List of largest craters in the Solar System

Following are the largest impact craters on various worlds of the Solar System. For a full list of named craters, see List of craters in the Solar System. The ratio column compares the crater diameter with the diameter of the impacted celestial body. The maximum crater diameter is 628% of the body diameter (the circumference along a great circle).

Body	Crater	Crater diameter	Body diameter	Ratio	Notes
Mercury	Caloris	1,550 km (963 mi)	4,880 km	32%
Mercury	Rembrandt	715 km (444 mi)	4,880 km	15%
Venus	Mead	280 km (170 mi)	12,100 km	2%
Earth	Vredefort	250–300 km (160–190 mi)	12,740 km	2%
	Chicxulub crater	182 km (113 mi)		1.4%	Cause or contributor of the Cretaceous–Paleogene extinction event
	Sudbury Basin	130 km (80 mi)		1%
Moon (moon of Earth)	Procellarum	3,000 km (2,000 mi)	3,470 km	86%	Not confirmed as an impact basin.
	South Pole–Aitken basin	2,500 km (1,600 mi)		70%
	Imbrium	1,145 km (711 mi)		33%
Mars	North Polar Basin	10,600 × 8,500 km (6,550 × 5,250 mi)	6,780 km	125–155%	Not confirmed as an impact basin
	Utopia	3,300 km (2,100 mi)^[1]		50%	Largest confirmed impact basin on Mars and in the Solar System
	Hellas	2,300 km (1,400 mi)		34%	Largest visible crater in the Solar System
	Isidis	~1,900 km (1,200 mi)^[2]		28%	Heavily degraded to the northeast
	Argyre	1,700 km (1,100 mi)^[3]		25.1%	May have an outer ring 2750 km in diameter^[3]
Vesta (asteroid)	Rheasilvia	505 km (310 mi)	529 km (569 km)^[4]	90%^[4]	See also: List of tallest mountains in the Solar System
Vesta (asteroid)	Veneneia	395 km (250 mi)	529 km (569 km)^[4]	70%^[4]	Partially obscured by Rheasilvia
Ceres (dwarf planet)	Kerwan	284 km (180 mi)^[5]	952 km	30%	Faint shallow crater, below the center of this image.
Ceres (dwarf planet)	Yalode	271 km (170 mi)^[5]	952 km	28%
Hygiea (asteroid)	Serpens	180±15	434 ± 14 km	40%
Ganymede (moon of Jupiter)	Epigeus	343 km (213 mi)	5,270 km	6.5%
Callisto (moon of Jupiter)	Valhalla	360 km (224 mi)	4,820 km	7.5%
Callisto (moon of Jupiter)	Heimdall	210 km (130 mi)	4,820 km	4%	(no good images have been taken)
Mimas (moon of Saturn)	Herschel	139 km (86 mi)	396 km	35%	See also: List of tallest mountains in the Solar System
Tethys (moon of Saturn)	Odysseus	445 km (277 mi)	1,060 km	42%
Dione (moon of Saturn)	Evander	350 km (220 mi)^[6]	1,123 km	34%
Rhea (moon of Saturn)	Mamaldi	480 km (300 mi)^[7]	1,530 km	31%
Rhea (moon of Saturn)	Tirawa	360 km (220 mi)	1,530 km	24%
Titan (moon of Saturn)	Menrva	392 km (244 mi)	5,150 km	7.5%
Iapetus (moon of Saturn)	Turgis	580 km (360 mi)	1,470 km	40%
	Engelier	504 km (313 mi)		34%
	Gerin	445 km (277 mi)		30%	Gerin is overlain by Engelier
	Falsaron	424 km (263 mi)		29%
Titania (moon of Uranus)	Gertrude	326 km (203 mi)	1,580 km	21%	Little of Titania has been imaged, so it may well have larger craters.
Pluto (dwarf planet)	Sputnik Planitia basin	ca. 1,400 × 1,200 km^[8] average: ~1,300 km	2,377 km	54.7%	Partially infilled by convecting Nitrogen ice, heavily eroded
Pluto (dwarf planet)	Burney	296 km (184 mi)	2,377 km	12.5%	Heavily degraded, difficult to see
Charon (moon of Pluto)	Dorothy	ca. 261 km (162 mi)	1,207 km	21%	Crater at upper right overlapping Mordor Macula

