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Nematoda from the terrestrial deep subsurface of South Africa

Authors :
Borgonie, G.
Garcia-Moyano, A.
Litthauer, D.
Bert, W.
Bester, A.
van Heerden, E.
Moller, C.
Erasmus, M.
Onstott, T.C.
Source :
Nature. June 2, 2011, Vol. 474 Issue 7349, p79, 4 p.
Publication Year :
2011

Abstract

Since its discovery over two decades ago, the deep subsurface biosphere has been considered to be the realm of single-cell organisms, extending over three kilometres into the Earth's crust and comprising a significant fraction of the global biosphere (1-4). The constraints of temperature, energy, dioxygen and space seemed to preclude the possibility of more-complex, multicellular organisms from surviving at these depths. Here we report species of the phylum Nematoda that have been detected in or recovered from 0.9-3.6-kilometre-deep fracture water in the deep mines of South Africa but have not been detected in the mining water. These subsurface nematodes, including a new species, Halicephalobus mephisto, tolerate high temperature, reproduce asexually and preferentially feed upon subsurface bacteria. Carbon-14 data indicate that the fracture water in which the nematodes reside is 3,000-12,000-year-old palaeometeoric water. Our data suggest that nematodes should be found in other deep hypoxic settings where temperature permits, and that they may control the microbial population density by grazing on fracture surface biofilm patches. Our results expand the known metazoan biosphere and demonstrate that deep ecosystems are more complex than previously accepted. The discovery of multicellular life in the deep subsurface of the Earth also has important implications for the search for subsurface life on other planets in our Solar System.<br />Phylum Nematoda Potts, 1932 Suborder Cephalobina Superfamily Panagrolaimidae Halicephalobus mephisto sp. nov. Etymology. Mephisto (from Mephistopheles, pseudo-Greek): 'he who loves not the light', alluding to the Devil, Lord of the [...]

Details

Language :
English
ISSN :
00280836
Volume :
474
Issue :
7349
Database :
Gale General OneFile
Journal :
Nature
Publication Type :
Academic Journal
Accession number :
edsgcl.258909987
Full Text :
https://doi.org/10.1038/nature09974