Mare Imbrium /ˈɪmbriəm/ (Latin imbrium, the "Sea of Showers" or "Sea of Rains") is a vast lava plain within the Imbrium Basin on the Moon and is one of the larger craters in the Solar System. The Imbrium Basin formed from the collision of a proto-planet during the Late Heavy Bombardment. Basaltic lava later flooded the giant crater to form the flat volcanic plain seen today. The basin's age has been estimated using uranium–lead dating methods to approximately 3.9 billion years ago, and the diameter of the impactor has been estimated to be 250 ± 25 km.[2] The Moon's maria (plural of mare) have fewer features than other areas of the Moon because molten lava pooled in the craters and formed a relatively smooth surface. Mare Imbrium is not as flat as it would have originally been when it first formed as a result of later events that have altered its surface.

Mare Imbrium
A map showing the location of Mare Imbrium
Coordinates32°48′N 15°36′W / 32.8°N 15.6°W / 32.8; -15.6
Diameter1,146 km (712 mi)[1]
EponymSea of Showers or Sea of Rains
LRO mosaic of Mare Imbrium
Detail map of Imbrium's features
Mare Imbrium from Earth, imaged with an 8" untracked Dobsonian. The left panel emphasizes wrinkle ridges, craters, and mountain rings with the terminator closer. The right panel highlights albedo patterns and ray markings under a higher sun.
Detail of basaltic lava flow fronts within Mare Imbrium, located north of Euler crater. (Mosaic of Apollo 17 images.)

Origin

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Mare Imbrium formed when a proto-planet from the asteroid belt collided with the Moon during the Late Heavy Bombardment.[3] The impact is dated to approximately 3922 ± 12 million years ago, based on radiometric dating techniques. Ejecta from the impact covers large areas of the near side of the Moon.[4][5]

Characteristics

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With a diameter of 1145 km, Mare Imbrium is second only to Oceanus Procellarum in size among the maria, and it is the largest mare associated with an impact basin.

The Imbrium Basin is surrounded by three concentric rings of mountains, uplifted by the colossal impact event that excavated it. The outermost ring of mountains has a diameter of 1300 km and is divided into several different ranges; the Montes Carpatus to the south, the Montes Apenninus to the southeast, and the Montes Caucasus to the east. At their highest, the outer ring of mountains rise more than 5 km above the surface of Mare Imbrium.[6] The ring mountains are not as well developed to the north and west, and it appears they were simply not raised as high in these regions by the Imbrium impact. The middle ring of mountains forms the Montes Alpes and Montes Archimedes. The innermost ring, with a diameter of 650 km, is defined by Montes Recti, Montes Teneriffe, and possibly Montes Spitzbergen. Much of this ring is submerged under the mare's basalt, resulting in only isolated peaks remaining in some areas, such as Mons Pico and Mons La Hire.

 
Selenochromatic Image (Si) of Mare Imbrium

Numerous estimates of the depth of the mare material have been made using various methods. These include analyses of gravity, seismic, and radar data; studies of craters partially filled with basalt and those that have completely penetrated the mare; and comparisons of lunar basins filled with mare deposits to unfilled basins. These studies have yielded depth estimates ranging from 2 km[7] to 5 km[8] in the central part of the mare. It is thought that the original crater left by the Imbrium impact was as much as 100 km deep, but that the floor of the basin bounced back upwards immediately afterwards.

 
Oblique view of Imbrium Sculpture, with the crater Ukert right of center

Surrounding the Imbrium Basin is a region blanketed by ejecta from the impact, extending roughly 800 km outward. Also encircling the basin is a pattern of radial grooves called the "Imbrium Sculpture", which have been interpreted as furrows cut in the Moon's surface by large projectiles blasted out of the basin at low angles, causing them to skim across the lunar surface ploughing out these features. The sculpture pattern was first identified by Grove Karl Gilbert in 1893.[9] Furthermore, a Moon-wide pattern of faults which run both radial to and concentric to the Imbrium basin were thought to have been formed by the Imbrium impact; the event literally shattered the Moon's entire lithosphere. At the region of the Moon's surface exactly opposite Imbrium Basin, there is a region of chaotic terrain (the crater Van de Graaff) which is thought to have been formed when the seismic waves of the impact were focused there after travelling through the Moon's interior. Mare Imbrium is about 750 miles (1,210 km) wide.

