stereographic":11,"Simple Cylindrical":32,"Stereographic":1,"Transverse Mercator":2},"label":"Map Projection"},"missikey":{"facet":{"Apollo":55,"Artemis":2,"Chandrayaan":1,"Clementine":11,"Galileo":1,"Kaguya":21,"Lunar Orbiter":4,"Lunar Reconnaissance Orbiter":168},"label":"Mission"}},"page":null,"results":[{"abstract":"","geoform":["Polar Map","Shaded-Relief Map"],"name":"moon_shaded_relief_map_of_the_lunar_polar_regions","onlink":"https://astrogeology.usgs.gov/search/map/moon_shaded_relief_map_of_the_lunar_polar_regions","pubdate":"1981-11-20","thumb":"https://astrogeology.usgs.gov/ckan/dataset/913321b4-1673-4ddd-ad65-6af80bce4ef1/resource/ae092d41-48c6-4413-b4eb-82395f18805f/download/thumb.png","title":"Moon Shaded Relief Map of the Lunar Polar Regions"},{"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":"","geoform":["Document"],"name":"moon_lunar_orbiter_guide_to_photographs","onlink":"https://astrogeology.usgs.gov/search/map/moon_lunar_orbiter_guide_to_photographs","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/78cc79b5-53ef-43b1-bc0c-78d5e1810009/resource/69c23c50-e074-40ea-914b-9e42031855be/download/thumb.png","title":"Moon Lunar Orbiter Guide to Photographs"},{"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":"This near-global lunar mosaic (474 m/pixel, 64 pixel/degree) was generated using data from the SELenological and Engineering Explorer (SELENE) \u201cKaguya\u201d Terrain Camera (TC) instrument. TC source data originated as map-projected tiles at","geoform":["Collection"],"name":"moon-kaguya-tc-global-mosaic","onlink":"https://astrogeology.usgs.gov/search/map/moon-kaguya-tc-global-mosaic","pubdate":"2023-06-29","thumb":"https://astrogeology.usgs.gov/ckan/dataset/6363d489-8e0f-424a-94be-e990e374280e/resource/db1aa510-7681-4867-bec4-13082cb066b2/download/moon-kaguay-tc-thumb.png","title":"Moon Kaguya TC Global Mosaic"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_sinus_iridum_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_sinus_iridum_quadrangle","pubdate":"2021-09-07","thumb":"https://astrogeology.usgs.gov/ckan/dataset/daf358b4-afe8-4588-b1d7-8c98f1391fd7/resource/f43a443c-ac9e-4677-b0b6-8066106fc85e/download/thumb.png","title":"Moon Geologic Map of the Sinus Iridum Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_theophilus_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_theophilus_quadrangle","pubdate":"2021-09-06","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8b5235ca-d905-4404-a540-365ba88eaba2/resource/778cac98-416c-46bd-b599-f7b78a2ee460/download/thumb.png","title":"Moon Geologic Map of the Theophilus Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_grimaldi_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_grimaldi_quadrangle","pubdate":"1973-10-12","thumb":"https://astrogeology.usgs.gov/ckan/dataset/041d435d-eb8e-4ff8-8463-e61e3cd84cd3/resource/c3cf1965-9702-43a7-aa3f-90c2c771951a/download/thumb.png","title":"Moon Geologic Map of the Grimaldi Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_hommel_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_hommel_quadrangle","pubdate":"1972-10-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c6a3c6d6-6f87-431e-a8e3-60497771710c/resource/f3cba474-df25-4916-a430-dc7e7fb1c381/download/thumb.png","title":"Moon Geologic Map of the Hommel Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_schickard_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_schickard_quadrangle","pubdate":"1974-10-13","thumb":"https://astrogeology.usgs.gov/ckan/dataset/cfe2f075-5a11-43db-b63c-acdbf92997eb/resource/403f2895-61dd-4205-8efa-5e90056b394c/download/thumb.png","title":"Moon Geologic Map of the Schickard Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_taruntius_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_taruntius_quadrangle","pubdate":"1972-10-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c3fd9f8f-534b-48bf-84b6-53c3e57039bf/resource/2a10c7d8-dcbf-4740-bfd3-eaee686505e6/download/thumb.png","title":"Moon Geologic Map of the Taruntius Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_schiller_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_schiller_quadrangle","pubdate":"1971-10-10","thumb":"https://astrogeology.usgs.gov/ckan/dataset/70390020-03b3-4c38-94e5-146751bb1df1/resource/1ff343da-7d07-4a84-9e91-82d72a6ac558/download/thumb.png","title":"Moon Geologic Map of the Schiller Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_tycho_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_tycho_quadrangle","pubdate":"1972-10-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0804fd62-72a0-4721-a50e-1bddd81eac03/resource/f946ec73-5c93-4a58-81b6-6b303f4aa605/download/thumb.png","title":"Moon Geologic Map of the Tycho Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_south_side","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_south_side","pubdate":"1979-10-18","thumb":"https://astrogeology.usgs.gov/ckan/dataset/29f90983-c9d9-4811-a8ff-dc721437256c/resource/9c9c86b7-a1c7-439b-919f-ddbba9241916/download/thumb.png","title":"Moon Geologic Map of the South Side"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_west_side","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_west_side","pubdate":"1977-10-16","thumb":"https://astrogeology.usgs.gov/ckan/dataset/833253fd-17f5-43e9-a0ce-0b0419e75de6/resource/fb2cea22-842e-47ae-81b6-bd0ba31dde3c/download/thumb.png","title":"Moon Geologic Map of the West Side"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_wilhelm_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_wilhelm_quadrangle","pubdate":"1974-10-13","thumb":"https://astrogeology.usgs.gov/ckan/dataset/094c331f-662f-4565-8ed6-78896c376b4f/resource/e2dd5995-2ad9-4b31-9117-8cd0cb83b0f1/download/thumb.png","title":"Moon Geologic Map of the Wilhelm Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_maps_of_the_taurus_littrow_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_maps_of_the_taurus_littrow_region","pubdate":"1972-10-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/56a68bef-3134-4807-bd71-5e3feef96eab/resource/e0cbc427-0655-4e2c-a24d-ce766a023308/download/thumb.png","title":"Moon Geologic Maps of the Taurus-Littrow Region"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_j_herschel_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_j_herschel_quadrangle","pubdate":"1969-09-07","thumb":"https://astrogeology.usgs.gov/ckan/dataset/23400c49-6b8b-42b3-a15b-b792b530e7df/resource/63182fa1-6cfa-4eff-81bb-cf925207f548/download/thumb.png","title":"Moon Geologic Map of the J. Herschel Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_mare_humorum_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_mare_humorum_region","pubdate":"1967-09-05","thumb":"https://astrogeology.usgs.gov/ckan/dataset/bd706e6e-7243-40aa-ac91-3b0185981f35/resource/5350a997-3c72-40c1-b168-fda7eb0af16d/download/thumb.png","title":"Moon Geologic Map of the Mare Humorum Region"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_hevelius_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_hevelius_region","pubdate":"1967-09-05","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1d5af215-5db2-4f8e-be57-16b18079dd4e/resource/6ef54b8e-3436-4895-b8c9-592e8d7572b5/download/thumb.png","title":"Moon Geologic Map of the Hevelius Region"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector 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Data"],"name":"moon_geologic_map_of_the_mare_undarum_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_mare_undarum_quadrangle","pubdate":"1974-10-13","thumb":"https://astrogeology.usgs.gov/ckan/dataset/11bbe1dd-79af-4b62-9057-9f43c6b89fd3/resource/471ca0c4-0da3-474e-bfde-1c66a4af775b/download/thumb.png","title":"Moon Geologic Map of the Mare Undarum Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_maurolycus_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_maurolycus_quadrangle","pubdate":"1972-10-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/cc3ecbef-6dda-4d08-a1bb-d16078e50e82/resource/9fff1257-1df1-4c45-ab13-04350a5e2b24/download/thumb.png","title":"Moon Geologic Map of the Maurolycus Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector 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(NAC) that provide high-resolution images (0.5 to 2.0 m pixel","geoform":["Digital Elevation Model"],"name":"moon_lro_south_pole_dem_shaded_relief","onlink":"https://astrogeology.usgs.gov/search/map/moon_lro_south_pole_dem_shaded_relief","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/a69be953-3299-4173-b771-1f79ca1a07e1/resource/1211c338-6e57-4ad5-b9d8-d6026611b707/download/thumb.png","title":"Moon LRO South Pole DEM Shaded Relief"},{"abstract":"The Lunar Reconnaissance Orbiter Camera (LROC) consists of one Wide Angle Camera (WAC) for synoptic multispectral imaging and two Narrow Angle Cameras (NAC) that provide high-resolution images (0.5 to 2.0 m pixel","geoform":["Digital Elevation 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assemble this into a global digital Lunar Orbiter mosaic of","geoform":["Control Network"],"name":"unified_lunar_control_network_solution_output_files","onlink":"https://astrogeology.usgs.gov/search/map/unified_lunar_control_network_solution_output_files","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/20fd9c30-76db-4116-84cf-7bda7624f848/resource/837c60e5-7960-4ec8-a24d-baee1333949e/download/ulcn-thumb.jpg","title":"Unified Lunar Control Network solution output files"},{"abstract":"<span class=\"intro\">Distributed here are control network data</span> for solar system bodies (planets, moons, and asteroids) other than the Earth. 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The shaded relief data provide interpretations of lunar morphology based on lunar images","geoform":["Globe","Topographic Map"],"name":"moon_clementine_topographic_globe","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_topographic_globe","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/114b828d-b993-4614-ae9b-cea3f8513e9b/resource/dd2f2a3b-0fdc-4857-9422-d7b956ee4d8c/download/thumb.png","title":"Moon Clementine Topographic Globe"},{"abstract":"<span class=\"intro\">In May and June of 1994, the NASA/DoD Clementine Mission acquired</span> global, 11-band, multispectral data of the lunar surface using the ultraviolet-visible (UVVIS) and near-infrared (NIR) camera systems (e.g., Nozette et","geoform":["Collection"],"name":"moon-clementine-nir-global-map","onlink":"https://astrogeology.usgs.gov/search/map/moon-clementine-nir-global-map","pubdate":"2023-10-06","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d6325dc3-6dd3-466e-b3fe-338723e8ea8a/resource/e88bd63b-d122-48a7-a87d-94805c6847ea/download/moon-clementine-nir-thumb.jpg","title":"Moon Clementine NIR Global Map"},{"abstract":"The Clementine Lunar Control Network (CLCN) includes 543,245 measurements of 271,634 points on 43,871 Clementine 750-nm images-the largest planetary control network ever computed. It was completed at RAND by Merton Davies and","geoform":["Control Network"],"name":"clementine_lunar_control_network","onlink":"https://astrogeology.usgs.gov/search/map/clementine_lunar_control_network","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/f9989fbe-d5be-417c-9d78-7f446e6dc32c/resource/5b6b2629-d38d-4e22-bd11-f10dc7736701/download/lunar_clementine_control_network_thumb.jpg","title":"Clementine Lunar Control Network"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_clavius_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_clavius_quadrangle","pubdate":"1972-10-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/03c01cd6-a8de-4ec6-bf15-41b4847df4ac/resource/242a1379-c6e9-4c7b-bd59-97780554dde6/download/thumb.png","title":"Moon Geologic Map of the Clavius Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector 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References"},{"abstract":"","geoform":["Image"],"name":"pyroclastic_deposits_in_atlas_crater_data","onlink":"https://astrogeology.usgs.gov/search/map/pyroclastic_deposits_in_atlas_crater_data","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/a57983a5-0418-45fb-a3bc-69b7fa054e04/resource/d74bb89c-b471-465d-a677-de18aa62f985/download/thumb.png","title":"Pyroclastic deposits in Atlas crater  data"},{"abstract":"USGS is assessing the feasibility of map projections and grid systems for lunar surface operations. We propose developing a new Lunar Transverse Mercator (LTM), the Lunar Polar Stereographic (LPS), and the Lunar","geoform":["Grids"],"name":"lunar-grid-reference-system-artemis-iii-candidate-landing-site-navigational-grids","onlink":"https://astrogeology.usgs.gov/search/map/lunar-grid-reference-system-artemis-iii-candidate-landing-site-navigational-grids","pubdate":"2024-11-05","thumb":"https://astrogeology.usgs.gov/ckan/dataset/895dda47-db5d-43c6-b487-032d7bf4698c/resource/0d70cfd9-081e-4832-9d16-9537e725e14a/download/mcclernan_lunar-thumb2.jpg","title":"Lunar Grid Reference System Artemis III Candidate Landing Site Navigational Grids"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_aristoteles_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_aristoteles_quadrangle","pubdate":"1972-10-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c6a1ff38-190f-4352-90ad-a8d576c7d5ff/resource/7a697944-d043-4751-acde-91b232b76f20/download/thumb.png","title":"Moon Geologic Map of the Aristoteles Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_aristarchus_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_aristarchus_region","pubdate":"2021-09-03","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a83f3fd7-f126-42e8-ae1a-9279fc8f3ac2/resource/134ff925-6de0-4f06-abc4-6de29c576453/download/thumb.png","title":"Moon Geologic Map of the Aristarchus Region"},{"abstract":"","geoform":["Shaded-Relief Map"],"name":"moon_shaded_relief_map_of_the_mare_orientale_area","onlink":"https://astrogeology.usgs.gov/search/map/moon_shaded_relief_map_of_the_mare_orientale_area","pubdate":"1978-10-17","thumb":"https://astrogeology.usgs.gov/ckan/dataset/abf28599-57eb-4f5f-a910-72495b8cb6f1/resource/8a4cbac8-b324-4208-acd7-d83b940644d3/download/thumb.png","title":"Moon Shaded Relief Map of the Mare Orientale Area"},{"abstract":"Assorted Lunar Images and Data from 1965 to 1992 Presented here are safed versions of variety of data selected from a collection of data commonly referred to as the Lunar Consortium Data.","geoform":["Digital Elevation Model","Raster Data","Remote-sensing Data"],"name":"lunar_consortium_data_historical_archive","onlink":"https://astrogeology.usgs.gov/search/map/lunar_consortium_data_historical_archive","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/29df8aa7-4039-426d-ad4e-6f764cab92d5/resource/dde0fe4c-4f52-4629-8e5f-fd6537ae2c26/download/lunarconsortiumdata_historic_archive_thumb.jpg","title":"Lunar Consortium Data Historical Archive"},{"abstract":"The following 360\u00b0 panoramas were created using digitized photographs collected by the astronauts during the Apollo 11 - 17 lunar exploration missions. The imagery and maps were prepared as part of a","geoform":["Collection"],"name":"moon-apollo-landing-panoramas","onlink":"https://astrogeology.usgs.gov/search/map/moon-apollo-landing-panoramas","pubdate":"2023-06-22","thumb":"https://astrogeology.usgs.gov/ckan/dataset/77ce00c9-30b3-42ec-89a4-ce38d5140eba/resource/cd766698-d203-430f-a573-dcfb28ba9e3d/download/apollo11-thumb.jpg","title":"Moon