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The deep, hot biosphere.

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  • 1. Cornell University, Ithaca, NY 14853.
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    • Gold T 1
    (1 author)

Proceedings of the National Academy of Sciences of the United States of America, 01 Jul 1992, 89(13):6045-6049
https://doi.org/10.1073/pnas.89.13.6045 PMID: 1631089 PMCID: PMC49434

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Abstract 

There are strong indications that microbial life is widespread at depth in the crust of the Earth, just as such life has been identified in numerous ocean vents. This life is not dependent on solar energy and photosynthesis for its primary energy supply, and it is essentially independent of the surface circumstances. Its energy supply comes from chemical sources, due to fluids that migrate upward from deeper levels in the Earth. In mass and volume it may be comparable with all surface life. Such microbial life may account for the presence of biological molecules in all carbonaceous materials in the outer crust, and the inference that these materials must have derived from biological deposits accumulated at the surface is therefore not necessarily valid. Subsurface life may be widespread among the planetary bodies of our solar system, since many of them have equally suitable conditions below, while having totally inhospitable surfaces. One may even speculate that such life may be widely disseminated in the universe, since planetary type bodies with similar subsurface conditions may be common as solitary objects in space, as well as in other solar-type systems.

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Proc Natl Acad Sci U S A. 1992 Jul 1; 89(13): 6045–6049.
PMCID: PMC49434
PMID: 1631089

The deep, hot biosphere.

T Gold
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Abstract

There are strong indications that microbial life is widespread at depth in the crust of the Earth, just as such life has been identified in numerous ocean vents. This life is not dependent on solar energy and photosynthesis for its primary energy supply, and it is essentially independent of the surface circumstances. Its energy supply comes from chemical sources, due to fluids that migrate upward from deeper levels in the Earth. In mass and volume it may be comparable with all surface life. Such microbial life may account for the presence of biological molecules in all carbonaceous materials in the outer crust, and the inference that these materials must have derived from biological deposits accumulated at the surface is therefore not necessarily valid. Subsurface life may be widespread among the planetary bodies of our solar system, since many of them have equally suitable conditions below, while having totally inhospitable surfaces. One may even speculate that such life may be widely disseminated in the universe, since planetary type bodies with similar subsurface conditions may be common as solitary objects in space, as well as in other solar-type systems.

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Selected References

These references are in PubMed. This may not be the complete list of references from this article.
  • Corliss JB, Dymond J, Gordon LI, Edmond JM, von Herzen RP, Ballard RD, Green K, Williams D, Bainbridge A, Crane K, van Andel TH. Submarine thermal sprirngs on the galapagos rift. Science. 1979 Mar 16;203(4385):1073–1083. [Abstract] [Google Scholar]
  • Haymon RM, Koski RA, Sinclair C. Fossils of hydrothermal vent worms from cretaceous sulfide ores of the samail ophiolite, oman. Science. 1984 Mar 30;223(4643):1407–1409. [Abstract] [Google Scholar]
  • Woese CR. Bacterial evolution. Microbiol Rev. 1987 Jun;51(2):221–271. [Europe PMC free article] [Abstract] [Google Scholar]
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