A mass concentration (mascon), or gravitational high, was identified in the center of Mare Imbrium from Doppler tracking of the five Lunar Orbiter spacecraft in 1968.[10] The Imbrium mascon is the largest on the Moon. It was confirmed and mapped at higher resolution with later orbiters such as Lunar Prospector and GRAIL.

Names

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Like most of the other maria on the Moon, Mare Imbrium was named by Giovanni Riccioli, whose 1651 nomenclature system has become standardized.[11]

The earliest known name for the mare may be "The Shrine of Hecate"; Plutarch records that the Ancient Greeks gave this name to the largest of the "hollows and deeps" on the Moon, believing it to be the place where the souls of the deceased were tormented. Ewen A. Whitaker argues that this likely refers to Mare Imbrium, "the largest regular-shaped dark area unbroken by bright patches" that can be seen with the naked eye.[12]

Around 1600, William Gilbert made a map of the Moon that names Mare Imbrium "Regio Magna Orientalis" (the Large Eastern Region). Michael van Langren's 1645 map named it "Mare Austriacum" (the Austrian Sea).[13]

Observation and exploration

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Mare Imbrium is visible to the naked eye from Earth. In the traditional 'Man in the Moon' image seen on the Moon in Western folklore, Mare Imbrium forms the man's right eye.[14]

Luna 17

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On 17 November 1970 at 03:47 Universal Time, the Soviet spacecraft Luna 17 made a soft landing in the mare, at latitude 38.28 N, and longitude 35.00 W. Luna 17 carried Lunokhod 1, the first robotic rover to be deployed on the Moon or any extraterrestrial body. Lunokhod 1, a remote-controlled rover, was successfully deployed and undertook a mission lasting several months.

Apollo 15

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In 1971, the crewed Apollo 15 mission landed in the southeastern region of Mare Imbrium, between Hadley Rille and the Apennine Mountains. Commander David Scott and Lunar Module Pilot James Irwin spent three days on the surface of the Moon, including 18½ hours outside the spacecraft on lunar extra-vehicular activity. Command Module Pilot Alfred Worden remained in orbit and acquired hundreds of high-resolution photographs of Mare Imbrium (and other regions of the Moon) as well as other types of scientific data. The crew on the surface explored the area using the first lunar rover and returned to Earth with 77 kilograms (170 lb) of lunar surface material. Samples were collected from Mons Hadley Delta, believed to be a fault block of pre-Imbrian (Nectarian or Pre-Nectarian) lunar crust, including the "Genesis Rock." This was also the only Apollo mission to visit a lunar rille, and to observe outcrops of lunar bedrock visible in the rille wall.[15]

2013 Impact

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On 17 March 2013, an object hit the lunar surface in Mare Imbrium and exploded in a flash of apparent magnitude 4.[16] The resulting crater was 18 meters wide.[17] This was the brightest impact recorded since NASA's lunar impact team began monitoring in 2005.

Chinese landing

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The planned landing site for Chang'e 3 was Sinus Iridum. The actual landing took place on Mare Imbrium

Chang'e 3 landed on 14 December 2013 on Mare Imbrium, about 40 km south of the 6 km diameter Laplace F crater,[18][19] at 44.1260°N 19.5014°W.[19][20][21] The lander deployed the Yutu rover 7 hours and 24 minutes later.[22] Chang'e 3 mission attempted to perform the first direct measurement of the structure and depth of the lunar soil down to a depth of 30 m (98 ft), and investigate the lunar crust structure down to several hundred meters deep.[23] The rover's ground penetrating radar found evidence of at least nine distinct rock layers, indicating that the area had surprisingly complex geological processes and is compositionally distinct from the Apollo and Luna landing sites.[24][25]

