List_of_craters_on_Mercury
This is a list of named craters on Mercury, the innermost planet of the Solar System (for other features, see list of geological features on Mercury).[2] Most Mercurian craters are named after famous writers, artists and composers. According to the rules by IAU's Working Group for Planetary System Nomenclature, all new craters must be named after an artist that was famous for more than fifty years, and dead for more than three years, before the date they are named.[6] Craters larger than 250 km in diameter are referred to as "basins" (also see § Terminology).[7][8]
- Mercurian: 414 craters (7.9%)
- Lunar: 1,624 craters (31.1%)
- Martian: 1,092 craters (20.9%)
- Venusian: 900 craters (17.2%)
- Others: 1,198 craters (22.9%)
As of 2021, there are 414 named Mercurian craters,[2] a small fraction of the total number of named Solar System craters, most of which are lunar, Martian and Venerian craters.[3][4][5][lower-alpha 1]
Other, non-planetary bodies with numerous named craters include Callisto (141), Ganymede (131), Rhea (128), Vesta (90), Ceres (90), Dione (73), Iapetus (58), Enceladus (53), Tethys (50) and Europa (41). For a full list, see List of craters in the Solar System.
 |
| Crater | Coordinates | Diameter (km) | Approval Year | Eponym | Ref |
|---|---|---|---|---|---|
| Faulkner | 8.08°N 76.97°E / 8.08; 76.97 (Faulkner) | 168 | 2012 | William Faulkner, American author | WGPSN |
| Fet | 4.72°S 179.78°E / -4.72; 179.78 (Fet) | 79 | 1985 | Afanasy Fet, Russian poet | WGPSN |
| Firdousi | 3.47°N 65.32°E / 3.47; 65.32 (Firdousi) | 98 | 2010 | Hakim Ferdowsi, Persian poet | WGPSN |
| Flaubert | 13.83°S 72.7°W / -13.83; -72.7 (Flaubert) | 95 | 1985 | Gustave Flaubert, French author | WGPSN |
| Flaiano | 21.29°S 76.73°W / -21.29; -76.73 (Flaiano) | 43 | 2013 | Ennio Flaiano, Italian author | WGPSN |
| Fonteyn | 32.82°N 95.51°E / 32.82; 95.51 (Fonteyn) | 29 | 2012 | Margot Fonteyn, English ballet dancer | WGPSN |
| Fuller | 82.63°N 42.65°W / 82.63; -42.65 (Fuller) | 26.97 | 2013 | Richard Buckminster Fuller, American engineer and architect | WGPSN |
| Futabatei | 16.05°S 83.52°W / -16.05; -83.52 (Futabatei) | 57 | 1976 | Futabatei Shimei, Japanese author | WGPSN |
| Crater | Coordinates | Diameter (km) | Approval Year | Eponym | Ref |
|---|---|---|---|---|---|
| Ibsen | 24.35°S 35.89°W / -24.35; -35.89 (Ibsen) | 159 | 1976 | Henrik Ibsen, Norwegian playwright | WGPSN |
| Ictinus | 79.56°S 174.24°W / -79.56; -174.24 (Ictinus) | 58.03 | 1976 | Iktinos, Ancient Greek architect | WGPSN |
| Imhotep | 17.97°S 37.48°W / -17.97; -37.48 (Imhotep) | 159 | 1976 | Imhotep, Ancient Egyptian architect | WGPSN |
| Ives | 32.87°S 111.99°W / -32.87; -111.99 (Ives) | 18 | 1979 | Charles Ives, American composer | WGPSN |
| Izquierdo | 1.66°S 107.04°E / -1.66; 107.04 (Izquierdo) | 174 | 2009 | María Izquierdo, Mexican painter | WGPSN |
| Crater | Coordinates | Diameter (km) | Approval Year | Eponym | Ref |
|---|---|---|---|---|---|
| Janáček | 55.72°N 154.85°W / 55.72; -154.85 (Janáček) | 47 | 1985 | Leoš Janáček, Czech composer | WGPSN |
| Jiménez | 81.83°N 152.31°W / 81.83; -152.31 (Jiménez) | 27 | 2019 | Juan Ramón Jiménez, Spanish poet and author | WGPSN |