References

^ McGill, G. E. (1989-03-10). "Buried topography of Utopia, Mars: Persistence of a giant impact depression". Journal of Geophysical Research. 94: 2753–2759. Bibcode:1989JGR....94.2753M. doi:10.1029/JB094iB03p02753.
^ Tornabene, Livio L.; Moersch, Jeffery E.; McSween, Harry Y.; et al. (October 2008). "Surface and crater-exposed lithologic units of the Isidis Basin as mapped by coanalysis of THEMIS and TES derived data products". Journal of Geophysical Research. 113 (E10). Bibcode:2008JGRE..11310001T. doi:10.1029/2007JE002988.
^ ^a ^b Hiesinger, Harald; Head, James W., III (August 2002). "Topography and morphology of the Argyre Basin, Mars: implications for its geologic and hydrologic history". Planetary and Space Science. 50 (10–11): 939–981. Bibcode:2002P&SS...50..939H. doi:10.1016/S0032-0633(02)00054-5.{{cite journal}}: CS1 maint: multiple names: authors list (link)
^ ^a ^b ^c Rheasilvia and Veneneia are 95% and 75% of the mean diameter of Vesta, 529 km. However, the mean is affected by the craters themselves. They are 89% and 69% the mean equatorial diameter of 569 km.
^ ^a ^b Planetary Names: Search Results
^ USGS
^ USGS
^ McGovern, P. J.; White, O. L.; Schenk, P. M. (December 2021). "Tectonism and Enhanced Cryovolcanic Potential Around a Loaded Sputnik Planitia Basin, Pluto". Journal of Geophysical Research: Planets. 126. Bibcode:2021JGRE..12606964M. doi:10.1029/2021JE006964.

[McGill1989-1] McGill, G. E. (1989-03-10). "Buried topography of Utopia, Mars: Persistence of a giant impact depression". Journal of Geophysical Research. 94: 2753–2759. Bibcode:1989JGR....94.2753M. doi:10.1029/JB094iB03p02753.

[Tornabene2008-2] Tornabene, Livio L.; Moersch, Jeffery E.; McSween, Harry Y.; et al. (October 2008). "Surface and crater-exposed lithologic units of the Isidis Basin as mapped by coanalysis of THEMIS and TES derived data products". Journal of Geophysical Research. 113 (E10). Bibcode:2008JGRE..11310001T. doi:10.1029/2007JE002988.

[Hiesinger2002-3] Hiesinger, Harald; Head, James W., III (August 2002). "Topography and morphology of the Argyre Basin, Mars: implications for its geologic and hydrologic history". Planetary and Space Science. 50 (10–11): 939–981. Bibcode:2002P&SS...50..939H. doi:10.1016/S0032-0633(02)00054-5.{{cite journal}}: CS1 maint: multiple names: authors list (link)

[Vesta-4] Rheasilvia and Veneneia are 95% and 75% of the mean diameter of Vesta, 529 km. However, the mean is affected by the craters themselves. They are 89% and 69% the mean equatorial diameter of 569 km.

[Ceres-5] Planetary Names: Search Results

[6] USGS

[7] USGS

[McGovern2021-8] McGovern, P. J.; White, O. L.; Schenk, P. M. (December 2021). "Tectonism and Enhanced Cryovolcanic Potential Around a Loaded Sputnik Planitia Basin, Pluto". Journal of Geophysical Research: Planets. 126. Bibcode:2021JGRE..12606964M. doi:10.1029/2021JE006964.

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See also

References