38th parallel structures

The 38th parallel structures, also known as the 38th parallel lineament,[1] are a series of seven circular depressions or deformations stretching 700 kilometres (430 mi) across southern Illinois and Missouri and into eastern Kansas, in the United States, at a latitude of roughly 38 degrees north. Estimated at 300 million years old, two are believed to be impact events from meteorites, but other structures are possibly remnants of volcanos.

StructureCoordinates
Hicks Dome37.5°N 88.3°W / 37.5; -88.3 (Hicks Dome)
Avon37.8°N 90.2°W / 37.8; -90.2 (Avon crater)
Crooked Creek37.8°N 91.4°W / 37.8; -91.4 (Crooked Creek crater)
Decaturville37.9°N 92.7°W / 37.9; -92.7 (Decaturville crater)
Hazelgreen37.7°N 92.4°W / 37.7; -92.4 (Hazelgreen crater)
Weaubleau-Osceola38.0°N 93.6°W / 38.0; -93.6 (Weaubleau-Osceola structure)
Rose Dome37.7°N 95.7°W / 37.7; -95.7 (Rose Dome)

History

Rampino and Volk (1996) postulated that these structures could be the remains of a serial meteorite strike during the late Mississippian or early Pennsylvanian periods (320 ± 10 Ma).[2] Difficulty in determining the age of many of the structures and doubts about the exogenic origins of several of them leave some geologists skeptical of this hypothesis. As of 2016, only two of the structures, Crooked Creek (320 ± 80 Ma) and Decaturville (< 300 Ma), both in Missouri, are listed as confirmed impact craters in the Earth Impact Database.[3]

There is evidence that at least some of the features, such as Hicks Dome in Illinois, are volcanic in origin. These features are associated with faults and fractured rock, and are accompanied by igneous rocks and mineral deposits. Hicks Dome is a structural dome which has its central Devonian core displaced upward some 4,000 feet (1,200 m) in relation to the surrounding strata. The dome has small associated igneous dikes around its flanks.[4]

Interest in the possibility of serial impacts on Earth was piqued by observations of comet Shoemaker–Levy 9 impacting on Jupiter in 1994. It has been estimated, however, that the likelihood of such an event occurring on Earth is vanishingly small because the Earth's weaker gravitational field is much less able than Jupiter's to pull a speeding object close enough to be torn apart by tidal forces. However, evidence of serial impacts on the Moon, whose gravitational field is even weaker, can be seen in several chains of craters on the lunar surface.

See also

References

  1. Gillman, Joe (ed.), Association of Missouri Geologists Field Trip Guidebook, 51st Annual Meeting, Rolla, Missouri, October 1–2, 2004, 2004, Missouri Department of Natural Resources, Geological Survey and Resource Assessment Division, p. 15
  2. Rampino & Volk, 1996, p.49
  3. John Spray (director) (2016-05-20). "North America". Earth Impact Database. Planetary and Space Science Centre, University of New Brunswick. Retrieved 2016-05-30.
  4. Raymond Wiggers, 1997, Geology underfoot in Illinois, Mountain Press, p. 252–256. ISBN 0-87842-346-X

Bibliography

Further reading

  • Evans, Kevin R.; Mickus, Kevin L.; & Rovey, Charles W. III (2003). The Weaubleau Structure: Evidence of a Mississippian Meteorite Impact in Southwestern Missouri. Association of Missouri Geologists Field Trip Guidebook, 50th Annual Meeting. Missouri Department of Natural Resources. PDF
  • Luczaj, J. 1998. Argument supporting explosive igneous activity for the origin of "cryptoexplosion" structures in the midcontinent, United States. Geology 26(April):295.
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