| Jókai | 71.93°N 138.45°W / 71.93; -138.45 (Jókai) | 93 | 1979 | Mór Jókai, Hungarian writer | WGPSN |
| Jobim | 32.45°N 66.88°W / 32.45; -66.88 (Jobim) | 167 | 2015 | Antônio Carlos Jobim, Brazilian composer | WGPSN |
| Joplin | 38.56°S 25.51°E / -38.56; 25.51 (Joplin) | 139 | 2012 | Scott Joplin, American composer | WGPSN |
| Josetsu | 83.58°N 134.93°W / 83.58; -134.93 (Josetsu) | 30 | 2019 | Taikō Josetsu, Japanese ink painter | WGPSN |
| Judah Ha-Levi | 10.79°N 108.01°W / 10.79; -108.01 (Judah Ha-Levi) | 85 | 1976 | Yehuda Halevi, Spanish-Jewish writer | WGPSN |
| Crater | Coordinates | Diameter (km) | Approval Year | Eponym | Ref |
|---|---|---|---|---|---|
| Ōkyo | 70.05°S 74.66°W / -70.05; -74.66 (Ōkyo) | 66 | 1985 | Maruyama Ōkyo, Japanese painter | WGPSN |
| Oskison | 60.36°N 145.24°E / 60.36; 145.24 (Oskison) | 122 | 2008 | John Milton Oskison, Cherokee author | WGPSN |
| Ovid | 69.77°S 20.23°W / -69.77; -20.23 (Ovid) | 41 | 1976 | Ovid, Roman poet | WGPSN |
| Crater | Coordinates | Diameter (km) | Approval Year | Eponym | Ref |
|---|---|---|---|---|---|
| Wagner | 68.25°S 114.78°W / -68.25; -114.78 (Wagner) | 134 | 1976 | Richard Wagner, German composer | WGPSN |
| Wang Meng | 8.53°N 104.12°W / 8.53; -104.12 (Wang Meng) | 165 | 1976 | Wang Meng, Chinese artist | WGPSN |
| Warhol | 2.55°S 6.27°W / -2.55; -6.27 (Warhol) | 91 | 2012 | Andy Warhol, American artist | WGPSN |
| Waters | 8.96°S 105.45°W / -8.96; -105.45 (Waters) | 15 | 2012 | Muddy Waters, American musician | WGPSN |
| Wen Tianxiang | 45.34°S 191.6°W / -45.34; -191.6 (Wagner) | 166.42 | 2020 | Wen Tianxiang, Chinese poet | WGPSN |
| Wergeland | 37.93°S 56.36°W / -37.93; -56.36 (Wergeland) | 42 | 1976 | Henrik Wergeland, Norwegian writer | WGPSN |
| Whitman | 41.4°N 111.64°W / 41.4; -111.64 (Whitman) | 64 | 1985 | Walt Whitman, American poet | WGPSN |
| Wren | 24.84°N 35.95°W / 24.84; -35.95 (Wren) | 204 | 1979 | Christopher Wren, English architect | WGPSN |
| Crater | Coordinates | Diameter (km) | Approval Year | Eponym | Ref |
|---|---|---|---|---|---|
| Yamada | 82.54°N 136.16°E / 82.54; 136.16 (Yamada) | 17.1 | 2015 | Kosaku Yamada, Japanese composer and conductor | WGPSN |
| Yeats | 9.44°N 35.03°W / 9.44; -35.03 (Yeats) | 92 | 1976 | William Butler Yeats, Irish poet | WGPSN |
| Yoshikawa | 81.21°N 106.03°E / 81.21; 106.03 (Yoshikawa) | 30 | 2012 | Eiji Yoshikawa, Japanese novelist | WGPSN |
| Yun Sŏn-Do | 73.49°S 110.08°W / -73.49; -110.08 (Yun Sǒn-Do) | 76 | 1976 | Yun Seondo, Korean poet | WGPSN |
| Crater | Coordinates | Diameter (km) | Approval Year | Eponym | Ref |
|---|---|---|---|---|---|
| Zeami | 2.96°S 147.41°W / -2.96; -147.41 (Zeami) | 129 | 1976 | Zeami Motokiyo, Japanese playwright | WGPSN |
| Zola | 49.75°N 178.25°W / 49.75; -178.25 (Zola) | 70 | 1979 | Émile Zola, French novelist | WGPSN |
As on the Moon and Mars, sequences of craters and basins of differing relative ages provide the best means of establishing stratigraphic order on Mercury.[11][12][13] Overlap relations among many large mercurian craters and basins are clearer than those on the Moon. Therefore, as this map shows, we can build up many local stratigraphic columns involving both crater or basin materials and nearby plains materials.
