A Parvancorina-like arthropod from the Cambrian of South China

Constraining the origin of animal groups is allowed, to some extent, by discoveries of Cambrian Lagerstätten that preserve both mineralizing and nonmineralizing organisms. A new species is reported here of the Cambrian arthropod Skania, which bears an exoskeleton that shares homologies with the Neop...

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Bibliographic Details
Published in:Historical biology 2006-03, Vol.18 (1), p.33-45
Main Authors: Lin, Jih-Pai, Gon, Samuel M., Gehling, James G., Babcock, Loren E., Zhao, Yuan-Long, Zhang, Xing-Liang, Hu, Shi-Xue, Yuan, Jin-Liang, Yu, Mei-Yi, Peng, Jin
Format: Article
Language:English
Subjects:
Arachnomorpha
Burgess Shale-type deposits
Ediacaran
Kaili Formation
Parvancorinomorpha
Primicaris
Skania
Vendobionts
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Summary:Constraining the origin of animal groups is allowed, to some extent, by discoveries of Cambrian Lagerstätten that preserve both mineralizing and nonmineralizing organisms. A new species is reported here of the Cambrian arthropod Skania, which bears an exoskeleton that shares homologies with the Neoproterozoic (Ediacaran) organism Parvancorina and firmly establishes a Precambrian root for arthropods. A new monophyletic group, Parvancorinomorpha, is proposed as the first clade within the arthropod crown group demonstrably ranging across the Neoproterozoic-Paleozoic transition. The Parvancorinomorpha is interpreted to be the sister group of the Arachnomorpha. Incipient cephalization in Skania and related genera represents a step in the progression toward division of a cephalon from a large posterior trunk as shown in Cambrian arachnomorphs such as naraoiids and the addition of a pygidium and thoracic tergites as shown in the arachnomorph clade basal to trilobites. This evidence can serve as a new calibration point for estimating the divergence time for the last common ancestor of arthropods and priapulids based on molecular clock methods.
ISSN:0891-2963
1029-2381
DOI:10.1080/08912960500508689