Molecular preservation of 1.88 Ga Gunflint organic microfossils as a function of temperature and mineralogy
The significant degradation that fossilized biomolecules may experience during burial makes it challenging to assess the biogenicity of organic microstructures in ancient rocks. Here we investigate the molecular signatures of 1.88 Ga Gunflint organic microfossils as a function of their diagenetic hi...
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Veröffentlicht in: | Nature communications 2016-06, Vol.7 (1), p.11977-11977, Article 11977 |
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Sprache: | eng |
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Zusammenfassung: | The significant degradation that fossilized biomolecules may experience during burial makes it challenging to assess the biogenicity of organic microstructures in ancient rocks. Here we investigate the molecular signatures of 1.88 Ga Gunflint organic microfossils as a function of their diagenetic history. Synchrotron-based XANES data collected
in situ
on individual microfossils, at the submicrometre scale, are compared with data collected on modern microorganisms. Despite diagenetic temperatures of ∼150–170 °C deduced from Raman data, the molecular signatures of some Gunflint organic microfossils have been exceptionally well preserved. Remarkably, amide groups derived from protein compounds can still be detected. We also demonstrate that an additional increase of diagenetic temperature of only 50 °C and the nanoscale association with carbonate minerals have significantly altered the molecular signatures of Gunflint organic microfossils from other localities. Altogether, the present study provides key insights for eventually decoding the earliest fossil record.
Thermal diagenesis is generally seen as detrimental to the preservation of organic biosignatures. Using synchrotron-based XANES data, Alleon
et al.
find preservation of the molecular signatures of organic microfossils from the 1.88 Ga Gunflint cherts. |
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ISSN: | 2041-1723 2041-1723 |
DOI: | 10.1038/ncomms11977 |