Over all of Mercury, the crispness of crater rims and the morphology of their walls, central peaks, ejecta deposits, and secondary-crater fields have undergone systematic changes with time. The youngest craters or basins in a local stratigraphic sequence have the sharpest, crispest appearance. The oldest craters consist only of shallow depressions with slightly raised, rounded rims, some incomplete. On this basis, five age categories of craters and basins have been mapped; the characteristics of each are listed in the explanation. In addition, secondary crater fields are preserved around proportionally far more craters and basins on Mercury than on the Moon or Mars, and are particularly useful in determining overlap relations and degree of modification.
Because only limited photographic evidence was available from Mariner 10's three flybys of the planet, these divisions are often tentative. The five crater groups, from youngest to oldest, are:
- c5: Fresh-appearing, sharp-rimmed, rayed craters. Highest albedo in map area; haloes and rays may extend many crater diameters from rim crests. Superposed on all other map units. Generally smaller and fewer than older craters.
- c4: Fresh but slightly modified craters—Similar in morphology to c5 craters but without bright haloes or rays; sharp rim crests; continuous ejecta blankets; very few superposed secondary craters. Floors consist of crater or smooth plains materials.
- c3: Modified craters—Rim crest continuous but slightly rounded and subdued. Ejecta blanket generally less extensive than those of younger craters of similar size. Superposed craters and rays common; smooth plains and intermediate plains materials cover floors of many craters. Central peaks more common than in c4 craters, probably because of larger average size of c3 craters.
- c2: Subdued craters—Low-rimmed, relatively shallow craters, many with discontinuous rim crests. Floors covered by smooth plains and intermediate plains materials. Crater density of ejecta blankets similar to that of intermediate plains material.
- c1 Degraded craters—Similar to c2 crater material but more deteriorated; many superposed craters.
- "IAU - Gazetteer of Planetary Nomenclature - Mercury". US Geological Survey. Retrieved March 7, 2014.
- "Nomenclature Search Results: Mercury > Crater, Craters". usgs.gov. Gazetteer of Planetary Nomenclature – International Astronomical Union (IAU) Working Group for Planetary System Nomenclature (WGPSN). Retrieved July 7, 2021.
- "Nomenclature Search Results: Moon > Crater, Craters". usgs.gov. Gazetteer of Planetary Nomenclature – International Astronomical Union (IAU) Working Group for Planetary System Nomenclature (WGPSN). Retrieved August 14, 2017.
- "Nomenclature Search Results: Mars > Crater, Craters". usgs.gov. Gazetteer of Planetary Nomenclature – International Astronomical Union (IAU) Working Group for Planetary System Nomenclature (WGPSN). Retrieved August 14, 2017.
- "Nomenclature Search Results: Venus > Crater, Craters". usgs.gov. Gazetteer of Planetary Nomenclature – International Astronomical Union (IAU) Working Group for Planetary System Nomenclature (WGPSN). Retrieved August 14, 2017.
- Ritzel, Rebecca (December 20, 2012). "Ballet isn't rocket science, but the two aren't mutually exclusive, either". Washington Post. Washington DC, United States. Retrieved December 22, 2012.
- "Categories for Naming Features on Planets and Satellites". usgs.gov. Gazetteer of Planetary Nomenclature – International Astronomical Union (IAU) Working Group for Planetary System Nomenclature (WGPSN). Retrieved August 10, 2017.
- "Beatles Legend John Lennon Among Those Honored with Mercury Craters". NASA. December 19, 2013. Retrieved December 21, 2013.
- "Planetary Names: Crater, craters: Lennon on Mercury". International Astronomical Union (IAU). December 16, 2013. Retrieved December 21, 2013.
- Trask, Newell J.; Daniel Dzurisin (1984). Geologic Map of the Discovery (H-11) Quadrangle of Mercury (PDF). U.S. Geological Survey. Retrieved December 7, 2007.
- Pohn, H. A., and Offield, T. W., 1970, Lunar crater morphology and relative-age determination of lunar geologic units—Part 1. Classification: in Geological Survey research 1970, U.S. Geological Survey Professional Paper 700-C, p. C153–C162.
- Stuart-Alexander, D. E., and Wilhelms, D. E., 1975, The Nectarian System, a new lunar time-stratigraphic unit: U.S. Geological Survey Journal of Research, v. 3, no. l, p. 53–58.