Enigmatic encrusting fossils from the Upper Devonian of Russia: probable Rothpletzella microproblematica preserved in three dimensions

ABSTRACT

Intriguing microfossils encrusting certain Upper Devonian brachiopod shells from the Central Devonian Field, Russia, are reported for the first time. The fossils are pyritized, have fan-shaped morphologies and are formed by tightly-packed branches which divide dichotomously at different points in their development. The organisms preserved grew horizontally on shelly substrates. Comparisons with similar fossils known from the literature indicate that they do not represent any animal taxon commonly encrusting hard substrates. Instead, the morphology, organization and growth mode of these fossils are most similar to microfossils known under the name Rothpletzella, which so far have only been known from thin sections. Rothpletzella is a problematicum for which algal affinities have been proposed. The preserved branches of the fossils described here are too large for cyanobacterial cells. Their large size suggests their placement, along with other described Rothpletzella fossils, within the green algae order Bryopsidales. It is suggested that originally, these organisms possessed thalli encased within a thin, delicate calcified sheath. After burial the thalli underwent pyritization via sulphate reduction mediated by bacterial activity within low pH, dysoxic microenvironment, and their sheath dissolved. As three-dimensionally preserved, these algae provide a new, previously unrecognized, component within the Devonian encrusting communities.

KEYWORDS:

• Epibionts
• Frasnian
• algae
• pyritization
• palaeoecology

Acknowledgments

The fieldworks in the Central Devonian Field during 2012 were supported by the National Science Centre (NCN, grant no. 2011/01/B/ST10/00576 to M.Z.). We thank to the following colleagues for help during the field works: Michał Rakociński, Tomasz Borszcz, Wojtek Krawczyński, Elena Sokiran and Andrey Zhuravlev. Axel Munnecke provided access to reference material in his thin section collection from Gotland, which is greatly appreciated. Paul Taylor, Juliet Brodie and Michael Krings are thanked for discussions. Mark Wilson and Steve Donovan, the journal referees, are thanked for constructive comments and useful corrections which improved the final version of the paper.

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Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This work was supported by the Narodowe Centrum Nauki [2011/01/B/ST10/00576].