Achelous (crater)

Achelous
Craters Gula (top) and Achelous (bottom), both ringed by a pedestal, as imaged by the Galileo orbiter on 5 April 1997.[1]
Feature typeImpact crater
Coordinates61°54′N 11°47′W / 61.90°N 11.78°W / 61.90; -11.78[2]
Diameter35.0 kilometres (21.7 mi)
EponymAchelous

Achelous (/ˌækɪˈl.əs/) is a relatively young impact crater on Jupiter's largest moon Ganymede. Located near the similarly sized Gula, both craters are surrounded by a distinct raised pedestal formed from ejecta blasted out by their formative impact events.[3]

Naming

Achelous is named after Achelous, a river god in Greek mythology, who, according to Pseudo-Apollodorus and some myths, was the father of Callirhoe,[4] who was the mother of the Trojan prince Ganymede,[5] with the name being adopted by the International Astronomical Union (IAU) in 1979.[2]

Surface features on Ganymede are named after deities, heroes, and places drawn from either Ancient Middle Eastern mythologies[6] or Greek mythology associated with the mythical figure Ganymede and his home kingdom, Troy. Achelous belongs to the latter category.

Location

Achelous is located at 61.90°N, 11.78°W, about two-thirds of the way from Ganymede's equator to its north pole on the sub-jovian hemisphere. It is north of Aquarius Sulcus, and is surrounded by several other craters. It is located within the Perrine quadrangle of Ganymede (designated Jg2).[2][7]

Geological characteristics

Achelous is an impact crater roughly 35 kilometres (22 mi) in diameter and polygonal in shape. Rather than being perfectly round, its crater rim consists of seven straight segments. It is located within Ganymede's bright grooved terrain, with the surrounding grooves aligned in a northeast–southwest direction. The grooves appear to have influenced the shape of Achelous's rim, so that two of its seven rim segments are aligned in the direction of the grooves; the other five rim segments are oriented roughly 45° from the grooves.[8] In contrast to Gula, Achelous lacks a central peak, though its center may be occupied by a collapsed central peak or a central pit.[3]

Achelous's surrounding ejecta appears to have a distinct inner and outer layer. The inner raised pedestal extends approximately 17 kilometres (11 mi) from its crater rim, hosting a hummocky texture near the rim.[9][8] The pedestal completely covers most preexisting topographical features, as only the most prominent grooves from the surrounding terrain extend into the pedestal. The outer thinner layer of ejecta does not obscure the underlying grooves as heavily and is overall smoother than the pedestal. Beyond these two ejecta layers is a system of radially extending secondary craters and crater chains.[10] Most of these secondary craters are 1–2 km (0.62–1.24 mi) in diameter, with the largest observed secondary crater being 2.7 km (1.7 mi) in diameter.[11][10]

The double-layered structure of Achelous's ejecta is similar to Martian double-layered ejecta craters. On Mars, these craters are hypothesized to form either by volatile-rich subsurface material vaporizing on impact or from Mars's atmosphere suspending ejected material, fluidizing the impact ejecta. As Ganymede currently lacks a dense atmosphere, this suggests Achelous's ejecta layers were formed due to the presence of subsurface volatile material at the impact site.[10]

See also

References

  1. ^ "Fresh Impact Craters on Ganymede". NASA/JPL. 1998. Retrieved 14 December 2025.
  2. ^ a b c "Achelous". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program. (Center Latitude: 61.90°, Center Longitude: 11.78°; Planetographic, +West)
  3. ^ a b "Pedestal Craters Gula and Achelous on Ganymede". NASA Jet Propulsion Laboratory (JPL). 7 October 1999. Retrieved 5 September 2024.
  4. ^ "AKHELOIOS". Theoi Greek Mythology. 2025. Retrieved 14 December 2025.
  5. ^ Apollodorus, 3.12.2
  6. ^ "Categories (Themes) for Naming Features on Planets and Satellites". USGS. 2025. Retrieved 23 December 2025.
  7. ^ McGill, George E.; Squyres, Steven W.; Uzman, Stephen J. (1 August 1997). Geological Map of the Perringe (Jg-2) and Nun Sulci (Jg-5) Quadrangles of Ganymede (PDF) (Report). USGS. Retrieved 14 December 2025.
  8. ^ a b Baby, Namitha Rose; Kenkmann, Thomas; Stephan, Katrin; Wagner, Roland (30 January 2024). "Polygonal impact craters on Ganymede". Meteoritics and Planetary Science. 59 (3): 544–559. doi:10.1111/maps.14138.
  9. ^ Schenk, Paul M.; Ridolfi, Francis J. (28 June 2002). "Morphology and scaling of ejecta deposits on icy satellites". Geophysical Research Letters. 29 (12): 31-1 – 31-4. Bibcode:2002GeoRL..29.1590S. doi:10.1029/2001GL013512.
  10. ^ a b c Jones, Kevin B.; Head, James W.; Pappalardo, Robert T.; Moore, Jeffrey M. (July 2003). "Morphology and origin of palimpsests on Ganymede based on Galileo observations". Icarus. 164 (1): 197–212. Bibcode:2003Icar..164..197J. doi:10.1016/S0019-1035(03)00128-3.
  11. ^ Singer, Kelsi N.; McKinnon, William B.; Nowicki, L. T. (September 2013). "Secondary craters from large impacts on Europa and Ganymede: Ejecta size–velocity distributions on icy worlds, and the scaling of ejected blocks". Icarus. 226 (1): 865–884. Bibcode:2013Icar..226..865S. doi:10.1016/j.icarus.2013.06.034.
This article is issued from Wikipedia. The text is available under Creative Commons Attribution-Share Alike 4.0 unless otherwise noted. Additional terms may apply for the media files.