Apollo Landing Panoramas"},{"abstract":"The Apollo Metric Mapping Cameras were carried on the Apollo 15, 16, and 17 missions to map Earth\u00e2\u0080\u0099s Moon with a high degree of geometric fidelity. This archive collection consists of 7247","geoform":["Grey Scale"],"name":"moon_apollo_metric_mapping_camera_data","onlink":"https://astrogeology.usgs.gov/search/map/moon_apollo_metric_mapping_camera_data","pubdate":"2012-09-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f6982164-5ba7-483f-81ac-de1d4ae6129c/resource/b6430f9f-889e-4839-96e3-ecbe567b6e8f/download/thumb.png","title":"Moon Apollo Metric Mapping Camera Data"},{"abstract":"<b>Product Information:</b> This set of archive volumes contains digital scanned versions of original film photographs of rock, soil, and core samples collected from the lunar surface during the Apollo 11, 12, 14,","geoform":["Archive","Image"],"name":"moon_apollo_lunar_sample_photographs","onlink":"https://astrogeology.usgs.gov/search/map/moon_apollo_lunar_sample_photographs","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/5a02c7c7-90ae-412e-953a-dd6df1bae0e8/resource/384727fa-8f9d-4a7d-9a5a-132a5c5daa75/download/thumb.png","title":"Moon Apollo Lunar Sample Photographs"},{"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":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_montes_apenninus_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_montes_apenninus_region","pubdate":"1966-09-04","thumb":"https://astrogeology.usgs.gov/ckan/dataset/acf0c0be-4efc-4065-97a8-f0efb27c92dc/resource/a44f5a5e-ca5b-4520-bd58-0c45b1644338/download/thumb.png","title":"Moon Geologic Map of the Montes Apenninus Region"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector 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Database"},{"abstract":"","geoform":["Presentation"],"name":"usgs_digital_terrain_models_and_mosaics_for_lmmp_presentation","onlink":"https://astrogeology.usgs.gov/search/map/usgs_digital_terrain_models_and_mosaics_for_lmmp_presentation","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/1b45dcdb-4a69-41c8-a242-2ed4c691ef54/resource/80e4b953-9ebd-4b90-ab24-2e4eae3c2ac4/download/thumb.png","title":"USGS Digital Terrain Models and Mosaics for LMMP Presentation"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_and_sections_of_the_kepler_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_and_sections_of_the_kepler_region","pubdate":"2021-08-31","thumb":"https://astrogeology.usgs.gov/ckan/dataset/9fa2b008-aa1e-4204-9aab-8e6bb390fd6a/resource/4ddcdd3d-e063-4895-98dc-4b14c1c24b27/download/thumb.png","title":"Moon Geologic Map and Sections of the Kepler Region"},{"abstract":"","geoform":["Geologic 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generated by the Gaskell Stereophotoclinometry (SPC) software suite. It focuses on six regions on the Moon. These include wrinkle ridges at Dorsa Aldrovandi, two locations","geoform":["Digital Elevation Model","Grey Scale","Image","Raster Data","Topographic Map"],"name":"regional_topography_and_photometric_cube_data_for_lunar_locations","onlink":"https://astrogeology.usgs.gov/search/map/regional_topography_and_photometric_cube_data_for_lunar_locations","pubdate":"2023-05-15","thumb":"https://astrogeology.usgs.gov/ckan/dataset/917450eb-7bab-43e0-b808-66fb3368bf7c/resource/5c844593-2f9c-4498-8ee7-858e9324a37c/download/thumb.png","title":"Regional Topography and Photometric Cube Data for Lunar Locations"},{"abstract":"","geoform":["Shaded-Relief Map"],"name":"moon_shaded_relief_and_surface_markings_map_and_shaded_relief_map_of_the_lunar_near_side","onlink":"https://astrogeology.usgs.gov/search/map/moon_shaded_relief_and_surface_markings_map_and_shaded_relief_map_of_the_lunar_near_side","pubdate":"1992-12-31","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0a7ebc5b-331c-4eea-b988-74ecbbc5eb39/resource/44ae36b5-2ea7-4f16-a3e0-fa3c5280d9b2/download/thumb.png","title":"Moon Shaded Relief and Surface Markings Map and Shaded Relief Map of the Lunar Near Side"},{"abstract":"","geoform":["Topographic Map"],"name":"moon_map_showing_relief_and_surface_markings_on_the_lunar_far_side","onlink":"https://astrogeology.usgs.gov/search/map/moon_map_showing_relief_and_surface_markings_on_the_lunar_far_side","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/074f5c6e-cda2-4431-9d06-c011118f4708/resource/e755b071-7bac-42ee-b85f-da88a3dfb857/download/thumb.png","title":"Moon Map Showing Relief and Surface Markings on the Lunar Far Side"},{"abstract":"This report describes a Digital Elevation Model (DEM) generated from Lunar Reconnaissance Orbiter Camera (LROC) Narrow Angle Cameras (NAC) stereo pairs over the lunar south pole and provides a comparison to the","geoform":["Document"],"name":"moon_lro_south_pole_dem_verification_and_validation_report","onlink":"https://astrogeology.usgs.gov/search/map/moon_lro_south_pole_dem_verification_and_validation_report","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/dc7c3cdf-9e0b-4e95-8173-9d7f1d6a0e7a/resource/a72ec8ea-39b8-45c9-b655-7add46347e15/download/thumb.png","title":"Moon LRO South Pole DEM Verification and Validation Report"},{"abstract":"This publication is a set of three sheets of topographic maps that presents color-coded topographic data digitally merged with shaded relief data. Adopted figure: The figure for the Moon, used for the","geoform":["Shaded-Relief Map"],"name":"moon_color_coded_topography_and_shaded_relief_maps_of_the_lunar_hemispheres","onlink":"https://astrogeology.usgs.gov/search/map/moon_color_coded_topography_and_shaded_relief_maps_of_the_lunar_hemispheres","pubdate":"2002-01-02","thumb":"https://astrogeology.usgs.gov/ckan/dataset/81bd932b-f575-4d57-85b6-d5fd27958ed4/resource/a0ac1fc7-ad9e-452a-9503-329041691c7b/download/thumb.png","title":"Moon Color-Coded Topography and Shaded Relief Maps of the Lunar Hemispheres"},{"abstract":"","geoform":["Topographic Map"],"name":"moon_map_showing_relief_and_surface_markings_of_the_lunar_polar_regions","onlink":"https://astrogeology.usgs.gov/search/map/moon_map_showing_relief_and_surface_markings_of_the_lunar_polar_regions","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/96d2784b-1188-4383-9503-d169f0ed8b58/resource/ffae4379-bc78-4b84-995e-2003681219f8/download/thumb.png","title":"Moon-Map-Showing-Relief-and-Surface Markings of the Lunar Polar Regions"},{"abstract":"USGS is assessing the feasibility of map projections and grid systems for lunar surface operations. USGS has proposed the development of a new Lunar Transverse Mercator (LTM) and Lunar Polar Stereographic (LPS)","geoform":["Archive","Grids","Vector Data"],"name":"lunar-map-projections-and-grid-reference-system-for-artemis-astronaut-surface-navigation","onlink":"https://astrogeology.usgs.gov/search/map//lunar-map-projections-and-grid-reference-system-for-artemis-astronaut-surface-navigation","pubdate":"2024-09-20","thumb":"https://astrogeology.usgs.gov/ckan/dataset/caca64fd-2ff6-4036-ba5e-3014dc865c7c/resource/b0579c96-72ca-4d9c-a18c-a1918239cdc5/download/lunar_grid_thumb.jpg","title":"Lunar Map Projections and Grid Reference System for Artemis Astronaut Surface Navigation"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_rupes_altai_quadrangle","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_rupes_altai_quadrangle","pubdate":"1971-10-10","thumb":"https://astrogeology.usgs.gov/ckan/dataset/370f9084-6386-41ec-8599-2da393e87ecf/resource/52299cc0-9610-4792-8234-1c0bbaba405e/download/thumb.png","title":"Moon Geologic Map of the Rupes Altai Quadrangle"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_alphonsus_ga_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_alphonsus_ga_region","pubdate":"1969-09-07","thumb":"https://astrogeology.usgs.gov/ckan/dataset/bd6ece8a-6ddf-4262-a4af-f55040416727/resource/8bc89550-9813-4ed1-bc35-33ff7b4a6fdf/download/thumb.png","title":"Moon Geologic Map of the Alphonsus GA Region"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_alphonsus_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_alphonsus_region","pubdate":"1969-09-07","thumb":"https://astrogeology.usgs.gov/ckan/dataset/3882fbcf-a3bb-4717-8578-adabb0e0dca8/resource/eb32932c-e0a1-4bf0-9f05-54e3861c4f54/download/thumb.png","title":"Moon Geologic Map of the Alphonsus Region"},{"abstract":"The Apollo Metric Cameras were carried on the Apollo 15, 16, and 17 missions to map Earth\u00e2\u0080\u0099s Moon with a high degree of geometric fidelity. This PDS volume contains the \"Apollo 15,","geoform":["Grey Scale","Image"],"name":"moon_apollo_metric_albedo_mosaic","onlink":"https://astrogeology.usgs.gov/search/map/moon_apollo_metric_albedo_mosaic","pubdate":"2010-01-15","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ad0bde82-9bf7-4304-8087-5ca34485b825/resource/dde39a12-4806-46a4-8657-f193b00218f8/download/thumb.png","title":"Moon Apollo Metric Albedo Mosaic"},{"abstract":"","geoform":["Document"],"name":"usgs_digital_terrain_models_and_mosaics_for_lmmp_abstract","onlink":"https://astrogeology.usgs.gov/search/map/usgs_digital_terrain_models_and_mosaics_for_lmmp_abstract","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/765cff1e-22e6-416d-a7c7-37523e9d9f8d/resource/63989c07-0fc6-4d8a-89a5-72a124e6d67b/download/thumb.png","title":"USGS Digital Terrain Models and Mosaics for LMMP Abstract"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_the_oppolzer_a_region","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_the_oppolzer_a_region","pubdate":"1971-10-10","thumb":"https://astrogeology.usgs.gov/ckan/dataset/4bb79419-b6ed-4650-acec-1483c0d73a95/resource/c4632686-c487-4c24-8425-2b8150b1d9ff/download/thumb.png","title":"Moon Geologic Map of the Oppolzer A Region"},{"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":"moon_lac_99_humboldt_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_99_humboldt_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/9afe8e0b-b3d9-4eab-bca9-9bb83f9aea1d/resource/6c855e08-b876-4883-822c-c38d48570593/download/thumb.png","title":"Moon LAC-99 Humboldt Nomenclature"},{"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":"moon_lac_98_petavius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_98_petavius_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/7ebf0e55-c0ee-477e-b890-9a0aa54033ce/resource/d3d52eac-b815-4c20-866b-da83fcbf1125/download/thumb.png","title":"Moon LAC-98 Petavius Nomenclature"},{"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":"moon_lac_97_fracastorius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_97_fracastorius_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b0c07edf-0018-4348-9072-d1f717bd4811/resource/7d242257-caa9-431f-8a24-e8b87f3142c1/download/thumb.png","title":"Moon LAC-97 Fracastorius Nomenclature"},{"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":"moon_lac_96_rupes_altai_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_96_rupes_altai_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c719fcc1-7283-47e6-b738-8186446a3065/resource/acd23b79-a4f6-4605-b184-21d055abacef/download/thumb.png","title":"Moon LAC-96 Rupes Altai Nomenclature"},{"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":"moon_lac_95_purbach_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_95_purbach_nomenclature","pubdate":"2015-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c5cf6e38-10bf-4666-aaff-4ad439c759f6/resource/56023783-9096-48e7-814a-0f07802dd03b/download/thumb.png","title":"Moon LAC-95 Purbach Nomenclature"},{"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":"moon_lac_94_pitatus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_94_pitatus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/557b5b0c-949c-40d7-b8a5-7b28d18a2e1e/resource/4067eafd-3572-4f0f-b16c-9a7dbab350cf/download/thumb.png","title":"Moon LAC-94 Pitatus Nomenclature"},{"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":"moon_lac_93_mare_humorum_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_93_mare_humorum_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/e8b911af-ed98-4da4-af8e-a230b54f3948/resource/4c68d5d1-60fd-4bf0-b1ee-11a12b8609c7/download/thumb.png","title":"Moon LAC-93 Mare Humorum Nomenclature"},{"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":"moon_lac_92_bygrius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_92_bygrius_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/08574226-00bf-4f40-84b9-c2647979b516/resource/b7b76a19-1b2c-48dd-9d29-e5aa87bc3355/download/thumb.png","title":"Moon LAC-92 Bygrius Nomenclature"},{"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":"moon_lac_91_eichstadt_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_91_eichstadt_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c045eb2a-bc77-4e5d-b477-c62988766a24/resource/64ee303a-991b-46bb-989d-76d475a3e470/download/thumb.png","title":"Moon LAC-91 Eichstadt Nomenclature"},{"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":"moon_lac_90_lowell_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_90_lowell_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f3c0db2d-5164-4d03-809d-12439a18d10f/resource/1b91d55f-e5f8-4670-b129-7cd5630e5307/download/thumb.png","title":"Moon LAC-90 Lowell Nomenclature"},{"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":"moon_lac_9_brianchon_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_9_brianchon_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/3cb5af9f-3445-40f0-a521-fc1c277cc4b7/resource/c3e8ae31-9d22-4387-a497-6fcac2d4c4d7/download/thumb.png","title":"Moon LAC-9 Brianchon Nomenclature"},{"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":"moon_lac_89_lucretius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_89_lucretius_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f32e1e37-d511-4442-b8a0-778425aae0bf/resource/e5b709b4-1b6c-4801-86b4-b0481c82bdcb/download/thumb.png","title":"Moon LAC-89 Lucretius Nomenclature"},{"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":"moon_lac_88_vavilov_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_88_vavilov_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/4d8c4080-a0b8-4087-9032-00c9b197502a/resource/c8acc39c-3c02-4825-81f5-4f533ccba972/download/thumb.png","title":"Moon LAC-88 Vavilov Nomenclature"},{"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":"moon_lac_87_korolev_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_87_korolev_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0dc65c9a-6263-4a89-b575-24a079c48325/resource/2c71435b-8098-4de5-8c6a-1d44b4be92c7/download/thumb.png","title":"Moon LAC-87 Korolev Nomenclature"},{"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":"moon_lac_86_icarus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_86_icarus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1185b7a3-4fd5-4f00-b798-3209ca8c5249/resource/0582d1f8-2c52-42f8-bea1-039c4c901db0/download/thumb.png","title":"Moon LAC-86 Icarus Nomenclature"},{"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":"moon_lac_85_keeler_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_85_keeler_nomenclature","pubdate":"2017-07-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d8b266c7-2e50-4745-9f33-bbc5d429525d/resource/f9718678-6077-493e-b8af-346018548b83/download/thumb.png","title":"Moon