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Unravelling the Origins of Life : Hakuba Hot-spring Chemistry of Oldest Microbes and Significance of Microbes Surviving in a Hadean-like Environment. / Maruyama, Shigenori; Sato, Tomohiko; Sawaki, Yusuke et al.

In: Journal of geography-Chigaku zasshi, Vol. 129, No. 6, 2020, p. 757-777.

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Maruyama S, Sato T, Sawaki Y, Suda K. Unravelling the Origins of Life: Hakuba Hot-spring Chemistry of Oldest Microbes and Significance of Microbes Surviving in a Hadean-like Environment. Journal of geography-Chigaku zasshi. 2020;129(6):757-777. doi: 10.5026/jgeography.129.757

Author

Maruyama, Shigenori ; Sato, Tomohiko ; Sawaki, Yusuke et al. / Unravelling the Origins of Life : Hakuba Hot-spring Chemistry of Oldest Microbes and Significance of Microbes Surviving in a Hadean-like Environment. In: Journal of geography-Chigaku zasshi. 2020 ; Vol. 129, No. 6. pp. 757-777.

BibTeX

@article{289452bea972465fb7604ea700c2734b,
title = "Unravelling the Origins of Life: Hakuba Hot-spring Chemistry of Oldest Microbes and Significance of Microbes Surviving in a Hadean-like Environment",
abstract = "Reported are the origins and chemistry of hot spring water unique to the Ohmi-Hakuba region in the northern Japan Alps, central north Honshu, where a variety of rock types, derived from accretionary complex formed in the Ediacaran (presumably ca. 620 Ma), are regionally exposed. One of the largest bodies of serpentinized peridotite in Japan intersects the Quaternary volcanic front. Featuring an unusual geochemistry, the resulting unique hydrothermal hot springs yield a high pH (ca. 10-11) and a continuous supply of H-2. Research reveals four types of hot spring in the Hakuba region: (1) serpentinite hosted hot spring water, (2) high-salinity and carbonated water, (3) Archean type low pO(2) hot spring water, and (4) acidic and sulfuric hot spring water with a H2S gas input from magma. The high alkali and H-2-enriched hot spring water (Type 1) differs remarkably from other hot springs in this region. In terms of geochemistry, there is a dissolved oxygen content due to the production of abundant H-2, which is the reason why a Hadean-type microbial community is present. The origins and evolution of life are closely related to atmospheric oxygen level. Generally, anaerobic microbes inhabit subsurface areas where free oxygen is limited, while oxygen adaptive creatures cannot survive in an anaerobic environment. This means anaerobic microbes have not evolved, and remain as {"}living fossils{"}. Hakuba OD1 is one of the most important candidates for the oldest form of life directly connected to LUCA, because it has survived in a Hadean-like environment since emerging. The next research target is the ecosystem in a H-2-enriched environment without free oxygen.",
keywords = "serpentinite hosted hydrothermal system, oxygen content, Hadean type environment, water chemistry, origin and evolution of life",
author = "Shigenori Maruyama and Tomohiko Sato and Yusuke Sawaki and Konomi Suda",
year = "2020",
doi = "10.5026/jgeography.129.757",
language = "English",
volume = "129",
pages = "757--777",
journal = "Journal of geography-Chigaku zasshi",
issn = "0022-135X",
publisher = "TOKYO GEOGRAPHICAL SOC",
number = "6",

}

RIS

TY - JOUR

T1 - Unravelling the Origins of Life

T2 - Hakuba Hot-spring Chemistry of Oldest Microbes and Significance of Microbes Surviving in a Hadean-like Environment

AU - Maruyama, Shigenori

AU - Sato, Tomohiko

AU - Sawaki, Yusuke

AU - Suda, Konomi

PY - 2020

Y1 - 2020

N2 - Reported are the origins and chemistry of hot spring water unique to the Ohmi-Hakuba region in the northern Japan Alps, central north Honshu, where a variety of rock types, derived from accretionary complex formed in the Ediacaran (presumably ca. 620 Ma), are regionally exposed. One of the largest bodies of serpentinized peridotite in Japan intersects the Quaternary volcanic front. Featuring an unusual geochemistry, the resulting unique hydrothermal hot springs yield a high pH (ca. 10-11) and a continuous supply of H-2. Research reveals four types of hot spring in the Hakuba region: (1) serpentinite hosted hot spring water, (2) high-salinity and carbonated water, (3) Archean type low pO(2) hot spring water, and (4) acidic and sulfuric hot spring water with a H2S gas input from magma. The high alkali and H-2-enriched hot spring water (Type 1) differs remarkably from other hot springs in this region. In terms of geochemistry, there is a dissolved oxygen content due to the production of abundant H-2, which is the reason why a Hadean-type microbial community is present. The origins and evolution of life are closely related to atmospheric oxygen level. Generally, anaerobic microbes inhabit subsurface areas where free oxygen is limited, while oxygen adaptive creatures cannot survive in an anaerobic environment. This means anaerobic microbes have not evolved, and remain as "living fossils". Hakuba OD1 is one of the most important candidates for the oldest form of life directly connected to LUCA, because it has survived in a Hadean-like environment since emerging. The next research target is the ecosystem in a H-2-enriched environment without free oxygen.

AB - Reported are the origins and chemistry of hot spring water unique to the Ohmi-Hakuba region in the northern Japan Alps, central north Honshu, where a variety of rock types, derived from accretionary complex formed in the Ediacaran (presumably ca. 620 Ma), are regionally exposed. One of the largest bodies of serpentinized peridotite in Japan intersects the Quaternary volcanic front. Featuring an unusual geochemistry, the resulting unique hydrothermal hot springs yield a high pH (ca. 10-11) and a continuous supply of H-2. Research reveals four types of hot spring in the Hakuba region: (1) serpentinite hosted hot spring water, (2) high-salinity and carbonated water, (3) Archean type low pO(2) hot spring water, and (4) acidic and sulfuric hot spring water with a H2S gas input from magma. The high alkali and H-2-enriched hot spring water (Type 1) differs remarkably from other hot springs in this region. In terms of geochemistry, there is a dissolved oxygen content due to the production of abundant H-2, which is the reason why a Hadean-type microbial community is present. The origins and evolution of life are closely related to atmospheric oxygen level. Generally, anaerobic microbes inhabit subsurface areas where free oxygen is limited, while oxygen adaptive creatures cannot survive in an anaerobic environment. This means anaerobic microbes have not evolved, and remain as "living fossils". Hakuba OD1 is one of the most important candidates for the oldest form of life directly connected to LUCA, because it has survived in a Hadean-like environment since emerging. The next research target is the ecosystem in a H-2-enriched environment without free oxygen.

KW - serpentinite hosted hydrothermal system

KW - oxygen content

KW - Hadean type environment

KW - water chemistry

KW - origin and evolution of life

U2 - 10.5026/jgeography.129.757

DO - 10.5026/jgeography.129.757

M3 - Review article

VL - 129

SP - 757

EP - 777

JO - Journal of geography-Chigaku zasshi

JF - Journal of geography-Chigaku zasshi

SN - 0022-135X

IS - 6

ER -

ID: 27913381