such as "Introduction", "Conclusion"..etc
Emmanuelle J. Javaux
Département de Géologie, Université de Liège, Allée du 6 août, B18, Sart-Tilman, 4000 Liège (Belgium) EJ.Javaux@ulg.ac.be
Craig P. Marshall
Vibrational Spectroscopy Facility, School of Chemistry, The University of Sydney, NSW 2006 (Australia)
Manuscript online since December 31, 2005
Precambrian; microfossils; morphology; geochemistry; biosignatures.
Javaux E.J. & Marshall C.P. (2005).- Tracking the record of early life. In: Steemans P. & Javaux E. (eds.), Pre-Cambrian to Palaeozoic Palaeopalynology and Palaeobotany.- Carnets de Géologie / Notebooks on Geology, Brest, Memoir 2005/02, Abstract 05 (CG2005_M02/05)
Life may have been present on Earth from about 3.8 Ga or earlier. Based on a combination of geochemical, morphological and sedimentological evidence, the early biosphere included a wide diversity of prokaryotes exhibiting modern metabolisms that thrived in various marine and possibly terrestrial habitats. Among early microorganisms, cyanobacteria played a major role, inventing oxygenic photosynthesis that caused a most profound alteration in our planet. Part of our ongoing work aims to characterize the morphological and geochemical signatures of modern and fossil cyanobacteria and other prokaryotes. Multidisciplinary research, especially on the paleontology of early microorganisms on Earth and the microbiology of extremophiles in recent Earth environments, will allow us to determine the biosignatures needed for advances in paleobiology and astrobiology.
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