LAC-85 Keeler Nomenclature"},{"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":"moon_lac_84_dellinger_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_84_dellinger_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/99b0f590-b74a-49c7-88f4-b41b433ded70/resource/67223331-6926-4764-bacc-1b400bf9768c/download/thumb.png","title":"Moon LAC-84 Dellinger Nomenclature"},{"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":"moon_lac_83_langermak_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_83_langermak_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/83656f1f-6c4b-4a0d-9ec6-2b5e6284f858/resource/ff0586b0-e9ce-4eb8-9778-f8d16d8c769c/download/thumb.png","title":"Moon LAC-83 Langermak Nomenclature"},{"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":"moon_lac_82_pasteur_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_82_pasteur_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/44915fcf-5d7a-41d9-ad07-94c831a283e7/resource/0500dfe5-bcb2-46f7-be13-a4ac810ae2eb/download/thumb.png","title":"Moon LAC-82 Pasteur Nomenclature"},{"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":"moon_lac_81_ansgarius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_81_ansgarius_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b1d6d254-aa86-49b3-aa24-96a8aba94662/resource/f494185e-d3db-4ceb-88dc-b0b7d6f9cc62/download/thumb.png","title":"Moon LAC-81 Ansgarius Nomenclature"},{"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":"moon_lac_80_langrenus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_80_langrenus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/7ca227d1-b8f0-45da-9bad-83d262691d2b/resource/1f527f97-1eb0-4de9-83b5-b57b4d88931e/download/thumb.png","title":"Moon LAC-80 Langrenus Nomenclature"},{"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":"moon_lac_8_kirkwood_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_8_kirkwood_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/301ca1c3-a078-4f46-8cd5-05c39857a504/resource/bb093f01-1c2c-45cf-acd7-3875c19f55ca/download/thumb.png","title":"Moon LAC-8 Kirkwood Nomenclature"},{"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":"moon_lac_79_colombo_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_79_colombo_nomenclature","pubdate":"2013-10-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/73d8ffe4-30c6-4e51-a8ef-d63f1b50b4df/resource/e1e3899b-6b2b-483d-8a59-d982dc932a5f/download/thumb.png","title":"Moon LAC-79 Colombo Nomenclature"},{"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":"moon_lac_78_theophilus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_78_theophilus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8d1b2acf-1297-4aa0-90c8-8ff5712ff87e/resource/fd9efc02-b1ac-46c3-bbdd-91d7de2a74fd/download/thumb.png","title":"Moon LAC-78 Theophilus Nomenclature"},{"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":"moon_lac_77_ptolemaeus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_77_ptolemaeus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/3f0c347d-63a5-4e7e-87db-09e5fc2df95c/resource/8db73242-7936-4886-93ee-d003f4b15c21/download/thumb.png","title":"Moon LAC-77 Ptolemaeus Nomenclature"},{"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":"moon_lac_76_montes_riphaeus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_76_montes_riphaeus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/5a01a4af-4128-49bc-9dbd-de01ab903183/resource/5dfdc69f-8522-4744-8345-dbe0b5de0c30/download/thumb.png","title":"Moon LAC-76 Montes Riphaeus Nomenclature"},{"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":"moon_lac_75_letronne_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_75_letronne_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/3875f6b3-7e30-4af1-9e60-8ddb961db9b9/resource/0b9b6168-89de-4027-9432-74ddc5ecac89/download/thumb.png","title":"Moon LAC-75 Letronne Nomenclature"},{"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":"moon_lac_74_grimaldi_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_74_grimaldi_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b8fb610d-445c-4168-8d55-d1537e99ae9d/resource/934e624e-6f19-4fd6-a385-75ddc286345a/download/thumb.png","title":"Moon LAC-74 Grimaldi Nomenclature"},{"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":"moon_lac_73_riccioli_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_73_riccioli_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/dcb51ca9-a89d-4f5d-88f4-30e3cb2c5b45/resource/6ecd69c2-c6dd-4ae9-98e6-fb32bf057ac1/download/thumb.png","title":"Moon LAC-73 Riccioli Nomenclature"},{"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":"moon_lac_72_nobel_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_72_nobel_nomenclature","pubdate":"2015-05-26","thumb":"https://astrogeology.usgs.gov/ckan/dataset/05fbfa22-c7ce-49f7-b45b-0e3484839ae2/resource/a6a6f983-e7e4-4339-b3fc-ec5fc4c35088/download/thumb.png","title":"Moon LAC-72 Nobel Nomenclature"},{"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":"moon_lac_71_michelson_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_71_michelson_nomenclature","pubdate":"2017-07-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/29f88aad-5487-4957-9ad0-3a22518dc692/resource/946b9f26-1676-4155-8751-11171334ea74/download/thumb.png","title":"Moon LAC-71 Michelson Nomenclature"},{"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":"moon_lac_70_kibalchich_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_70_kibalchich_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/59186b61-9fcd-4adb-944b-cb7ab4fc31e9/resource/4ec7e410-18cf-4da4-b413-a9a858320782/download/thumb.png","title":"Moon LAC-70 Kibalchich Nomenclature"},{"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":"moon_lac_7_karpinskij_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_7_karpinskij_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ce77c7b9-88ec-42c0-bb86-8512a07a421d/resource/92d49ff1-d473-4ca7-a447-b7cdd4c29c0d/download/thumb.png","title":"Moon LAC-7 Karpinskij Nomenclature"},{"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":"moon_lac_69_zhukovskij_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_69_zhukovskij_nomenclature","pubdate":"2017-07-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/32ef413f-361f-465c-80b8-46f099364620/resource/57b16ecf-4fd2-425f-9dec-dfa9a0427ee8/download/thumb.png","title":"Moon LAC-69 Zhukovskij Nomenclature"},{"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":"moon_lac_68_sharonov_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_68_sharonov_nomenclature","pubdate":"2017-05-02","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b846faf6-45d4-44f2-92db-19ddd90f7a43/resource/bc5799b2-ee3f-444f-a957-bea3da74f1fe/download/thumb.png","title":"Moon LAC-68 Sharonov Nomenclature"},{"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":"moon_lac_67_mandel_shtam_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_67_mandel_shtam_nomenclature","pubdate":"2017-07-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d85e28ab-e3f1-49f4-9315-141f891d7c7e/resource/a1a73802-2121-4fab-a8fe-4f4fe414d418/download/thumb.png","title":"Moon LAC-67 Mandel'shtam Nomenclature"},{"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":"moon_lac_66_mendeleev_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_66_mendeleev_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/146975ba-b772-42d5-86b6-e506b3fea3b4/resource/31f86def-6015-40d3-b05f-e84933b73f07/download/thumb.png","title":"Moon LAC-66 Mendeleev Nomenclature"},{"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":"moon_lac_65_ostwald_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_65_ostwald_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/4857eaa3-ddd0-4ff9-9ce4-48dfe32dbd75/resource/f8f1e456-e528-4fb2-8bc7-67b067da33ee/download/thumb.png","title":"Moon LAC-65 Ostwald Nomenclature"},{"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":"moon_lac_64_babcock_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_64_babcock_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/54149dc6-04e6-4a2f-9531-f1125261e688/resource/f6dfd1a9-beb3-4236-ab08-9e40329d55e7/download/thumb.png","title":"Moon LAC-64 Babcock Nomenclature"},{"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":"moon_lac_63_neper_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_63_neper_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/98bcb7e7-77ef-45f2-a6f6-e0c680641edd/resource/0b6a8362-7bd4-4dc2-a7ef-5aae43a11ad4/download/thumb.png","title":"Moon LAC-63 Neper Nomenclature"},{"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":"moon_lac_62_mare_undarum_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_62_mare_undarum_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d618530c-6130-4eed-90a8-0f7db99a832f/resource/fd640568-f696-4069-aff4-4733f7516df4/download/thumb.png","title":"Moon LAC-62 Mare Undarum Nomenclature"},{"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":"moon_lac_61_taruntius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_61_taruntius_nomenclature","pubdate":"2017-07-26","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c9a16e56-6bd2-4dc3-827e-b06bcd2151c3/resource/0dc64594-3801-4737-a391-d796314fd204/download/thumb.png","title":"Moon LAC-61 Taruntius Nomenclature"},{"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":"moon_lac_60_julius_caesar_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_60_julius_caesar_nomenclature","pubdate":"2017-07-26","thumb":"https://astrogeology.usgs.gov/ckan/dataset/2e78ea26-6368-403c-8e46-c1e9989446e9/resource/f1885212-c1ac-49b7-8988-1efccfc54abe/download/thumb.png","title":"Moon LAC-60 Julius Caesar Nomenclature"},{"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":"moon_lac_6_schwarzschild_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_6_schwarzschild_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/52feb332-b19b-4f1b-896a-33a5ccd94900/resource/3c86435f-c4ae-4361-a7f6-bb74a38c221b/download/thumb.png","title":"Moon LAC-6 Schwarzschild Nomenclature"},{"abstract":"The Ice Favorability Index (IFI) maps below are based on a geologic system model for ice deposition and evolution (Cannon and Britt 2020). The index maps are predictive, not based on surface","geoform":["Model","Raster Data"],"name":"moon_ice_favorability_index_north_pole_591mp","onlink":"https://astrogeology.usgs.gov/search/map/moon_ice_favorability_index_north_pole_591mp","pubdate":"2020-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/9d54fbc9-e5fa-4177-8bff-c7fb26dd2d60/resource/8b11dca7-1f44-4223-9e0f-9cde905b2f25/download/moon_icefavorabilityindex_90n000e_thumb.jpg","title":"Moon Ice Favorability Index North Pole 591mp"},{"abstract":"The Ice Favorability Index (IFI) maps below are based on a geologic system model for ice deposition and evolution (Cannon and Britt 2020). The index maps are predictive, not based on surface","geoform":["Model","Raster Data"],"name":"moon_ice_favorability_index_south_pole_591mp","onlink":"https://astrogeology.usgs.gov/search/map/moon_ice_favorability_index_south_pole_591mp","pubdate":"2020-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ec96b436-480e-44c9-a62e-9b2682363d71/resource/c8621b64-091c-490e-a619-80b9af918155/download/moon_icefavorabilityindex_90s000e_thumb.jpg","title":"Moon Ice Favorability Index South Pole 591mp"},{"abstract":"<b>Product Information:</b> This Lunar Orbiter (LO) mosaic of the Moon was constructed using photographs acquired by LO III, IV and V. Work towards constructing the global mosaic spanned over seven years. Earlier","geoform":["Global Mosaic","Grey Scale","Remote-sensing Data"],"name":"moon_lunar_orbiter_digital_photographic_global_mosaic_59m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lunar_orbiter_digital_photographic_global_mosaic_59m","pubdate":"2010-02-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/5f5fae52-db25-4ac5-8c56-95cd6615cfde/resource/13e9f406-31df-4c80-a94f-7b15e17b0284/download/lunar_lo_mr_mosaic_global_100.jpg","title":"Moon Lunar Orbiter Digital Photographic Global Mosaic 59m"},{"abstract":"<b>Product Information:</b> This mosaic represents SELenological and Engineering Explorer (SELENE) Kaguya Multiband Imager (MI) derived submicroscopic metallic iron (SMFe; Taylor et al., 2010). The mosaic was created from topographically-corrected MI reflectance data","geoform":["Grey Scale","Mineral Map","Raster Data","Remote-sensing Data"],"name":"moon_selene_kaguya_mi_derived_submicroscopic_metallic_iron_mosaic_59m","onlink":"https://astrogeology.usgs.gov/search/map/moon_selene_kaguya_mi_derived_submicroscopic_metallic_iron_mosaic_59m","pubdate":"2016-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f0baa135-fe11-4bba-8f8e-547a353c3a13/resource/f004d7f0-a638-4354-ac24-b7d686d24ff8/download/thumb.png","title":"Moon SELENE Kaguya MI Derived Submicroscopic Metallic Iron Mosaic 59m"},{"abstract":"This mosaic represents the abundance of the mineral clinopyroxene on the surface of the Moon, expressed as weight percent (wt%). The mosaic was created from topographically-corrected MI reflectance data acquired by the","geoform":["Mineral Map","Raster Data","Remote-sensing Data"],"name":"kaguya_lunar_multiband_imager_59mpp","onlink":"https://astrogeology.usgs.gov/search/map/kaguya_lunar_multiband_imager_59mpp","pubdate":"2016-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/e821546d-9b35-467a-bf93-6cdd2c7b1151/resource/c7b385bf-3815-4b40-a2ec-36442fd7b192/download/lunar_kaguya_mimap_mineraldeconv_clinopyroxenepercent_50n50s_100.jpg","title":"Kaguya Lunar Multiband Imager  59mpp"},{"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":"moon_lac_59_mare_vaporum_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_59_mare_vaporum_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/fbfcd350-3926-4b1f-abe4-24201a765179/resource/bb1c75cf-bde0-43a7-b76c-f5abaeab2568/download/thumb.png","title":"Moon LAC-59 Mare Vaporum Nomenclature"},{"abstract":"<b>Product Information:</b> The Lunar Orbiter Laser Altimeter (LOLA) and SELenological and Engineering Explorer (SELENE) Kaguya Teams have created an improved lunar digital elevation model (DEM) covering latitudes within \u00b160\u00b0, at a horizontal","geoform":["Digital Elevation Model","Remote-sensing Data","Topographic Map"],"name":"moon_lro_lola_selene_kaguya_tc_dem_merge_60n60s_59m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lro_lola_selene_kaguya_tc_dem_merge_60n60s_59m","pubdate":"2015-02-04","thumb":"https://astrogeology.usgs.gov/ckan/dataset/21cbb67a-ea2b-445b-8ff7-c69cae74689e/resource/cca0f639-2d71-49ac-bac5-26f3ac5e0b27/download/thumb.png","title":"Moon LRO LOLA - SELENE Kaguya TC DEM Merge 60N60S 59m"},{"abstract":"<b>Product Information:</b> The Lunar Orbiter Laser Altimeter (LOLA) and SELenological and Engineering Explorer (SELENE) Kaguya Teams have created this shaded relief of the improved lunar digital elevation model (DEM) covering latitudes within","geoform":["Remote-sensing Data","Topographic Map"],"name":"moon_lro_lola_selene_kaguya_tc_shaded_relief_merge_60n60s_59m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lro_lola_selene_kaguya_tc_shaded_relief_merge_60n60s_59m","pubdate":"2015-09-08","thumb":"https://astrogeology.usgs.gov/ckan/dataset/7fbb2043-f438-4f03-b02b-a9ccb395af39/resource/f7320e0a-585a-4b0b-8b51-95c92113224e/download/thumb.png","title":"Moon