See also

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References

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  1. ^ "Mare Imbrium". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  2. ^ P. H. Schultz & D.A. Crawford, Origin and implications of non-radial Imbrium Sculpture on the Moon, Nature 535, 391–394 (2016)
  3. ^ Merle, R. E.; Nemchin, A. A.; Grange, M. L.; Whitehouse, M. J.; Pidgeon, R. T. (2014). "High resolution U-Pb ages of Ca-phosphates in Apollo 14 breccias: Implications for the age of the Imbrium impact". Meteoritics & Planetary Science. 49 (12): 2241–2251. Bibcode:2014M&PS...49.2241M. doi:10.1111/maps.12395.
  4. ^ Nemchin, Alexander A.; Long, Tao; Jolliff, Bradley L.; Wan, Yusheng; Snape, Joshua F.; Zeigler, Ryan; Grange, Marion L.; Liu, Dunyi; Whitehouse, Martin J.; Timms, Nicholas E.; Jourdan, Fred (1 April 2021). "Ages of lunar impact breccias: Limits for timing of the Imbrium impact". Geochemistry. 81 (1): 125683. Bibcode:2021ChEG...81l5683N. doi:10.1016/j.chemer.2020.125683. hdl:20.500.11937/90165. ISSN 0009-2819. S2CID 224884243.
  5. ^ Zhang, Bidong; Lin, Yangting; Moser, Desmond E.; Hao, Jialong; Shieh, Sean R.; Bouvier, Audrey (December 2019). "Imbrium Age for Zircons in Apollo 17 South Massif Impact Melt Breccia 73155". Journal of Geophysical Research: Planets. 124 (12): 3205–3218. Bibcode:2019JGRE..124.3205Z. doi:10.1029/2019JE005992. ISSN 2169-9097. S2CID 210277861.
  6. ^ The Moon's Highs and Lows
  7. ^ Thomson, B.J. (2009). "A new technique for estimating the thickness of mare basalts in Imbrium Basin". Geophysical Research Letters. 36 (12).
  8. ^ Dibb, S.D.; Kiefer, W.S (2015). "The Depth-Diameter relationship for large lunar impact basins and the implications for mare basalt thickness" (PDF). 46th LPSC. 1677.
  9. ^ Gilbert, Grove Karl. The Moon's face, a study of the origin of its features. Washington, Philosophical Society of Washington, 1893.
  10. ^ P. M. Muller, W. L. Sjogren (1968). "Mascons: Lunar Mass Concentrations". Science. 161 (3842): 680–684. Bibcode:1968Sci...161..680M. doi:10.1126/science.161.3842.680. PMID 17801458. S2CID 40110502.
  11. ^ Ewen A. Whitaker, Mapping and Naming the Moon (Cambridge University Press, 1999), p. 61.
  12. ^ Ewen A. Whitaker, Mapping and Naming the Moon (Cambridge University Press, 1999), p. 7
  13. ^ Ewen A. Whitaker, Mapping and Naming the Moon (Cambridge University Press, 1999), pp. 15, 41.
  14. ^ Ewen A. Whitaker, Mapping and Naming the Moon (Cambridge University Press, 1999), p. 3. [ISBN missing]
  15. ^ Apollo 15 Preliminary Science Report (NASA SP-289), Scientific and Technical Information Office, National Aeronautics and Space Administration, Washington, D.C., 1972.
  16. ^ Dr. Tony Phillips (17 May 2013). "Bright Explosion on the Moon". Science@NASA. Retrieved 19 May 2013.
  17. ^ NASA's Goddard Space Flight Center (17 March 2015). "New Craters on the Moon". Goddard Media Studios. Retrieved 13 May 2022.
  18. ^ "Chang'e 3 landing coordinates". China News (CN). 14 December 2013. Retrieved 15 December 2013.
  19. ^ a b Emily Lakdawalla; Phil Stooke (December 2013). "Chang'e 3 has successfully landed on the Moon!". The Planetary Society. Retrieved 15 December 2013.
  20. ^ "China successfully lands robotic rover on the moon>".
  21. ^ "Landing map of Chang'e 3".
  22. ^ O'Neil, Ian (14 December 2013). "China's Rover Rolls! Yutu Begins Moon Mission". Discovery News. CCTV. Archived from the original on 3 March 2016. Retrieved 15 December 2013.
  23. ^ "欧阳自远:嫦娥三号明年发射将实现着陆器与月球车联合探测". Xinhua. 14 June 2012. Archived from the original on 17 June 2012. Retrieved 23 July 2013.
  24. ^ Wall, Mike (12 March 2015). "The Moon's History Is Surprisingly Complex, Chinese Rover Finds". Space.com. Retrieved 13 March 2015.
  25. ^ Xiao, Long (13 March 2015). "A young multilayered terrane of the northern Mare Imbrium revealed by Chang'E-3 mission". Science. 347 (6227): 1226–1229. Bibcode:2015Sci...347.1226X. doi:10.1126/science.1259866. PMID 25766228. S2CID 206561783.
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