Biogenicity of Morphologically Diverse Carbonaceous Microstructures from the <i>ca.</i> 3400 Ma Strelley Pool Formation, in the Pilbara Craton, Western Australia

Sugitani, Kenichiro; Lepot, Kevin; Nagaoka, Tsutomu; Mimura, Koichi; Kranendonk, Martin J. Van; Oehler, Dorothy Z.; Walter, Malcolm R.

doi:10.1089/ast.2010.0513

Cited by 94 publications

(93 citation statements)

References 68 publications

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“…Current interpretations of the diversity of Earth's earliest life come predominantly from stromatolites (e.g., Lowe, 1980;Walter et al, 1980;Byerly et al, 1986;Hofmann et al, 1999;Allwood et al, 2006Allwood et al, , 2007Allwood et al, , 2009Allwood et al, , 2010Hickman, 2012), organic microfossils of prokaryotes and biofilms (e.g., Awramik et al, 1983;Walsh andLowe, 1985, 1999;Walsh, 1992;Hofmann, 2004;Schopf et al, 2007;Schopf and Bottjer, 2009;Sugitani et al, 2010;Wacey et al, 2011Wacey et al, , 2012Hickman 2012), and isotopic signatures of carbon and sulfur (e.g., Shen et al, 2001Shen et al, , 2009Ueno et al, 2006Ueno et al, , 2008Wacey et al, 2010). Microbially induced sedimentary structures (MISS) provide an additional way to decode life in ancient sediments (review in Noffke, 2010).…”

Section: Microbially Induced Sedimentary Structures and The Early Recmentioning

confidence: 99%

Microbially Induced Sedimentary Structures Recording an Ancient Ecosystem in theca.3.48 Billion-Year-Old Dresser Formation, Pilbara, Western Australia

et al. 2013

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Microbially induced sedimentary structures (MISS) result from the response of microbial mats to physical sediment dynamics. MISS are cosmopolitan and found in many modern environments, including shelves, tidal flats, lagoons, riverine shores, lakes, interdune areas, and sabkhas. The structures record highly diverse communities of microbial mats and have been reported from numerous intervals in the geological record up to 3.2 billion years (Ga) old. This contribution describes a suite of MISS from some of the oldest well-preserved sedimentary rocks in the geological record, the early Archean (ca. 3.48 Ga) Dresser Formation, Western Australia. Outcrop mapping at the meter to millimeter scale defined five sub-environments characteristic of an ancient coastal sabkha. These sub-environments contain associations of distinct macroscopic and microscopic MISS. Macroscopic MISS include polygonal oscillation cracks and gas domes, erosional remnants and pockets, and mat chips. Microscopic MISS comprise tufts, sinoidal structures, and laminae fabrics; the microscopic laminae are composed of primary carbonaceous matter, pyrite, and hematite, plus trapped and bound grains. Identical suites of MISS occur in equivalent environmental settings through the entire subsequent history of Earth including the present time. This work extends the geological record of MISS by almost 300 million years. Complex matforming microbial communities likely existed almost 3.5 billion years ago.

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Section: Microbially Induced Sedimentary Structures and The Early Recmentioning

confidence: 99%

Microbially Induced Sedimentary Structures Recording an Ancient Ecosystem in theca.3.48 Billion-Year-Old Dresser Formation, Pilbara, Western Australia

et al. 2013

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“…Sugitani et al (2010) showed that Raman spectra collected on carbonaceous microstructures from the 3.4 Ga Strelley Pool Formation had I D /I G ratios varying between 1.25 and 1.94. Micrometer-scale heterogeneities in CM may be explained by a variety of mechanisms, such as micrometer-scale differences in precursor chemistry of CM, and subsequently dissimilar alteration pathways of the different precursor material, allochthonous CM, or emplacement of CM during multiple hydrothermal pulses at different temperatures.…”

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confidence: 99%

Multiple Generations of Carbon in the Apex Chert and Implications for Preservation of Microfossils

2012

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While the Apex chert is one of the most well-studied Archean deposits on Earth, its formation history is still not fully understood. Here, we present Raman spectroscopic data collected on the carbonaceous material (CM) present within the matrix of the Apex chert. These data, collected within a paragenetic framework, reveal two different phases of CM deposited within separate phases of quartz matrix. These multiple generations of CM illustrate the difficulty of searching for signs of life in these rocks and, by extension, in other Archean sequences.

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“…The importance of a reducing atmosphere is that the action of various energy sources on reduced C gas mixtures, including CO and CH 4 , results in the formation of a variety of more complex organic compounds, whereas using CO 2 this chemistry is less productive (Miller Sugitani et al 2010) and Schlesinger 1984;Miller 1983a, 1983b). In the presence of nitrogen, in the form of N 2 or NH 3 , important biological compounds including amino acids, purines and pyrimidines can be formed (Cleaves and Lazcano 2009).…”

Section: The Earth Early Atmospherementioning

confidence: 99%

Astrobiology and the Possibility of Life on Earth and Elsewhere…

et al. 2015

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Astrobiology is an interdisciplinary scientific field not only focused on the search of extraterrestrial life, but also on deciphering the key environmental parameters that have enabled the emergence of life on Earth. Understanding these physical and chemical parameters is fundamental knowledge necessary not only for discovering life or signs of life on other planets, but also for understanding our own terrestrial environment. Therefore, astrobiology pushes us to combine different perspectives such as the conditions on the primitive Earth, the Team of interdisciplinary scientists focused on astrobiology to review the profound transformations in the field that have occurred since the beginning of the new century. The present paper is an interdisciplinary review of current research in astrobiology, covering the major advances and main outlooks in the field. The following subjects will be reviewed and most recent discoveries will be highlighted: the new understanding of planetary system formation including the specificity of the Earth among the diversity of planets, the origin of water on Earth and its unique combined properties among solvents for the emergence of life, the idea that the Earth could have been habitable during the Hadean Era, the inventory of endogenous and exogenous sources of organic matter and new concepts about how chemistry could evolve towards biological molecules and biological systems. In addition, many new findings show the remarkable potential life has for adaptation and survival in extreme environments. All those results from different fields of science are guiding our perspectives and strategies to look for life in other Solar System objects as well as beyond, in extrasolar worlds.

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Biogenicity of Morphologically Diverse Carbonaceous Microstructures from the ca. 3400 Ma Strelley Pool Formation, in the Pilbara Craton, Western Australia

Cited by 94 publications

References 68 publications

Microbially Induced Sedimentary Structures Recording an Ancient Ecosystem in theca.3.48 Billion-Year-Old Dresser Formation, Pilbara, Western Australia

Microbially Induced Sedimentary Structures Recording an Ancient Ecosystem in theca.3.48 Billion-Year-Old Dresser Formation, Pilbara, Western Australia

Multiple Generations of Carbon in the Apex Chert and Implications for Preservation of Microfossils

Astrobiology and the Possibility of Life on Earth and Elsewhere…

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