LRO LOLA - SELENE Kaguya TC Shaded Relief Merge 60N60S 59m"},{"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":"moon_lac_58_copernicus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_58_copernicus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ae2273c5-42ce-4585-b59f-ca25f748c96f/resource/bf8e5973-c272-4eec-837f-96598bcc1aeb/download/thumb.png","title":"Moon LAC-58 Copernicus Nomenclature"},{"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":"moon_lac_57_kepler_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_57_kepler_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d1c91c09-36c7-4d43-b4cc-14ff914e7c2e/resource/37fd7c48-d5c1-4534-b5ca-507835b24669/download/thumb.png","title":"Moon LAC-57 Kepler Nomenclature"},{"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":"moon_lac_56_hevelius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_56_hevelius_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/6f886606-437e-4158-a8f3-869f2643cb1c/resource/ab0d5756-0831-41b6-9f34-aab8749a2cd1/download/thumb.png","title":"Moon LAC-56 Hevelius Nomenclature"},{"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":"moon_lac_55_vasco_a_gama_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_55_vasco_a_gama_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/721fc144-e2c0-4ff8-99c6-30a67f1fa75f/resource/54ee026a-10ca-448d-a811-dab37b275652/download/thumb.png","title":"Moon LAC-55 Vasco a Gama Nomenclature"},{"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":"moon_lac_54_robertson_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_54_robertson_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/fa28c165-4b63-4f84-bb26-fd96a06643a6/resource/51a8660e-96c3-472a-8e73-bce257a44c80/download/thumb.png","title":"Moon LAC-54 Robertson Nomenclature"},{"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":"moon_lac_53_fersman_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_53_fersman_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/2da2555e-a6de-42cc-a380-0a4e8b2dc4b2/resource/51aac3a8-e6ec-4437-abba-91ef7ec820a9/download/thumb.png","title":"Moon LAC-53 Fersman Nomenclature"},{"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":"moon_lac_52_joule_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_52_joule_nomenclature","pubdate":"2017-07-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d8cd1b35-abdb-4ead-98a0-cf13436906e1/resource/67fd67e7-5d95-4180-b149-de3d99de0f32/download/thumb.png","title":"Moon LAC-52 Joule Nomenclature"},{"abstract":"<b>Product Information:</b> The Multiband Imager (MI) mosaics contain 34 mosaics in 32bit GeoTiff format of the topographically corrected reflectance data acquired by the MI in 9 spectral bands, 415, 750, 900, 950,","geoform":["Color","Grey Scale","Mineral Map","Raster Data","Remote-sensing Data"],"name":"moon_selene_kaguya_mi_central_peak_mosaics_512m","onlink":"https://astrogeology.usgs.gov/search/map/moon_selene_kaguya_mi_central_peak_mosaics_512m","pubdate":"2015-05-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ffd63066-5a31-4a1a-98f1-0381e3e952b1/resource/1edde1ac-9304-4aa4-921b-177610ae59ff/download/mi_mineral_example_100.jpg","title":"Moon SELENE Kaguya MI Central Peak Mosaics 512m"},{"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":"moon_lac_51_cockcroft_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_51_cockcroft_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b848cf2c-767e-4da6-8eb4-154c10fadb69/resource/c02d8a39-9449-42d8-abb8-af988a18fdfb/download/thumb.png","title":"Moon LAC-51 Cockcroft Nomenclature"},{"abstract":"<b>Product Information:</b> This mosaic represents a reduced-resolution version of the standard calibration Clementine near-infrared (NIR) mosaic processed to 500 meters per pixel (m) as an ISIS cube (70\u00c2\u00b0 N to 70\u00c2\u00b0 S).","geoform":["Global Mosaic","Remote-sensing Data"],"name":"moon_clementine_nir_standard_calibration_500m","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_nir_standard_calibration_500m","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/96e6c9a4-23c0-4995-9e49-bc485da63884/resource/6c9de6af-5fc7-437f-9df1-e88e335458b7/download/lunar_clementine_nir_cal_100.jpg","title":"Moon Clementine NIR Standard Calibration 500m"},{"abstract":"<b>Product Information:</b> This mosaic represents a reduced-resolution version of the empirical calibration Clementine near-infrared (NIR) mosaic processed to 500 meters per pixel (m) spatial resolution as an ISIS cube (70\u00c2\u00b0 N to","geoform":["Global Mosaic","Remote-sensing Data"],"name":"moon_clementine_nir_empirical_calibration_500m","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_nir_empirical_calibration_500m","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/1236da97-7287-4c10-95b6-9857dbcc3073/resource/6dfb641d-e5c0-46a2-9f9f-2815993a823e/download/lunar_clementine_nir_cal_empcor_100.jpg","title":"Moon Clementine NIR Empirical Calibration 500m"},{"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":"moon_lac_50_fitzgerald_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_50_fitzgerald_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c651cd2c-1cdf-4616-94b1-ffb1697e41f6/resource/8a79fa78-9252-424a-8d8e-b7f5a5bd4526/download/thumb.png","title":"Moon LAC-50 Fitzgerald Nomenclature"},{"abstract":"This mosaic represents the weighted criteria values associated with a collection of near-global lunar mineral maps produced by Lemelin et al using data from the Kaguya Multiband Imager (MI). The weighted criteria","geoform":["Mineral Map","Raster Data","Remote-sensing Data"],"name":"kaguya_lunar_multiband_imager_mi_derived_weighted_criteria_value_50n50s_512ppd_59mpp","onlink":"https://astrogeology.usgs.gov/search/map/kaguya_lunar_multiband_imager_mi_derived_weighted_criteria_value_50n50s_512ppd_59mpp","pubdate":"2016-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a477f878-1975-4379-8ff4-ab4b341f8f5a/resource/15c645d6-b81e-4406-bc4c-f1a5ae988c7d/download/lunar_kaguya_mimap_mineraldeconv_weightedcriteriavalue_50n50s_100.jpg","title":"Kaguya Lunar Multiband Imager MI Derived Weighted Criteria Value 50N50S 512ppd 59mpp"},{"abstract":"This mosaic represents the optical maturity (OMAT) of the surface of the Moon. 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The mosaic was created from the topographically corrected MI reflectance data acquired","geoform":["Mineral Map","Raster Data","Remote-sensing Data"],"name":"kaguya_lunar_multiband_imager_mi_derived_olivine_weight_percent_50n50s_512ppd_59mpp","onlink":"https://astrogeology.usgs.gov/search/map/kaguya_lunar_multiband_imager_mi_derived_olivine_weight_percent_50n50s_512ppd_59mpp","pubdate":"2016-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/9636b7fc-d94c-413e-8c32-4fc481d79b8e/resource/33252077-6b65-42fc-8489-325eb9f605ce/download/lunar_kaguya_mimap_mineraldeconv_olivinepercent_50n50s_100.jpg","title":"Kaguya Lunar Multiband Imager MI Derived Olivine Weight Percent 50N50S 512ppd 59mpp"},{"abstract":"This mosaic represents the abundance of the mineral clinopyroxene on the surface of the Moon, expressed as weight percent (wt%). 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TC source data originated as map-projected tiles at ~10 meters per","geoform":["Global Mosaic","Grey Scale","Image","Raster Data"],"name":"moon_selene_kaguya_tc_global_orthomosaic_474m","onlink":"https://astrogeology.usgs.gov/search/map/moon_selene_kaguya_tc_global_orthomosaic_474m","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/62b3b6d8-6037-449b-bee6-b4b577299738/resource/8a15bd6e-12c2-4289-adaa-8bde213567ea/download/thumb.png","title":"Moon SELENE Kaguya TC Global Orthomosaic 474m"},{"abstract":"<b>Product Information:</b> This near-global mosaic was generated using data from the SELenological and Engineering Explorer (SELENE) Kaguya Terrain Camera (TC) instrument. TC source data originated as map-projected tiles at ~10 meters per","geoform":["Global Mosaic","Grey Scale","Image","Raster Data"],"name":"moon_selene_kaguya_tc_morning_global_mosaic_474m","onlink":"https://astrogeology.usgs.gov/search/map/moon_selene_kaguya_tc_morning_global_mosaic_474m","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/1657d6b4-ed2d-4ab5-b2f8-e3b2ede9cea1/resource/9adb9f5b-c4f0-44fd-b2b2-708aec57f331/download/thumb.png","title":"Moon SELENE Kaguya TC Morning Global Mosaic 474m"},{"abstract":"<b>Product Information:</b> This near-global mosaic was generated using data from the SELenological and Engineering Explorer (SELENE) Kaguya Terrain Camera (TC) instrument. TC source data originated as map-projected tiles at ~10 meters per","geoform":["Global Mosaic","Grey Scale","Image","Raster Data"],"name":"moon_selene_kaguya_tc_evening_global_mosaic_474m","onlink":"https://astrogeology.usgs.gov/search/map/moon_selene_kaguya_tc_evening_global_mosaic_474m","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/74ff166c-395d-4e59-88e9-31ec66970e61/resource/ac6ecd52-df03-48dc-ad08-875c284b7a3d/download/thumb.png","title":"Moon SELENE Kaguya TC Evening Global Mosaic 474m"},{"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":"moon_lac_47_seyfert_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_47_seyfert_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c1bc2dec-ac8a-4ebe-88f2-82f1d395b3aa/resource/71e1cde4-0b92-4f4b-9207-fa692e05c248/download/thumb.png","title":"Moon LAC-47 Seyfert Nomenclature"},{"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":"moon_lac_46_joliot_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_46_joliot_nomenclature","pubdate":"2013-04-22","thumb":"https://astrogeology.usgs.gov/ckan/dataset/51e8e046-e2ba-4194-868d-3bfb33936fc1/resource/47a270fc-2911-49fd-9939-ea5737b39dda/download/thumb.png","title":"Moon LAC-46 Joliot 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(Hargitai","geoform":["Nomenclature"],"name":"moon_lac_44_cleomedes_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_44_cleomedes_nomenclature","pubdate":"2013-02-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/730e50f4-63c5-4371-9098-e8f636ede961/resource/89b74478-e7d8-49b9-88af-30218d9c7e52/download/thumb.png","title":"Moon LAC-44 Cleomedes Nomenclature"},{"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":"moon_lac_43_marcobius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_43_marcobius_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1e8f81e0-d4b4-4175-878f-c600dbf7b526/resource/6ebaa336-6f4f-4acf-9487-c3a87756b234/download/thumb.png","title":"Moon LAC-43 Marcobius 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(Hargitai","geoform":["Nomenclature"],"name":"moon_lac_41_montes_apenninus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_41_montes_apenninus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c15d2a7e-e29b-4e8c-8554-9721d611acce/resource/6c034230-08c5-4cc2-b075-f704e08c33c1/download/thumb.png","title":"Moon LAC-41 Montes Apenninus Nomenclature"},{"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":"moon_lac_40_timocharis_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_40_timocharis_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/121fc8e2-6211-427a-bad5-cc122c16d38f/resource/bcb93784-1d53-4a60-9e55-1477b1f7ca6e/download/thumb.png","title":"Moon LAC-40 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(Hargitai","geoform":["Nomenclature"],"name":"moon_lac_4_meton_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_4_meton_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/5a76e039-7a91-4717-9dd1-f47da1886da4/resource/e39719d9-2707-42e3-892d-cd2bd5513708/download/thumb.png","title":"Moon LAC-4 Meton Nomenclature"},{"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":"moon_lac_39_aristarchus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_39_aristarchus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/76815c6b-8393-484b-a8fa-9f80e65f2a17/resource/35e7c870-a43b-41bd-ab35-4c7c97f751b4/download/thumb.png","title":"Moon LAC-39 Aristarchus 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(Hargitai","geoform":["Nomenclature"],"name":"moon_lac_38_seleucus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_38_seleucus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/754c4c94-169f-454c-908d-f11e0a819425/resource/8a23d225-e67a-4c26-9988-a2ffd32232e5/download/thumb.png","title":"Moon LAC-38 Seleucus Nomenclature"},{"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":"moon_lac_37_russell_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_37_russell_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/09b2016b-a655-446f-9f5e-a6180fd697c7/resource/99f592be-1df5-4ea9-855f-f922a1538035/download/thumb.png","title":"Moon LAC-37 Russell 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(Hargitai","geoform":["Nomenclature"],"name":"moon_lac_35_landau_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_35_landau_nomenclature","pubdate":"2017-07-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/6be2f620-486d-4806-abf9-ed06f3c145bb/resource/52ecaae4-bde0-4b29-87e1-477b2daa94e1/download/thumb.png","title":"Moon LAC-35 Landau Nomenclature"},{"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":"moon_lac_34_fowler_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_34_fowler_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/e2a49d10-33c5-4fa0-af2b-1bf26d836659/resource/0ae88463-1395-41c4-bd89-27ee93cfad30/download/thumb.png","title":"Moon LAC-34 Fowler Nomenclature"},{"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":"moon_lac_33_schneller_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_33_schneller_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1ab4a45c-3669-4246-940d-e1ddf3dab101/resource/04942144-c054-45cb-a447-12328e48c77d/download/thumb.png","title":"Moon LAC-33 Schneller Nomenclature"},{"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":"moon_lac_32_chandler_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_32_chandler_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/dfdc63e9-73a2-4708-af57-9bd87a55d06f/resource/7393204d-7d16-4b3f-93eb-479cc4ae584d/download/thumb.png","title":"Moon LAC-32 Chandler Nomenclature"},{"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":"moon_lac_31_campbell_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_31_campbell_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/5608d745-2a88-4765-ab12-e7385b0ada85/resource/f28f9a7e-b8aa-4c90-9d47-ae0a7f9e36fe/download/thumb.png","title":"Moon LAC-31 Campbell Nomenclature"},{"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":"moon_lac_30_millikan_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_30_millikan_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/78efc5f8-5b8b-481f-b57d-0fc1416beecf/resource/ef271376-fa7d-4b88-ad57-a3f34b7eaae1/download/thumb.png","title":"Moon LAC-30 Millikan Nomenclature"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_apollo_landing_sites_3_and_3r","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_apollo_landing_sites_3_and_3r","pubdate":"1970-10-09","thumb":"https://astrogeology.usgs.gov/ckan/dataset/7ec62ffb-4b2d-4d38-a314-4cfbafd17796/resource/90b9188b-cf72-489c-ac42-ab89a760a616/download/thumb.png","title":"Moon