Fossil burrows point to ancient seafloor colonization by giant marine worms

Fossil burrows point to ancient seafloor colonization by giant marine worms
Dr. Masakazu Nara (Kochi University, Japan) and Ms. Sassa Tzu-Tung Chen (Gothenburg University, Sweden) at Badouzi, NE Coast, Taiwan, sampling the new trace fossil using a rock cutter. Credit: Ludvig Löwemark.

Giant ambush-predator worms, possible ancestors of the 'bobbit worm', may have colonized the seafloor of the Eurasian continent around 20 million years ago. The findings, based on the reconstruction of large, L-shaped burrows from layers of seafloor dating back to the Miocene (23 million to 5.3 million years ago) of northeast Taiwan, are reported in Scientific Reports this week.

Ludvig Löwemark and colleagues reconstructed a new trace fossil, which they name Pennichnus formosae, using 319 specimens preserved within layers of formed during the Miocene era across northeast Taiwan. Trace fossils are such as burrows, track marks and plant root cavities preserved in rocks, which allow for conclusions to be drawn about the behavior of ancient organisms. The trace fossil consists of an L-shaped , roughly 2 meters in length and 2-3 centimeters in diameter.

The morphology of Pennichnus suggests the burrows were likely inhabited by giant marine , such as the bobbit worm (Eunice aphroditois), which are still found today. Bobbit worms hide in long, narrow burrows within the seafloor and propel upwards to grab prey. The authors suggest that the retreat of an ancient worm and its prey into the sediment caused distinct feather-like collapse structures preserved in Pennichnus formosae, which are indicative of disturbance of the sediment surrounding the burrow. Further analysis revealed a high concentration of iron towards the top section of the burrow. The authors suggest this may indicate that the worm re-built its burrow by secreting mucus to strengthen the burrow wall, as bacteria which feed on mucus produced by are known to create iron-rich environments.

  • Fossil burrows point to ancient seafloor colonization by giant marine worms
    Dr. Ludvig Löwemark protecting Ms. Yu-Yen Pan against the scorching Sun during handheld XRF measurements of the trace fossil's geochemistry at the Yehliu Geopark, NE Coast, Taiwan. Credit: Shahin Dashtgard.
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    Pennichnus burrow opening. Credit: Yu-Yen Pan

Although marine worms have existed since the early Palaeozoic, their bodies comprise mainly of soft tissue and are therefore rarely preserved. The trace fossil presented in the study is thought to be the first known fossil of this type produced by a sub-surface ambush predator. It provides a rare glimpse into these creatures' behavior beneath the seafloor.

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Lower, horizontal part of the burrow. Credit: Yu-Yen Pan

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More information: The 20-million-year old lair of an ambush-predatory worm preserved in northeast Taiwan, Scientific Reports (2021). DOI: 10.1038/s41598-020-79311-0 , www.nature.com/articles/s41598-020-79311-0
Journal information: Scientific Reports

Citation: Fossil burrows point to ancient seafloor colonization by giant marine worms (2021, January 21) retrieved 18 June 2021 from https://phys.org/news/2021-01-fossil-burrows-ancient-seafloor-colonization.html
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