Astronomy:Palus Putredinis

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Palus Putredinis
Palus Putredinis (LRO).png
Lunar Reconnaissance Orbiter image. Montes Apenninus are seen in the lower right, crater Archimedes in upper left and crater Autolycus on the top.
Diameter180 km


Palus Putredinis (Latin palūs pūtrēdinis "Marsh of Decay")[1] is a small lunar mare in the basin of Mare Imbrium. It stretches from the crater Archimedes southeast toward the rugged Montes Apenninus range located on the southeastern edge of Mare Imbrium.[2] This region is a nearly level, lava-flooded plain bounded by the crater Autolycus and nearby highlands to the northeast and the foothills of the Montes Archimedes to the southwest. The selenographic coordinates are 27.4° N, 0.0° E, and it lies within a diameter of 180 kilometers (110 mi).[1]

In the southern part of this area is a rille system designated Rimae Archimedes. To the south is a prominent linear rille named Rima Bradley, and to the east is the Rima Hadley, which served as the landing site for Apollo 15,[3] and the Rimae Fresnel. Just to the northwest of the Palus Putredinis midpoint is the nearly submerged crater Spurr. Luna 2 crashed in this area on September 13, 1959.[4]

The basalts in this mare have been interpreted as rich in radioactive elements, but low in titanium. The mare basalts sampled at the Apollo 15 landing site are, "dominated by two low‐titanium varieties, the olivine‐normative basalts (3.30 Gyr) and the quartz‐normative basalts, which are slightly older (3.35 Gyr)". Volcanic glasses show ages of 3.30–3.60 Gyr.[3]

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See also

References

  1. 1.0 1.1 "Palus Putredinis". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  2. Lena, Raffaello et al. (March 28, 2013). Lunar Domes: Properties and Formation Processes. Springer Milan. p. 151. ISBN 9788847026377. https://books.google.com/books?id=6F5h39Azb1kC&pg=PT151. 
  3. 3.0 3.1 Hiesinger, H. et al. (March 2010). "Ages and stratigraphy of lunar mare basalts in Mare Frigoris and other nearside maria based on crater size-frequency distribution measurements". Journal of Geophysical Research 115 (E3). doi:10.1029/2009JE003380. E03003. Bibcode2010JGRE..115.3003H. 
  4. Cherrington, Ernest H. (January 18, 2013). Exploring the Moon Through Binoculars and Small Telescopes. Dover Publications. p. 186. ISBN 9780486150772. https://books.google.com/books?id=IvXDAgAAQBAJ&pg=PT186. 

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