Geologic Map of Apollo Landing Sites 3 and 3R"},{"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":"moon_lac_3_anaxagoras_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_3_anaxagoras_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/375dc3f1-6479-4c7f-ad63-4245979db3e0/resource/6dd1e0c3-3640-4dc1-b43c-3e48017483c6/download/thumb.png","title":"Moon LAC-3 Anaxagoras Nomenclature"},{"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":"These water maps and their ancillary data were prepared for studying the effects of Earth's magnetotail on the formation of the lunar surface water by Dr. Shuai Li at University of Hawaii.","geoform":["Archive","Global Mosaic","Raster Data","Remote-sensing Data"],"name":"lunar_m3_water_map_pds4_archive","onlink":"https://astrogeology.usgs.gov/search/map/lunar_m3_water_map_pds4_archive","pubdate":"2022-12-22","thumb":"https://astrogeology.usgs.gov/ckan/dataset/214133c0-41ac-4417-ba43-21c814378e52/resource/e18e5e60-3326-42c5-a7b2-8a85c728fab1/download/m3_lunarwater_sample_100.jpg","title":"Lunar M3 Water Map PDS4 Archive"},{"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":"moon_lac_29_fabry_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_29_fabry_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/146f99aa-dd99-4045-b1fe-c342a708730c/resource/ca5733d2-2fe1-4742-b469-b5a3b10cb30c/download/thumb.png","title":"Moon LAC-29 Fabry Nomenclature"},{"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":"moon_lac_28_gauss_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_28_gauss_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ae8fe18c-0d37-43b6-8464-fd0b85257872/resource/bb4f9b44-c25d-4ba7-96d8-12777d935c37/download/thumb.png","title":"Moon LAC-28 Gauss Nomenclature"},{"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":"moon_lac_27_geminus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_27_geminus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/79204103-fda0-4c4f-b739-3a8c2acbcd57/resource/72e0c0c6-b4e2-4fb6-a26c-3798f3496f4a/download/thumb.png","title":"Moon LAC-27 Geminus Nomenclature"},{"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":"moon_lac_26_eudoxus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_26_eudoxus_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/af4be46e-236e-4022-a5f0-a54e2d13bc6a/resource/3f8b3fbc-dd0a-4a33-9275-7cb144ef060b/download/thumb.png","title":"Moon LAC-26 Eudoxus Nomenclature"},{"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":"moon_lac_25_cassini_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_25_cassini_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1be21f24-7034-428f-93e7-7f381bd12fc8/resource/a40f62fb-9c82-43fe-b837-fa11b89bce5b/download/thumb.png","title":"Moon LAC-25 Cassini Nomenclature"},{"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":"moon_lac_24_sinus_iridum_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_24_sinus_iridum_nomenclature","pubdate":"2015-10-05","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a66f7db5-7d20-4a69-b823-507da62b9b2e/resource/56bcc591-a5fb-407f-878c-b36ef2402529/download/thumb.png","title":"Moon LAC-24 Sinus Iridum Nomenclature"},{"abstract":"<b>Product Information:</b> This is a shaded-relief of a original polar digital elevation model (DEM) from the Lunar Orbiter Laser Altimeter (LOLA; Smith et al., 2010), an instrument on the National Aeronautics and","geoform":["Digital Elevation Model","Global Mosaic","Remote-sensing Data","Shaded-Relief Map"],"name":"moon_lro_lola_shaded_relief_237m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lro_lola_shaded_relief_237m","pubdate":"2011-08-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/5b2bccd4-7e71-44f2-84af-62dad57e0f58/resource/5277d652-0f5e-42ea-9ee6-3ab9c5074ca4/download/thumb.png","title":"Moon LRO LOLA Shaded Relief 237m"},{"abstract":"<b>Product Information:</b> This Multiband Imager (MI) 750nm mosaic is topographically corrected reflectance data acquired by the the SELenological and Engineering Explorer (SELENE) Kaguya mission. The MI has 9 spectral bands, at 415,","geoform":["Global Mosaic","Raster Data","Remote-sensing Data"],"name":"moon_selene_kaguya_mi_global_reflectance_mosaic_237m","onlink":"https://astrogeology.usgs.gov/search/map/moon_selene_kaguya_mi_global_reflectance_mosaic_237m","pubdate":"2015-08-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/7a115851-a0d4-4736-a63a-5de2524895d3/resource/8e89fc6d-e891-4d5c-9586-4e3057c4bfac/download/thumb.png","title":"Moon SELENE Kaguya MI Global Reflectance Mosaic 237m"},{"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":"moon_lac_23_r_mker_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_23_r_mker_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/6e387fc4-7563-498e-a444-d38b4eb7fe00/resource/f8374d47-6683-49a3-8d28-5f386d4597e1/download/thumb.png","title":"Moon LAC-23 R\u00c3\u00bcmker Nomenclature"},{"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":"moon_lac_22_lavoisier_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_22_lavoisier_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1d93f175-d20d-461c-945f-6d64e8cdc537/resource/7906dc3d-484c-427c-a813-d35032380fc5/download/thumb.png","title":"Moon LAC-22 Lavoisier Nomenclature"},{"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":"moon_lac_21_omar_khayyam_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_21_omar_khayyam_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/03d11f1d-d39a-4710-9335-ab205d7f1b9d/resource/62870e45-64be-48c9-b158-0eec9a4a522b/download/thumb.png","title":"Moon LAC-21 Omar Khayyam Nomenclature"},{"abstract":"<b>Product Information:</b> The Clementine Ultraviolet/Visible (UVVIS) mosaic of Earth's Moon is a radiometrically and geometrically controlled, photometrically modeled global Mosaicked Digital Image Model (DIM) compiled using more than 400,000 images from multiple","geoform":["Global Mosaic","Mineral Map","Remote-sensing Data"],"name":"moon_clementine_uvvis_5_band_warped_image_mosaic_200m","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_uvvis_5_band_warped_image_mosaic_200m","pubdate":"2008-03-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/2e7ff929-ff13-4ada-8b92-d158e882c9ae/resource/c1136349-59f6-4a2f-8f06-0b7068932b04/download/uvvis_warp_mosaic_5bands_200m_thumbnail.jpg","title":"Moon Clementine UVVIS 5 Band Warped Image Mosaic 200m"},{"abstract":"<b>Product Information:</b> This base represents the Clementine Ultraviolet/Visible (UVVIS) warped color-ratio mineral map. This was generated from the UVVIS mosaics using three spectral filters (415, 750, and 1000 nm) and which were","geoform":["Global Mosaic","Mineral Map","Remote-sensing Data"],"name":"moon_clementine_uvvis_warped_color_ratio_mosaic_200m","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_uvvis_warped_color_ratio_mosaic_200m","pubdate":"2008-08-15","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c368472e-67ce-4a0e-914b-60d4fdf5b6d1/resource/8c29902c-516d-4643-993c-d2fead679da0/download/thumb.png","title":"Moon Clementine UVVIS Warped Color Ratio Mosaic 200m"},{"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":"moon_lac_20_coulomb_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_20_coulomb_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/39ea0c25-8ba7-44c0-9d39-31953adf4157/resource/4882e722-c155-46be-9d05-ac94f50df4e9/download/thumb.png","title":"Moon LAC-20 Coulomb Nomenclature"},{"abstract":"<b>Product Information:</b> The is a blend (or overlay) of the U.S. Geological Survey (USGS) Clementine Ultraviolet/Visible (UVVIS) V2 mosaic and the original USGS Lunar Orbiter mosaic. The Clementine 750 nm Version 2","geoform":["Global Mosaic","Merge","Raster Data"],"name":"moon_lunar_orbiter_clementine_uvvisv2_hybrid_mosaic_59m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lunar_orbiter_clementine_uvvisv2_hybrid_mosaic_59m","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/5265413b-927c-4193-bef4-3560194ac212/resource/306d4401-409f-40cc-9d66-5e36f4cbc2a3/download/lunar_lo_uvvisv2_hybrid_mosaic_global_100.jpg","title":"Moon Lunar Orbiter - Clementine UVVISv2 Hybrid Mosaic 59m"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_apollo_landing_site_2","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_apollo_landing_site_2","pubdate":"1970-10-09","thumb":"https://astrogeology.usgs.gov/ckan/dataset/2c2fb558-181c-4c4f-ad74-eed64832fc9f/resource/446931be-81ad-4015-9ffe-f4187a9d85c4/download/thumb.png","title":"Moon Geologic Map of Apollo Landing Site 2"},{"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":"moon_lac_2_carpenter_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_2_carpenter_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a62f9b84-5a16-40bb-a757-280eed60b51c/resource/148e92b2-a574-4e84-a094-2df2bfa4e669/download/thumb.png","title":"Moon LAC-2 Carpenter Nomenclature"},{"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":"moon_lac_19_birkhoff_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_19_birkhoff_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ecc4dda3-fa1d-4bc7-bf49-71b176335d2c/resource/6d4caa65-bb3b-4c89-b660-f9092b64818d/download/thumb.png","title":"Moon LAC-19 Birkhoff Nomenclature"},{"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":"moon_lac_18_d_alembert_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_18_d_alembert_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/9bfeee5c-9ff5-4a9e-aa73-493edd7c3365/resource/78cb2b4a-5208-49cf-b8e1-00c01553e994/download/thumb.png","title":"Moon LAC-18 D'Alembert Nomenclature"},{"abstract":"The panorama was collected by Harrison H. \"Jack\" Schmitt at Station 2. Eugene Andrew Cernan accompanies Jack on this EVA. The panorama is made from the frame set AS17-138-21053 to 21073.","geoform":["Panorama"],"name":"apollo_17_panorama_station_2_looking_northeast","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_2_looking_northeast","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/2cb927aa-6e94-4e47-95b5-ece5d18a664c/resource/f6fb79b0-daf8-4e66-a136-b6785fc80f38/download/thumb.png","title":"Apollo 17 Panorama - Station 2 Looking Northeast"},{"abstract":"The panorama was collected by Harrison H. \"Jack\" Schmitt at Station 2. Eugene Andrew Cernan is at the rover. Ballet Crater is directly to the right of Jack's shadow. The panorama is","geoform":["Panorama"],"name":"apollo_17_panorama_station_2_ballet_crater","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_2_ballet_crater","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/dbe69a2f-8a8b-4d4f-af5a-41d2904d0772/resource/9b79b602-0b23-4b68-8cc2-2ad1bb8f4b46/download/thumb.png","title":"Apollo 17 Panorama - Station 2 Ballet Crater"},{"abstract":"The panorama was collected by Eugene Andrew Cernan at Station 4. Harrison H. \"Jack\" Schmitt is at the rover. This site features the unexpected orange soil discovered on this mission. The panorama","geoform":["Panorama"],"name":"apollo_17_panorama_station_4","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_4","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/db6dcc4b-44b2-4cd9-92ac-a693c86adff1/resource/b81577a2-e42d-437b-a036-8f490f88fa45/download/thumb.png","title":"Apollo 17 Panorama - Station 4"},{"abstract":"The panorama was collected by Harrison H. \"Jack\" Schmitt at Station 4. Eugene Andrew Cernan is at the rover. This site features the unexpected orange soil discovered on this mission. The panorama","geoform":["Panorama"],"name":"apollo_17_panorama_station_4b","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_4b","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/fb9ab304-485d-4e93-9d68-942332ec9836/resource/bbf6afa5-1e91-4a52-9bd7-14537c966757/download/thumb.png","title":"Apollo 17 Panorama - Station 4b"},{"abstract":"The panorama was collected by Eugene Andrew Cernan at Station 2. Harrison H. \"Jack\" Schmitt accompanies Gene on this EVA. The panorama is made from the frame set AS17-137-20926 to 20956.","geoform":["Panorama"],"name":"apollo_17_panorama_station_2","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_2","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/f08fb794-9cd4-42e9-b528-e3bc037b4782/resource/f933d3a4-24f5-4a1f-9b04-2a83bb1f5af3/download/thumb.png","title":"Apollo 17 Panorama - Station 2"},{"abstract":"The panorama was collected by Harrison H. \"Jack\" Schmitt at Station 8. Eugene Andrew Cernan is near the rover picking up the Traverse Gravimeter to stow it on the rover. The object","geoform":["Panorama"],"name":"apollo_17_panorama_station_8","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_8","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/896e2323-447a-44e3-b429-338ea3fee221/resource/7928d45b-22e4-4441-9516-235e9ad1bd7b/download/thumb.png","title":"Apollo 17 Panorama - Station 8"},{"abstract":"The panorama was collected by Harrison H. \"Jack\" Schmitt at Station 6. Eugene Andrew Cernan, to the right of the rover. is putting the TGE down on the surface. The panorama is","geoform":["Panorama"],"name":"apollo_17_panorama_station_6","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_6","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/1f050ba4-4bbf-4ba5-b849-847f4956a815/resource/f222033a-7420-4b54-a46a-43fb534d69fb/download/thumb.png","title":"Apollo 17 Panorama - Station 6"},{"abstract":"The panorama was collected by Harrison H. \"Jack\" Schmitt at Station 8. Eugene Andrew Cernan is in the distance collecting a set of panoramic photographs. The panorama is made from the frame","geoform":["Panorama"],"name":"apollo_17_panorama_station_8b","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_8b","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/9478698d-8330-4c08-9fab-0ff3f06e77bf/resource/bbfd351f-169b-4a88-971e-8f679f1f83b8/download/thumb.png","title":"Apollo 17 Panorama - Station 8b"},{"abstract":"The panorama was collected by Eugene Andrew Cernan at Station 7. Harrison H. \"Jack\" Schmitt is at the rover. The panorama is made from the frame set AS17-146-22339 to 22363.","geoform":["Panorama"],"name":"apollo_17_panorama_station_7","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_7","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/3e9e3f99-9b9a-47c3-81c8-1a65f875aaa3/resource/bf03ead6-b8ba-4e51-a446-4b763ebc4bd8/download/thumb.png","title":"Apollo 17 Panorama - Station 7"},{"abstract":"The panorama was collected by Harrison H. \"Jack\" Schmitt at Station 5. The panorama is made from the frame set AS17-133-20339 to 20361.","geoform":["Panorama"],"name":"apollo_17_panorama_station_5","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_5","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/ae0100f5-4438-4998-ae71-9570dd8177fd/resource/14f2fd01-6405-410d-b880-c6ae37b82558/download/thumb.png","title":"Apollo 17 Panorama - Station 5"},{"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":"moon_lac_17_st_rmer_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_17_st_rmer_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/bf2da68f-e432-46d5-aecc-885a45414783/resource/34dce75e-b94f-4eb0-b37d-d01b27befce5/download/thumb.png","title":"Moon LAC-17 St\u00c3\u00b6rmer Nomenclature"},{"abstract":"One of a panoramic series of photographs taken at Station 4 by Eugene Andrew Cernan. This image shows Harrison