Shiva Hypothesis

William Napier (astronomer) and Victor Clube in their 1979 Nature Magazine article, 'A Theory of Terrestrial Catastrophism',[1] proposed the idea that gravitational disturbances caused by the Solar System crossing the plane of the Milky Way galaxy are enough to disturb comets in the Oort cloud surrounding the Solar System. This sends comets in towards the inner Solar System, which raises the chance of an impact. According to the hypothesis, this results in the Earth experiencing large impact events about every 30 million years (such as the Cretaceous–Paleogene extinction event).

Over 15 years later, Michael R. Rampino and Bruce Haggerty renamed Napier and Clube's Theory of Terrestrial Catstrophism after Shiva, the Hindu god of destruction.[2] Though Rampino and Haggerty do not reference Napier and Clube's original 1979 article in Nature Magazine, they do reference Clube and Napier's later paper which demonstrates the requisite gravitational forces.[3] Certainly Rampino was aware of Napier and Clube's much earlier publication, as Rampino and Stothers' letter to Nature Magazine in 1984 references it.[4] This theory may have inspired the theory for the brown dwarf named Nemesis which causes extinctions every 26 million years, which varies slightly from 30 million years.

There is a blackened death metal band from The Netherlands called The Shiva Hypothesis.

gollark: https://dragcave.net/lineage/MpmwIWeird thing on hub.
gollark: Each CB can breed lots of 2Gs which can breed lots of 3Gs which can breed lots of 4Gs.
gollark: Not really; it's exponential growth, sort of thing.
gollark: Or at least value; the value of 2G prizes does not reflect their rarity well.
gollark: I got offers of a gold+silver on my ND and those are around 2G prizes in rarity.

See also

References

  1. Napier, WM; Clube, SVM (1979). "A theory of terrestrial catastrophism". Nature. 282: 455–459. Bibcode:1979Natur.282..455N. doi:10.1038/282455a0.
  2. Rampino, Michael R.; Haggerty, Bruce M. (February 1996). "The ?Shiva Hypothesis?: Impacts, mass extinctions, and the galaxy". Earth, Moon, and Planets. 72 (1–3): 441–460. Bibcode:1996EM&P...72..441R. doi:10.1007/BF00117548.
  3. Clube, SVM; Napier, WM (1984). "Comet capture from molecular clouds: A dynamical constraint on star and planet formation". Monthly Notices of the Royal Astronomical Society. Oxford University Press. 208 (3): 575–588. Bibcode:1984MNRAS.208..575C. doi:10.1093/mnras/208.3.575.
  4. Rampino, Michael R; Stothers, Richard B (1984). "Terrestrial mass extinctions, cometary impacts and the Sun's motion perpendicular to the galactic plane". Nature. 308 (5961): 709–712. Bibcode:1984Natur.308..709R. doi:10.1038/308709a0.


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