Biosphere in 3.5 Ga Submarine Hydrothermal System.

Abstract

Abundant organic matterkerogenwas identified in 3.5 Ga hydrothermal silica dikes from the North Pole area in the Pilbara craton, Western Australia. The silica dikes developed in the uppermost 1000 m of the ancient oceanic crust. Thus, they would have been deposited in the 3.5 Ga sub-seafloor hydrothermal system. The carbon and nitrogen isotopic compositions of the kerogen were analyzed in this study. Their highly 13 C-depleted isotopic compositions 13 C 38 to 33strongly suggest that they are originally derived from biologically produced organic matter. The remarkable similarity of the 13 C values between the kerogen and modern hydrothermal vent organisms may suggest that the kerogen was derived from chemoautotrophic organisms. This idea is also consistent with their nitrogen isotopic compositions 15 N 4 to 4. The silica dikes consist mainly of fine-grained silica with minor pyrite and sphalerite. These mineral assemblages indicate that the silica dike was deposited from relatively low-temperatureprobably less than 150 reducing hydrothermal fluid. Thus, anaerobic thermophilic/hyperthermophilic organisms could have survived in the hydrothermal fluid, which formed the silica dikes. Therefore, it is plausible that a chemoautotrophic-based biospherepossibly methanogenesisprobably existed in the Early Archean sub-seafloor hydrothermal system.