H. \"Jack\" Schmitt at the rover. The trench site in orange soil is","geoform":["3D","Anaglyph"],"name":"apollo_17_anaglyph_3d_harrison_jack_schmitt_at_the_rover","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_anaglyph_3d_harrison_jack_schmitt_at_the_rover","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/2e4d4625-31dc-47a1-9279-7604e667b667/resource/4455fe34-042c-4eeb-87b5-ed3aa4816d3d/download/thumb.png","title":"Apollo 17 Anaglyph/3D - Harrison \"Jack\" Schmitt at the Rover"},{"abstract":"Part of a panoramic series of photographs taken as station 9 looking north.","geoform":["3D","Anaglyph"],"name":"apollo_17_anaglyph_3d_station_9_looking_north","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_anaglyph_3d_station_9_looking_north","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/7060f814-0973-4fb4-9756-abd3440af652/resource/97788814-77d2-459a-8720-cd5a9b6b3346/download/thumb.png","title":"Apollo 17 Anaglyph/3D - Station 9 Looking North"},{"abstract":"<b>Product Information:</b> This is an (ortho-) mosaic map of the Apollo 17 landing site (L15K 20.2/30.7East COMT). The map includes nomenclature, elevation contours, the astronauts' major geology stops, and rover traverses. It","geoform":["Landing Site Map","Raster Data","Remote-sensing Data","Topographic Map","Traverse Map","Vector Data"],"name":"moon_apollo_17_lroc_nac_landing_site_orthomosaic_50cm","onlink":"https://astrogeology.usgs.gov/search/map/moon_apollo_17_lroc_nac_landing_site_orthomosaic_50cm","pubdate":"2018-05-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/2f509e69-cd20-4638-ab63-618135c776b3/resource/0f74727d-2040-45c4-8ebb-2d26f8232206/download/image01_thumb.jpg","title":"Moon Apollo 17 LROC NAC Landing Site Orthomosaic 50cm"},{"abstract":"The panorama was collected by Charles Moss Duke at Station 2. John Watts Young is at the rover. The crater in the near foreground is Spook Crater. The panorama is made from","geoform":["Panorama"],"name":"apollo_16_panorama_station_2","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_station_2","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/01894065-8dcc-4b78-af17-85fb3ee04ff8/resource/3e3711b2-0854-440c-83d0-307b3167206b/download/thumb.png","title":"Apollo 16 Panorama - Station 2"},{"abstract":"The panorama was collected by Charles Moss Duke, Jr. at the ALSEP site. The magnetometer is beyond Charlie's shadow. To the right of the cable to the magnetometer is the RTG. In","geoform":["Panorama"],"name":"apollo_16_panorama_alsep_site","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_alsep_site","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/c11baaff-003a-4ec1-afe7-6db7d867585e/resource/2219d67d-31e9-4102-b9fb-ae2ea812b400/download/thumb.png","title":"Apollo 16 Panorama - ALSEP Site"},{"abstract":"The panorama was collected by Charles Moss Duke at Station 5. John Watts Young is at the front of the rover. He and Charlie had decided earlier that the rover needed to","geoform":["Panorama"],"name":"apollo_16_panorama_station_5","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_station_5","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/b0b5a521-c8bc-4606-a7ae-d206a58c112d/resource/30adbe7c-8d53-45a9-9c65-89ff963a2640/download/thumb.png","title":"Apollo 16 Panorama - Station 5"},{"abstract":"The panorama was collected by John Watts Young at Station 4. The rover can be seen in the distance to the left of the crater beyond the sample collection bag in the","geoform":["Panorama"],"name":"apollo_16_panorama_station_4","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_station_4","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/9639f2af-ff53-485f-9362-73598d5bf69d/resource/cc535e89-5c4f-43bc-b8c6-1a69d7a7324d/download/thumb.png","title":"Apollo 16 Panorama - Station 4"},{"abstract":"The panorama was collected by Charles Moss Duke at Station 5. John Watts Young is at the back of the rover adjusting the high-gain antenna. The panorama is made from the frame","geoform":["Panorama"],"name":"apollo_16_panorama_station_5b","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_station_5b","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/aef412ba-4e2e-45bc-8f18-1a535c755d5c/resource/7d38f776-dddc-40f2-952e-7f8f95765e1a/download/thumb.png","title":"Apollo 16 Panorama - Station 5b"},{"abstract":"The panorama was collected by Charles Moss Duke at Station 4. John Watts Young is at the rover. The panorama is made from the frame set AS16-110-17952 to 17974.","geoform":["Panorama"],"name":"apollo_16_panorama_station_4b","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_station_4b","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/9bbb94b8-cda7-424e-8d35-35f99d904bd1/resource/47bcb2f8-89a7-41f1-a448-8102117a88d8/download/thumb.png","title":"Apollo 16 Panorama - Station 4b"},{"abstract":"The panorama was collected by John Watts Young at the end of EVA-2. Charles Moss Duke is working at the rover. The lander can be seen in the distance to the right","geoform":["Panorama"],"name":"apollo_16_panorama_eva_2","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_eva_2","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/1ddd00d8-33e2-42cc-b200-db926aef2218/resource/0bfadcc5-ea9e-4169-9bd5-66f919d291e2/download/thumb.png","title":"Apollo 16 Panorama - EVA 2"},{"abstract":"The panorama was collected by Charles Moss Duke. John Watts Young is near the rover (to the right of the lander) collecting a rock sample. To the right of the lander is","geoform":["Panorama"],"name":"apollo_16_panorama_landing_site","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_landing_site","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/fc71ffd9-0500-4388-a9cc-971e99789ca2/resource/ca35bc1a-d454-44a3-8ed4-9c3511b9b24e/download/thumb.png","title":"Apollo 16 Panorama - Landing Site"},{"abstract":"The panorama was collected by Charles Moss Duke, standing at the 4 O'clock position in relationship to the lander. John Watts Young sits on the rover next to the lander. The panorama","geoform":["Panorama"],"name":"apollo_16_panorama_lander","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_lander","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/fb3b457c-ddf2-43b9-9792-3ebf78d2270a/resource/524fd871-da86-44d7-859e-0aa9eb98f63c/download/thumb.png","title":"Apollo 16 Panorama - Lander"},{"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":"moon_lac_16_compton_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_16_compton_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c52cd60c-8d85-42bd-847e-0c523d79fa1c/resource/9d9bd7dc-b99a-418d-b3e0-93876bdf3947/download/thumb.png","title":"Moon LAC-16 Compton Nomenclature"},{"abstract":"Collection of the double core sample at Station 10 Prime. Charles Moss Duke has driven both sections of the core into the ground and is holding the hammer.","geoform":["3D","Anaglyph"],"name":"apollo_16_anaglyph_3d_charles_moss_duke_collecting_core_samples","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_anaglyph_3d_charles_moss_duke_collecting_core_samples","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/3778fe4a-9624-439b-a1af-0afd76e6ce0a/resource/f40a5a1c-5b04-4184-982d-b65ac619f97d/download/thumb.png","title":"Apollo 16 Anaglyph/3D - Charles Moss Duke Collecting Core Samples"},{"abstract":"John Watts Young working at the back of the rover.","geoform":["3D","Anaglyph"],"name":"apollo_16_anaglyph_3d_john_watts_young_at_the_back_of_the_rover","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_anaglyph_3d_john_watts_young_at_the_back_of_the_rover","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/dd118e49-8a12-420d-b735-87985d863a8a/resource/f85de819-2108-4821-8057-3cb2b30c341b/download/thumb.png","title":"Apollo 16 Anaglyph/3D - John Watts Young at the back of the rover"},{"abstract":"The panorama was collected by James B. Irwin at Station 2. David Scott is to the left of the rover. He is examining a boulder. The large hill to the left of","geoform":["Panorama"],"name":"apollo_15_panorama_station_2b","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_panorama_station_2b","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/77879e99-f8c4-4016-a46e-70398401bd7f/resource/31b25a56-68b0-426c-86aa-d68d8756cc45/download/thumb.png","title":"Apollo 15 Panorama - Station 2b"},{"abstract":"The panorama was collected by James B. Irwin at the ALSEP site at the end of EVA-2. The Passive Seismometer Experiment (PSE) and the Central Station are in the close foreground. A","geoform":["Panorama"],"name":"apollo_15_panorama_alsep_site","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_panorama_alsep_site","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/3e37a6e6-199a-4bb6-aa64-6b5db92a2e98/resource/6881a9ac-56cb-4a66-bc81-c654c9a998e3/download/thumb.png","title":"Apollo 15 Panorama - ALSEP Site"},{"abstract":"The panorama was collected by James B. Irwin from north of the lander. The Solar Wind Collector is to the right of the lander in the distance. David Scott is at the","geoform":["Panorama"],"name":"apollo_15_panorama_north_of_the_lander","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_panorama_north_of_the_lander","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/9ec5f822-eb17-40ef-9ccf-4e84fce02a22/resource/1c4bd387-a19f-40af-89d7-4488c891fe54/download/thumb.png","title":"Apollo 15 Panorama - North of the Lander"},{"abstract":"The panorama was collected by David Scott at the VIP site. The lander can be seen in the distance. James B. Irwin is to the right of lander. The rover is parked","geoform":["Panorama"],"name":"apollo_15_panorama_vip_site","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_panorama_vip_site","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/eb3c930a-c724-41ba-9b9c-d76a89e21f71/resource/3c58d949-9587-42ca-b5f0-8f8d0e93b3c3/download/thumb.png","title":"Apollo 15 Panorama - VIP Site"},{"abstract":"The panorama was collected by James B. Irwin at Station 9a. David Scott is at the rover getting a camera that is stored beneath the seat. The panorama is made from the","geoform":["Panorama"],"name":"apollo_15_panorama_station_9a","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_panorama_station_9a","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/6468b973-7e42-41df-b94f-0c16fe2aceed/resource/2c541c35-11b8-4876-bea3-70efd7acbf48/download/thumb.png","title":"Apollo 15 Panorama - Station 9a"},{"abstract":"The panorama was collected by David Scott during the Stand-up EVA. The panorama is made from the frame set AS15-85-11353 to 11382.","geoform":["Panorama"],"name":"apollo_15_panorama_stand_up_eva","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_panorama_stand_up_eva","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/62b767cf-e6cf-4260-b029-56ad82efdfc1/resource/d12f420a-d138-490e-b89d-1e5c77377af3/download/thumb.png","title":"Apollo 15 Panorama - Stand-up EVA"},{"abstract":"The panorama was collected by James B. Irwin at Station 7. David Scott is at the rover examining a vise. The panorama is made from the frame set AS15-82-11047 to 11064.","geoform":["Panorama"],"name":"apollo_15_panorama_station_7","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_panorama_station_7","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/a34b5164-2bee-4b5e-af78-316b505b4d41/resource/4f741bb0-2e36-4005-a1e0-d5970a5c4694/download/thumb.png","title":"Apollo 15 Panorama - Station 7"},{"abstract":"The panorama was collected by James B. Irwin at Station 2. David Scott is to the left of the rover. He is examining a boulder. The large hill to the left of","geoform":["Panorama"],"name":"apollo_15_panorama_station_2","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_panorama_station_2","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/c20f0beb-8c07-498f-bfdb-8e78729f38e5/resource/5eec690e-5496-4e99-b63e-7a9d1dd7372d/download/thumb.png","title":"Apollo 15 Panorama - Station 2"},{"abstract":"","geoform":["Traverse Map"],"name":"apollo_15_traverse_map","onlink":"https://astrogeology.usgs.gov/search/map/apollo_15_traverse_map","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/53715fe6-16b4-4920-9ff4-b5919b4e144c/resource/58f209f5-5e33-41af-ab75-7de411124e42/download/thumb.png","title":"Apollo 15 Traverse 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":"moon_lac_15_belkovich_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_15_belkovich_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8fc5d2e0-b96c-44e3-a069-847f22ab60b3/resource/666cd10f-d782-4481-9e35-b9258f1f8c95/download/thumb.png","title":"Moon LAC-15 Belkovich Nomenclature"},{"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":"moon_lac_144_amundsen_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_144_amundsen_nomenclature","pubdate":"2015-05-04","thumb":"https://astrogeology.usgs.gov/ckan/dataset/11684a03-f0df-4d9f-bd81-ddcb7cf1ee18/resource/f68e2d8b-8979-40d9-8db9-51efed2fdbde/download/thumb.png","title":"Moon LAC-144 Amundsen Nomenclature"},{"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":"moon_lac_143_hausen_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_143_hausen_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b8e62e1b-bc9b-4add-b6dd-58ce04e51b84/resource/cf711f6f-2d3f-459e-bb9d-b1b5f5f58e0c/download/thumb.png","title":"Moon LAC-143 Hausen Nomenclature"},{"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":"moon_lac_142_zeeman_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_142_zeeman_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/2e2b0c3e-ae2d-439d-a468-72e8ad75c7c7/resource/f33b1d29-529e-4b84-9732-927ee6635a81/download/thumb.png","title":"Moon LAC-142 Zeeman Nomenclature"},{"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":"moon_lac_141_minnaert_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_141_minnaert_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8dda73ee-6868-4f03-971c-47dcdf5185a1/resource/e624f082-2fde-4fdb-a756-c07e3f223cac/download/thumb.png","title":"Moon LAC-141 Minnaert Nomenclature"},{"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":"moon_lac_140_schr_dinger_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_140_schr_dinger_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b0e9441d-b725-4948-a162-bb11dc2aceca/resource/42881403-a554-401e-aabf-40b462f1c989/download/thumb.png","title":"Moon LAC-140 Schr\u00c3\u00b6dinger Nomenclature"},{"abstract":"The panorama was collected by Alan Shepard at station C-Prime. It is made from the frame set AS14-64-9098 to 9122.","geoform":["Panorama"],"name":"apollo_14_panorama_station_c_prime","onlink":"https://astrogeology.usgs.gov/search/map/apollo_14_panorama_station_c_prime","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/d74ef8d7-8bff-440a-8550-facd7c834460/resource/ce4ebfc8-7752-41d2-ac66-6ae1571e0bef/download/thumb.png","title":"Apollo 14 Panorama - Station C-Prime"},{"abstract":"The panorama was collected by Alan Shepard at station G. Edgar Dean is at the MET, a empty core-cap dispenser at center. The northern portion of the Cone Crater ridge is in","geoform":["Panorama"],"name":"apollo_14_panorama_station_g","onlink":"https://astrogeology.usgs.gov/search/map/apollo_14_panorama_station_g","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/a8298a0a-786d-45a6-8257-78db0d09ce55/resource/7e79ad9b-4279-4633-a8ee-8a12254c73f4/download/thumb.png","title":"Apollo 