Polyene-based colouration preserved in 12 million-year-old gastropod shells

Wolkenstein, Klaus; Schmidt, Burkhard; Harzhauser, Mathias

doi:10.1101/2023.05.17.541181

2023

DOI: 10.1101/2023.05.17.541181

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Polyene-based colouration preserved in 12 million-year-old gastropod shells

Klaus Wolkenstein

Burkhard Schmidt

Mathias Harzhauser

Abstract: Polyene pigments represent a major class of pigments in present-day organisms. Their occurrence in fossils has been frequently discussed, but to date no spectroscopic evidence was found. Here, we use in situ Raman microspectroscopy to examine the chemistry of exceptionally well-preserved gastropod shells with colour preservation from the Middle Miocene of the Vienna Basin (Austria, Hungary). Raman signals indicative for the presence of intact, i.e. non-hydrogenated polyene pigments were obtained from the fossi… Show more

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Two-photon excitation fluorescence microspectroscopy protocols for examining fluorophores in fossil plants

Stoneman,

McCoy,

Gee

et al. 2024

Commun Biol

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Fluorescence emission is common in plants. While fluorescence microscopy has been widely used to study living plants, its application in quantifying the fluorescence of fossil plants has been limited. Fossil plant fluorescence, from original fluorophores or formed during fossilization, can offer valuable insights into fluorescence in ancient plants and fossilization processes. In this work, we utilize two-photon fluorescence microspectroscopy to spatially and spectrally resolve the fluorescence emitted by amber-embedded plants, leaf compressions, and silicified wood. The advanced micro-spectroscope utilized, with its pixel-level spectral resolution and line-scan excitation capabilities, allows us to collect comprehensive excitation and emission spectra with high sensitivity and minimal laser damage to the specimens. By applying linear spectral unmixing to the spectrally resolved fluorescence images, we can differentiate between (a) the matrix and (b) the materials that comprise the fossil. Our analysis suggests that the latter correspond to durable tissues such as lignin and cellulose. Additionally, we observe potential signals from chlorophyll derivatives/tannins, although minerals may have contributed to this. This research opens doors to exploring ancient ecosystems and understanding the ecological roles of fluorescence in plants throughout time. Furthermore, the protocols developed herein can also be applied to analyze non-plant fossils and biological specimens.

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Two-photon excitation fluorescence microspectroscopy protocols for examining fluorophores in fossil plants

Stoneman,

McCoy,

Gee

et al. 2024

Commun Biol

View full text Add to dashboard Cite

show abstract

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Polyene-based colouration preserved in 12 million-year-old gastropod shells

Cited by 1 publication

References 43 publications

Two-photon excitation fluorescence microspectroscopy protocols for examining fluorophores in fossil plants

Two-photon excitation fluorescence microspectroscopy protocols for examining fluorophores in fossil plants

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