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Abiogenic formation of alkanes in the Earth's crust as a minor source for global hydrocarbon reservoirs

Author

Listed:
  • B. Sherwood Lollar

    (University of Toronto)

  • T. D. Westgate

    (University of Toronto)

  • J. A. Ward

    (University of Toronto)

  • G. F. Slater

    (University of Toronto)

  • G. Lacrampe-Couloume

    (University of Toronto)

Abstract

Natural hydrocarbons are largely formed by the thermal decomposition of organic matter (thermogenesis) or by microbial processes (bacteriogenesis). But the discovery of methane at an East Pacific Rise hydrothermal vent1 and in other crustal fluids supports the occurrence of an abiogenic source of hydrocarbons2,3,4. These abiogenic hydrocarbons are generally formed by the reduction of carbon dioxide, a process which is thought to occur during magma cooling5 and—more commonly—in hydrothermal systems during water–rock interactions, for example involving Fischer–Tropsch reactions and the serpentinization of ultramafic rocks6,7,8,9,10. Suggestions that abiogenic hydrocarbons make a significant contribution to economic hydrocarbon reservoirs2 have been difficult to resolve, in part owing to uncertainty in the carbon isotopic signatures for abiogenic versus thermogenic hydrocarbons4,10. Here, using carbon and hydrogen isotope analyses of abiogenic methane and higher hydrocarbons in crystalline rocks of the Canadian shield, we show a clear distinction between abiogenic and thermogenic hydrocarbons. The progressive isotopic trends for the series of C1–C4 alkanes indicate that hydrocarbon formation occurs by way of polymerization of methane precursors. Given that these trends are not observed in the isotopic signatures of economic gas reservoirs, we can now rule out the presence of a globally significant abiogenic source of hydrocarbons.

Suggested Citation

  • B. Sherwood Lollar & T. D. Westgate & J. A. Ward & G. F. Slater & G. Lacrampe-Couloume, 2002. "Abiogenic formation of alkanes in the Earth's crust as a minor source for global hydrocarbon reservoirs," Nature, Nature, vol. 416(6880), pages 522-524, April.
  • Handle: RePEc:nat:nature:v:416:y:2002:i:6880:d:10.1038_416522a
    DOI: 10.1038/416522a
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    Cited by:

    1. Koudai Taguchi & Alexis Gilbert & Barbara Sherwood Lollar & Thomas Giunta & Christopher J. Boreham & Qi Liu & Juske Horita & Yuichiro Ueno, 2022. "Low 13C-13C abundances in abiotic ethane," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    2. O. Warr & C. J. Ballentine & T. C. Onstott & D. M. Nisson & T. L. Kieft & D. J. Hillegonds & B. Sherwood Lollar, 2022. "86Kr excess and other noble gases identify a billion-year-old radiogenically-enriched groundwater system," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    3. Dorothy Z. Oehler & Sherry L. Cady, 2014. "Biogenicity and Syngeneity of Organic Matter in Ancient Sedimentary Rocks: Recent Advances in the Search for Evidence of Past Life," Challenges, MDPI, vol. 5(2), pages 1-24, August.

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