14 Panorama - Station G"},{"abstract":"The panorama was collected by Edgar Dean at station H. Alan Shepard is to the left of the lander aiming the TV camera at the MESA. The panorama is made from the","geoform":["Panorama"],"name":"apollo_14_panorama_station_h","onlink":"https://astrogeology.usgs.gov/search/map/apollo_14_panorama_station_h","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/559b41d4-6ef9-44eb-8dfb-8e1b3ac6866a/resource/90779320-9319-4e68-95ed-9bcb1a044ce8/download/thumb.png","title":"Apollo 14 Panorama - Station H"},{"abstract":"The panorama was collected by Alan Shepard at station F. It is made from the frame set AS14-64-9137 to 9157.","geoform":["Panorama"],"name":"apollo_14_panorama_station_f","onlink":"https://astrogeology.usgs.gov/search/map/apollo_14_panorama_station_f","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/36c996b0-b7d0-4925-b542-34bace2443c2/resource/16850f9b-e9ff-4b61-b844-773353c03d65/download/thumb.png","title":"Apollo 14 Panorama - Station F"},{"abstract":"","geoform":["Traverse Map"],"name":"apollo_14_traverse_map","onlink":"https://astrogeology.usgs.gov/search/map/apollo_14_traverse_map","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/b09ed0ca-0376-43f3-8972-4706d440a314/resource/f1ad2068-c6d4-4dbb-8556-90e065e58466/download/thumb.png","title":"Apollo 14 Traverse 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":"moon_lac_14_endymion_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_14_endymion_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/63e427c3-dedf-41ca-9568-d60abc3dcfd0/resource/1ecd690e-0028-4454-b1f9-fca3b846cbdc/download/thumb.png","title":"Moon LAC-14 Endymion Nomenclature"},{"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":"moon_lac_139_helmholtz_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_139_helmholtz_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0b713c42-0eb2-409d-854e-a53983437b53/resource/0fc3f150-c7e0-4fde-a5ed-2ddf3afc72b5/download/thumb.png","title":"Moon LAC-139 Helmholtz Nomenclature"},{"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":"moon_lac_138_manzinus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_138_manzinus_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1d83b598-eca4-4327-9024-339a2f1a34c4/resource/6148c6b9-1059-434c-82f3-bb55e9f80867/download/thumb.png","title":"Moon LAC-138 Manzinus Nomenclature"},{"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":"moon_lac_137_moretus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_137_moretus_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/dd5992c0-2ba6-40c9-8781-691e2791c481/resource/2cb2e60b-554d-47fc-a607-0561504fabe7/download/thumb.png","title":"Moon LAC-137 Moretus Nomenclature"},{"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":"moon_lac_136_bally_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_136_bally_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/fe6fd104-d8f6-4f2c-aeee-8c71fb606fc0/resource/651e6fd2-48d3-47e6-8875-b4b1761f6fa8/download/thumb.png","title":"Moon LAC-136 Bally Nomenclature"},{"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":"moon_lac_135_arrhenius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_135_arrhenius_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/47276c5a-bd57-4824-957a-3fa415248b4d/resource/61a423d3-ae78-47f4-a3a3-2900ea7dbc7e/download/thumb.png","title":"Moon LAC-135 Arrhenius Nomenclature"},{"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":"moon_lac_134_fizeau_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_134_fizeau_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/3634a263-9bf8-48c0-a891-de667bd3162d/resource/efab50bc-599a-46af-b341-c388da0179c5/download/thumb.png","title":"Moon LAC-134 Fizeau Nomenclature"},{"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":"moon_lac_133_minkowski_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_133_minkowski_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/17e1c388-8584-46de-99f0-7496733e6245/resource/5ef332ea-7e14-4034-9933-a9268d83822f/download/thumb.png","title":"Moon LAC-133 Minkowski Nomenclature"},{"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":"moon_lac_132_hess_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_132_hess_nomenclature","pubdate":"2016-02-29","thumb":"https://astrogeology.usgs.gov/ckan/dataset/5953e14b-0d4e-4124-8ee9-eaa4c9c480a4/resource/968e5d0b-11de-4932-a7be-3574c0350501/download/thumb.png","title":"Moon LAC-132 Hess Nomenclature"},{"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":"moon_lac_131_planck_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_131_planck_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/fbe5a8ba-08eb-4032-9b3c-39b9e80f51a8/resource/94d4fa24-428b-4e4b-8cff-0b58ac171d65/download/thumb.png","title":"Moon LAC-131 Planck Nomenclature"},{"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":"moon_lac_130_fechner_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_130_fechner_nomenclature","pubdate":"2016-02-29","thumb":"https://astrogeology.usgs.gov/ckan/dataset/fa6eeb1b-d4b9-4ecd-8225-fcf5f1477e58/resource/f577654d-ab3e-4cc7-b324-0a2e9484218f/download/thumb.png","title":"Moon LAC-130 Fechner Nomenclature"},{"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":"moon_lac_13_aristoteles_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_13_aristoteles_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/14a4933f-3aed-48bd-ac10-6f6c303b790e/resource/30039ad0-bd1e-4091-90f4-7e1a132590fd/download/thumb.png","title":"Moon LAC-13 Aristoteles Nomenclature"},{"abstract":"The panorama was collected by Charles Moss Duke at Station 13. John Watts Young is at the Rover adjusting the TV camera. Shadow Rock is to the right of the rover. The","geoform":["Panorama"],"name":"apollo_16_panorama_station_13","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_station_13","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/245815bd-daeb-48ef-a36a-d4c7ca7b7a27/resource/fb3b068a-6e26-4a17-a922-1d1125008a7f/download/thumb.png","title":"Apollo 16 Panorama - Station 13"},{"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":"moon_lac_129_lyot_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_129_lyot_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8d5bbe71-7274-4699-a684-70e281cb25e5/resource/aef3e3b7-5940-4b26-92ce-eb8989540f2d/download/thumb.png","title":"Moon LAC-129 Lyot Nomenclature"},{"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":"moon_lac_128_biela_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_128_biela_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/3807e5ec-6abb-44e3-a4d8-11bc621a1072/resource/f69deb50-ab1a-4437-a56d-4b7d31e8b959/download/thumb.png","title":"Moon LAC-128 Biela Nomenclature"},{"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":"moon_lac_127_hommel_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_127_hommel_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d7a8cd98-241d-487b-bc4d-8f89c29faa63/resource/a99f77ec-5194-4171-a89c-6b2ed8a4e4ce/download/thumb.png","title":"Moon LAC-127 Hommel Nomenclature"},{"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":"moon_lac_126_clavius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_126_clavius_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/7af5455a-19a1-4f0e-b245-13e57d92d2d3/resource/6a236768-0d92-459d-9fe8-09e346c7d3cc/download/thumb.png","title":"Moon LAC-126 Clavius Nomenclature"},{"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":"moon_lac_125_schiller_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_125_schiller_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a31062ac-d9e1-4d49-a525-b937d1432d22/resource/b2dc68d8-7655-4fb3-87de-1fe8b456d0c9/download/thumb.png","title":"Moon LAC-125 Schiller Nomenclature"},{"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":"moon_lac_124_phocylides_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_124_phocylides_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/02b6e245-e730-403a-bc1b-b9ad65737bb8/resource/d4a955c4-fba4-46fa-984d-52c7d037c8cf/download/thumb.png","title":"Moon LAC-124 Phocylides Nomenclature"},{"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":"moon_lac_123_rydberg_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_123_rydberg_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/68ba855e-f377-4348-92d4-440accc07f1d/resource/439c7f2e-fce8-42f5-84a8-b32af345fbdc/download/thumb.png","title":"Moon LAC-123 Rydberg Nomenclature"},{"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":"moon_lac_122_brouwer_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_122_brouwer_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1ecf96ec-bde6-4d38-8578-7a8c3a36e573/resource/214f2084-bd80-4aa7-aaec-f35b1c591be8/download/thumb.png","title":"Moon LAC-122 Brouwer Nomenclature"},{"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":"moon_lac_121_apollo_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_121_apollo_nomenclature","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/e73f507d-f9ec-4d65-927c-e22aa3c48b68/resource/fb89b59c-15cf-4261-8e0f-6c9a711c1b96/download/thumb.png","title":"Moon LAC-121 Apollo Nomenclature"},{"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":"moon_lac_120_oppenheimer_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_120_oppenheimer_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/c633de6e-e3bc-40d0-9bb7-0a859405f4d0/resource/13b0cc19-1be0-4d5a-a059-19eecb7c472f/download/thumb.png","title":"Moon LAC-120 Oppenheimer Nomenclature"},{"abstract":"The panorama was collected by Charles \"Pete\" Conrad.","geoform":["Panorama"],"name":"apollo_12_color_panorama","onlink":"https://astrogeology.usgs.gov/search/map/apollo_12_color_panorama","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/45e36c26-dc01-4d08-8072-c46fd4762837/resource/1348cfca-22c2-4e96-b6e9-91355df94035/download/thumb.png","title":"Apollo 12 Color Panorama"},{"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":"moon_lac_12_plato_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_12_plato_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0fc0df11-6bd1-47c7-bcd6-d072ca5ff82b/resource/4d1139e3-6ba8-4fbd-9ea8-24650c2c871d/download/thumb.png","title":"Moon LAC-12 Plato Nomenclature"},{"abstract":"","geoform":["Traverse Map"],"name":"apollo_12_traverse_map","onlink":"https://astrogeology.usgs.gov/search/map/apollo_12_traverse_map","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/79459a5d-f8a7-4b49-b996-0c2bd373eaa5/resource/52ccf44b-8e9d-42bd-ac39-a5ef380062c5/download/thumb.png","title":"Apollo 12 Traverse 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":"moon_lac_119_mare_ingenii_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_119_mare_ingenii_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a7c89b64-1007-4907-badd-f14a2fc3be66/resource/933ddfa0-a975-4282-b56f-8949f93dc3ff/download/thumb.png","title":"Moon LAC-119 Mare Ingenii Nomenclature"},{"abstract":"<b>Product Information:</b> The Clementine Ultraviolet/Visible (UVVIS) Version 2 mosaic is a grayscale data set representing the albedo (brightness of the lunar surface) as measured at the 750 nanometer (nm) wavelength by the","geoform":["Global Mosaic","Image","Remote-sensing Data"],"name":"moon_clementine_uvvis_global_mosaic_118m","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_uvvis_global_mosaic_118m","pubdate":"2009-04-09","thumb":"https://astrogeology.usgs.gov/ckan/dataset/359afbec-7f0d-4020-9453-3fb57f8ea651/resource/87456134-265c-4d0c-a20f-84d9d7d96273/download/lunar_clementine_uvvis_750nm_global_mosaic_100.jpg","title":"Moon Clementine UVVIS Global Mosaic 118m"},{"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":"moon_lac_118_jules_verne_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_118_jules_verne_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f22bdaba-3626-49aa-912e-6c7104988605/resource/b238cff8-e574-4b92-a264-b3282a0ed74c/download/thumb.png","title":"Moon LAC-118 Jules Verne Nomenclature"},{"abstract":"<b>Product Information:</b> This digital elevation model (DEM) is based on data from the Lunar Orbiter Laser Altimeter (LOLA; Smith et al., 2010), an instrument on the National Aeronautics and Space Agency (NASA)","geoform":["Digital Elevation Model","Remote-sensing Data","Topographic Map"],"name":"moon_lro_lola_dem_118m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lro_lola_dem_118m","pubdate":"2014-03-11","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8d95ec67-e637-4b48-88ed-84e1f95660fc/resource/984785a4-7ba1-47a2-9b7a-e2d0ef96756b/download/thumb.png","title":"Moon LRO LOLA DEM 118m"},{"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":"moon_lac_117_milne_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_117_milne_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8a81d623-4ba3-449c-a7c4-2c6e62240fa4/resource/8b472949-49a9-4c04-a3be-fea00b74d1f0/download/thumb.png","title":"Moon LAC-117 Milne Nomenclature"},{"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":"moon_lac_116_mare_australe_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_116_mare_australe_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/cd947441-43ef-4d5c-9f82-59f8f12ae329/resource/8eb74c4c-ff03-40c5-ae7c-c1c6f4363736/download/thumb.png","title":"Moon LAC-116 Mare Australe Nomenclature"},{"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":"moon_lac_115_furnerius_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_115_furnerius_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/60154c4c-371f-4939-b02c-76bcc8d3d7ff/resource/bae98687-0285-48cc-8ee4-99de9c12aa46/download/thumb.png","title":"Moon LAC-115 Furnerius Nomenclature"},{"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":"moon_lac_114_rheita_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_114_rheita_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/9ccd3163-1a9a-4256-94e6-a75cb06a2240/resource/3e4d2e10-21f2-49e6-b997-2e98219f4684/download/thumb.png","title":"Moon LAC-114 Rheita Nomenclature"},{"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":"moon_lac_113_maurolycus_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_113_maurolycus_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f9f1f8d1-97e0-4037-b44c-8eea9ea19615/resource/dade4ab0-259d-4fcb-b663-c406b3125ff1/download/thumb.png","title":"Moon LAC-113 Maurolycus Nomenclature"},{"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":"moon_lac_112_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_112_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/99b98212-e0d5-4b92-ba82-f7567ce5308a/resource/c3a24550-2899-42dc-be6f-21c099aca2b8/download/thumb.png","title":"Moon LAC-112 Nomenclature"},{"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":"moon_lac_111_wilhelm_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_111_wilhelm_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/6c7529ed-359b-4216-a14c-010a709ca669/resource/da806a0e-7471-4b7e-a09e-0799e0031bbb/download/thumb.png","title":"Moon LAC-111 Wilhelm Nomenclature"},{"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":"moon_lac_110_schickard_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_110_schickard_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/858d2894-4fbc-4d37-8c62-4bf18c697d15/resource/38eaa438-b099-4c81-909f-e7d693fa530d/download/thumb.png","title":"Moon LAC-110 Schickard Nomenclature"},{"abstract":"The panorama was collected by John Watts Young at Station 11. Charles Moss Duke is at the lander. Panning right from the rover the landscape falls off into North Ray Crater, the","geoform":["Panorama"],"name":"apollo_16_panorama_station_11","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_station_11","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/1cb2275d-b2fd-4f10-b72b-1ae84b6e2745/resource/2a0560fa-dfa1-43b2-86d9-1d097042c452/download/thumb.png","title":"Apollo 16 Panorama - Station 11"},{"abstract":"This panorama was collected by Neil Armstrong from a spot east of the landing module while Buzz Aldrin was unloading the science packages. 