The fossil of a previously unknown species of ‘sea scorpion’, measuring over 1.5 meters long, has been discovered in Iowa, USA, and described in the open access journal BMC Evolutionary Biology.
Dating back 460 million years, it is the oldest known species of eurypterid (sea scorpion) – extinct monster-like predators that swam the seas in ancient times and are related to modern arachnids.
The authors named the new species Pentecopterus decorahensis after the ‘penteconter’ - an ancient Greek warship that the species resembles in outline and parallels in its predatory behavior.
Lead author, James Lamsdell from Yale University, USA, said: “The new species is incredibly bizarre. The shape of the paddle - the leg which it would use to swim - is unique, as is the shape of the head. It's also big - over a meter and a half long!”
He adds: “Perhaps most surprising is the fantastic way it is preserved – the exoskeleton is compressed on the rock but can be peeled off and studied under a microscope. This shows an amazing amount of detail, such as the patterns of small hairs on the legs. At times it seems like you are studying the shed skin of a modern animal – an incredibly exciting opportunity for any paleontologist.”
The new eurypterid species is represented by more than 150 fossil fragments, excavated from the upper layer of the Winneshiek Shale in northeastern Iowa - a 27 meter thick sandy shale located within an ancient meteorite impact crater and mostly submerged by the Upper Iowa River.
Some large body segments suggest a total length of up to 1.7 meters, making Pentecopterus the largest known eurypterid from its era.
Pentecopterus is about 460 million years old, making it ten million years older than the previous oldest record of the eurypterid group.
Some features of Pentecopterus revealed in the fossils also allow the researchers to interpret the functions of certain body parts. The rearmost limbs include a paddle with a large surface area, and joints that appear to be locked in place to reduce flex. This suggests that Pentecopterus used these paddles to either swim or dig.
The second and third pairs of limbs may have been angled forward, suggesting that they were involved primarily in prey capture rather than locomotion. The three rearmost pairs of limbs are shorter than the front pairs, suggesting that Pentecopterus may have walked on six legs rather than eight.
The exceptional preservation of the exoskeleton also helped the researchers to interpret the role of finer structures, including scales, follicles and setae (stiff bristles).
The rearmost limbs are covered in dense setae. These form arrangements similar to swimming crabs, where they function to expand the surface area of the paddle during swimming. But the smaller follicle size in eurypterids suggests that the setae could have had a sensory function.
Spines are also present on some limbs and appear similar to those found on horseshoe crabs where they aid in processing food.
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Notes to editor:
1. Images, including an artist’s impression and fossil photos, are available here: http://bit.ly/1fGhVXY
The credit information provided in the filenames must be included in any re-use.
2. Research article
The oldest described eurypterid: a giant Middle Ordovician (Darriwilian) megalograptid from the Winneshiek Lagerstätte of Iowa
James C. Lamsdell, Derek E. G. Briggs, Huaibao P. Liu, Brian J. Witzke and Robert M. McKay
BMC Evolutionary Biology 2015
Article available at journal website here: http://dx.doi.org/10.1186/s12862-015-0443-9
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3. BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
BMC Evolutionary Biology is part of the BMC series which publishes subject-specific journals focused on the needs of individual research communities across all areas of biology and medicine. We offer an efficient, fair and friendly peer review service, and are committed to publishing all sound science, provided that there is some advance in knowledge presented by the work.