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Herschel Nomenclature"},{"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":"moon_lac_109_vallis_inghirami_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_109_vallis_inghirami_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/84cf4828-0596-4aeb-932b-57793964e207/resource/b63dd435-9de6-4b89-a8f1-62fff39236af/download/thumb.png","title":"Moon LAC-109 Vallis Inghirami Nomenclature"},{"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":"moon_lac_108_mare_orientale_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_108_mare_orientale_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/04cbe097-6a1d-41a5-aec5-c0f5e562d118/resource/f4085496-b72c-4594-a0d2-7e1c9ac51339/download/thumb.png","title":"Moon LAC-108 Mare Orientale Nomenclature"},{"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":"moon_lac_107_houzeau_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_107_houzeau_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a39bf946-f55e-4bfd-9ec2-61314db85bd4/resource/e83047b4-8674-4d52-9c19-095c776c1988/download/thumb.png","title":"Moon LAC-107 Houzeau 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(Hargitai","geoform":["Nomenclature"],"name":"moon_lac_105_mohorovicic_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_105_mohorovicic_nomenclature","pubdate":"2013-01-24","thumb":"https://astrogeology.usgs.gov/ckan/dataset/15bb6bcd-b3df-4999-8921-3b0ef00c0d53/resource/b6b1a922-e2c8-4c24-a18c-089e94ff4314/download/thumb.png","title":"Moon LAC-105 Mohorovicic Nomenclature"},{"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":"moon_lac_104_van_de_graaff_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_104_van_de_graaff_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/bf0f337a-62c2-4f4d-8eb1-92b8e407a26a/resource/f76dbcee-a6cf-43aa-8d53-a8a62bd66359/download/thumb.png","title":"Moon LAC-104 Van de Graaff Nomenclature"},{"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":"moon_lac_103_o_day_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_103_o_day_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f295feb7-c2db-4171-b2e1-c7989cee204b/resource/7b3dcf92-4e27-4c28-ad78-64de3ea5a7a8/download/thumb.png","title":"Moon LAC-103 O'Day Nomenclature"},{"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":"moon_lac_102_gagarin_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_102_gagarin_nomenclature","pubdate":"2015-03-31","thumb":"https://astrogeology.usgs.gov/ckan/dataset/cc6d3258-bd4b-4e8a-8fa7-148467b477fb/resource/0f629f9c-0bf6-49ee-8bc6-b2c87d56b267/download/thumb.png","title":"Moon LAC-102 Gagarin Nomenclature"},{"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":"moon_lac_101_fermi_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_101_fermi_nomenclature","pubdate":"2017-07-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/1e8330fb-5b89-433c-b089-f42635de48cd/resource/def46693-6786-4a25-846f-7cc298a7001b/download/thumb.png","title":"Moon LAC-101 Fermi Nomenclature"},{"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":"moon_lac_100_hilbert_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_100_hilbert_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/97a8273f-69f0-48b8-8090-46eecccf5ffb/resource/91c0d1cb-fbb8-4f5e-a2b2-65bf90165c22/download/thumb.png","title":"Moon LAC-100 Hilbert Nomenclature"},{"abstract":"<b>Product Information:</b> Lunar Reconnaissance Orbiter Camera (LROC) Wide Angle Camera (WAC) aboard the Lunar Reconnaissance Orbiter (LRO) has allowed the instrument team to create a global mosaic comprised of over 15,000 images","geoform":["Global Mosaic","Raster Data","Remote-sensing Data"],"name":"moon_lro_lroc_wac_global_morphology_mosaic_100m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lro_lroc_wac_global_morphology_mosaic_100m","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/db948a2d-4d6a-4775-a0d3-12613d36f9e7/resource/9c0ea819-5bbd-464d-b402-bf36621c7bdb/download/moon_lro_lroc-wac_mosaic_global_100.jpg","title":"Moon LRO LROC WAC Global Morphology Mosaic 100m"},{"abstract":"<b>Product Information:</b> This product represents a near-global lunar topography from stereo image data acquired by the Wide-angle Camera (WAC) of the Lunar Reconnaissance Orbiter Camera (LROC) system (Robinson et al., 2010). From","geoform":["Remote-sensing Data","Shaded-Relief Map","Topographic Map"],"name":"moon_lroc_wac_gld100_colorshade_79s79n_118m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lroc_wac_gld100_colorshade_79s79n_118m","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/703d1e3b-ea84-4aee-aafb-63428939e5dd/resource/55ca5caf-f608-4c63-8be9-cf7d485c18f2/download/lunar_lroc_wac_gld100_clrshade_79s79n_100.jpg","title":"Moon LROC WAC GLD100 ColorShade 79S79N 118m"},{"abstract":"<b>Product Information:</b> This product represents a near-global lunar topography from stereo image data acquired by the Wide-angle Camera (WAC) of the Lunar Reconnaissance Orbiter Camera (LROC) system (Robinson et al., 2010). From","geoform":["Digital Elevation Model","Remote-sensing Data"],"name":"moon_lroc_wac_dtm_gld100_118m","onlink":"https://astrogeology.usgs.gov/search/map/moon_lroc_wac_dtm_gld100_118m","pubdate":"2013-08-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/3ece91cd-d745-4d7f-9c75-377d32c7e3c2/resource/cc4a702d-910a-445e-ad22-4e0695631574/download/lunar_lroc_wac_gld100_79s79n_100.jpg","title":"Moon LROC WAC DTM GLD100 118m"},{"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":"moon_lac_10_pythagoras_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_10_pythagoras_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d7a87d4c-b5a3-4bf7-a5ef-95b54bb752a7/resource/7e226138-b0c5-483c-8c0c-2b7da7f785ed/download/thumb.png","title":"Moon LAC-10 Pythagoras Nomenclature"},{"abstract":"<b>Product Information:</b> Clementine derived iron abundance (as weight percent iron oxide [FeO]) data. This FeO map is derived from Clementine Ultraviolet/Visible camera (UVVIS) data as described by Lawrence et al., 2002. FeO","geoform":["Mineral Map","Raster Data"],"name":"moon_clementine_uvvis_feo_color_binned_1km","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_uvvis_feo_color_binned_1km","pubdate":"2002-01-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/960891f8-99e0-4c4b-bf14-248e07ea6c75/resource/6c5d861d-3877-4178-9094-e1d386b749ff/download/thumb.png","title":"Moon Clementine UVVIS FeO Color Binned 1km"},{"abstract":"<b>Product Information:</b> Stereoimagery from the U.S. National Aeronautics and Space Administration's Clementine mission has been used to produce digital elevation models (DEM) of the Moon, at a scale of approximately one kilometer","geoform":["Digital Elevation Model"],"name":"moon_clementine_south_pole_dem_1km","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_south_pole_dem_1km","pubdate":"2001-09-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/93272f07-4750-4a61-9dfa-c6ae8ab6dfe9/resource/eb986cc6-7d89-4ac9-a699-5d221a152975/download/thumb.png","title":"Moon Clementine South Pole DEM 1km"},{"abstract":"<b>Product Information:</b> Stereoimagery from the U.S. National Aeronautics and Space Administration's Clementine mission has been used to produce digital elevation models (DEM) of the Moon, at a scale of approximately one kilometer","geoform":["Digital Elevation Model"],"name":"moon_clementine_north_pole_dem_1km","onlink":"https://astrogeology.usgs.gov/search/map/moon_clementine_north_pole_dem_1km","pubdate":"2001-08-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/222d7218-cfa3-46fd-b756-ec09d9bff2fe/resource/0e6a6cc2-2e64-4415-90f4-4336a6d307f8/download/thumb.png","title":"Moon Clementine North Pole DEM 1km"},{"abstract":"<b>Product Information:</b> The catalogues by McDowell, Rodionova, and Head have been integrated with the results of a Crater Shape-based interpolation crater detection algorithm (CDA) and Lunar Orbiter Laser Altimeter (LOLA) data, resulting","geoform":["Digital Elevation Model","Vector Data"],"name":"moon_crater_database_v1_salamuni_car","onlink":"https://astrogeology.usgs.gov/search/map/moon_crater_database_v1_salamuni_car","pubdate":"2012-08-08","thumb":"https://astrogeology.usgs.gov/ckan/dataset/144c1f05-de7f-4e45-aa6d-5ca04622bcb1/resource/bc03f33b-1020-480f-9f35-222a8abd5f7e/download/lu78287gt_moon2000_thumb.png","title":"Moon Crater Database v1 Salamuni\u00c4\u0087car"},{"abstract":"The <a href=\" https://pdsimage2.wr.usgs.gov/Individual_Investigations/moon_lro_lroc_boulderdata_watkins_2018/\"><b> Lunar Boulder Database</b></font></a> contains boulder distributions around small (< 1 km), young (< 200 Ma) lunar impact craters located near spacecraft landing sites. Boulders were manually identified and","geoform":["Tabular Data"],"name":"moon_lro_lroc_nac_boulder_database_v1_watkins","onlink":"https://astrogeology.usgs.gov/search/map/moon_lro_lroc_nac_boulder_database_v1_watkins","pubdate":"2019-09-09","thumb":"https://astrogeology.usgs.gov/ckan/dataset/d4bbacd8-b059-4d9f-b841-bba280fccb25/resource/dcd998b6-f618-48e8-b16a-710949364e18/download/lunar_boulder_image_100.png","title":"Moon LRO LROC NAC Boulder Database v1 Watkins"},{"abstract":"The panorama was collected by Alan Shepard at station B-1. Edgar Dean Mitchell is looking at a map trying to determine their location. The panorama is made from the frame set AS14-64-9075","geoform":["Panorama"],"name":"apollo_14_panorama_station_b_1","onlink":"https://astrogeology.usgs.gov/search/map/apollo_14_panorama_station_b_1","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/40b19ce2-ca0a-42bb-a7f7-eae8691c87f2/resource/525e5f78-ece5-431b-8a3d-01a927292dc0/download/thumb.png","title":"Apollo 14 Panorama - Station B-1"},{"abstract":"","geoform":["Geologic Map","Raster Data","Vector Data"],"name":"moon_geologic_map_of_apollo_landing_site_1","onlink":"https://astrogeology.usgs.gov/search/map/moon_geologic_map_of_apollo_landing_site_1","pubdate":"1970-10-09","thumb":"https://astrogeology.usgs.gov/ckan/dataset/751fbd98-208f-4794-ac8d-3253fd1c7f2f/resource/3012adf9-3568-425a-914a-e348d1e570fb/download/thumb.png","title":"Moon Geologic Map of Apollo Landing Site 1"},{"abstract":"This is a shape-from-shading (SfS or photoclinometry) digital elevation model (DEM) for the Haworth area. The Haworth area is beyond the north rim of Haworth crater and centered at 338.0 (-21.0) E,","geoform":["Digital Elevation Model","Grey Scale","Raster Data","Remote-sensing Data","Shaded-Relief Map","Topographic Map"],"name":"lunar_lro_nac_haworth_photoclinometry_dem_1m","onlink":"https://astrogeology.usgs.gov/search/map/lunar_lro_nac_haworth_photoclinometry_dem_1m","pubdate":"2021-01-15","thumb":"https://astrogeology.usgs.gov/ckan/dataset/9f98eebc-0202-43e9-abcc-fe302867afca/resource/d6ce8d79-2fbd-4991-be37-58ea6d7f49a1/download/lunar_lronac_haworth_100.jpg","title":"Lunar LRO NAC Haworth Photoclinometry DEM 1m"},{"abstract":"The panorama was collected by Charles Moss Duke at Station 1. Flag Crater is above and to the right of Charlie's shadow. Plum Crater is above and to the left of Charlie's","geoform":["Panorama"],"name":"apollo_16_panorama_station_1","onlink":"https://astrogeology.usgs.gov/search/map/apollo_16_panorama_station_1","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/46b318a9-3f95-4dad-a4c1-62e35cbfdf04/resource/14a6296a-0cbd-45c8-bcdb-560868434c2b/download/thumb.png","title":"Apollo 16 Panorama - Station 1"},{"abstract":"The panorama was collected by Eugene Andrew Cernan at Station 1. Harrison H. \"Jack\" Schmitt is holding the rake. The panorama is made from the frame set AS17-134-20408 to 20431.","geoform":["Panorama"],"name":"apollo_17_panorama_station_1","onlink":"https://astrogeology.usgs.gov/search/map/apollo_17_panorama_station_1","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/e4187334-061d-45c5-90ca-64dd6d480a3a/resource/40d62e45-71ef-4b3a-907d-56de07ad111a/download/thumb.png","title":"Apollo 17 Panorama - Station 1"},{"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":"moon_lac_1_peary_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/moon_lac_1_peary_nomenclature","pubdate":"2013-01-25","thumb":"https://astrogeology.usgs.gov/ckan/dataset/4aba0d28-36ca-4030-bcce-377c4be05505/resource/f55509e0-a35b-4dab-8bf9-faab0a6953a1/download/thumb.png","title":"Moon LAC-1 Peary Nomenclature"},{"abstract":"These maps are a series of geologic maps that cover the entire Moon at a scale of 1:5,000,000 originally created in the 1970's. Because of increasing emphasis on lunar studies from recent","geoform":["Geologic Map","Vector Data"],"name":"lunar_1_5m_geologic_map_renovation_2013","onlink":"https://astrogeology.usgs.gov/search/map/lunar_1_5m_geologic_map_renovation_2013","pubdate":"2013-03-12","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a67677f2-469c-4646-9942-c94e9b282b02/resource/eeca482e-3038-4e5d-8da8-b6bd4a69d7f7/download/lunargeologic_renovation_thumb.jpg","title":"Lunar 1:5M Geologic Map Renovation, 2013"},{"abstract":"<b>Product Information:</b> The <a href=\" https://pdsimage2.wr.usgs.gov/Individual_Investigations/moon_lro.kaguya_multi_craterdatabase_robbins_2018/\"><b> Lunar Crater Database</b></font></a> contains approximately 1.3 million lunar impact craters and is approximately complete for all craters larger than about 1-2 km in diameter (Robbins, 2019).","geoform":["Database","Vector Data"],"name":"moon_crater_database_v1_robbins","onlink":"https://astrogeology.usgs.gov/search/map/moon_crater_database_v1_robbins","pubdate":"2018-08-15","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f89f5478-b69a-486c-b9b5-30d7b0c5ad2b/resource/70a2db1f-4bdd-4e1e-887e-9561b059e00c/download/poster-mooncraterdatabase_100.png","title":"Moon Crater Database v1 Robbins"},{"abstract":"This new work represents a seamless, globally consistent, 1:5,000,000-scale geologic map derived from the six digitally renovated geologic maps (see Source Online Linkage below). The goal of this project was to create","geoform":["Geologic Map"],"name":"unified_geologic_map_of_the_moon_1_5m_2020","onlink":"https://astrogeology.usgs.gov/search/map/unified_geologic_map_of_the_moon_1_5m_2020","pubdate":"2020-03-03","thumb":"https://astrogeology.usgs.gov/ckan/dataset/85606456-bb36-4515-b3b9-880567f96a23/resource/0cabdce9-7753-43ac-ba34-a6551fa6bc7c/download/unified_geologic_map_of_the_moon_100.jpg","title":"Unified Geologic Map of the Moon, 1:5M, 2020"}],"title":"Moon","total":351}