Decay of vertebrate characters in hagfish and lamprey (Cyclostomata) and the implications for the vertebrate fossil record

• Published in: Proceedings of the Royal Society. B, Biological sciences Vol. 278; no. 1709; pp. 1150 - 1157
• Main Authors: Sansom, Robert S., Gabbott, Sarah E., Purnell, Mark A.
• Format: Journal Article
• Language: English
• Published: England The Royal Society 22.04.2011
• Subjects: Anatomy; Animals; Biological Evolution; Cartilage; Cartilage - anatomy & histology; Cartilage - pathology; Cartilage Evolution; Chordata; Cyclostomata; Cyclostomes; Decay Bias; Embryonic structures; Evolution; Experimental Taphonomy; Fossils; Genomes; Hagfishes - anatomy & histology; Hagfishes - classification; Haikouichthys; Lampetra; Lampreys - anatomy & histology; Lampreys - classification; Myxine; Myxinidae; Petromyzontidae; Phylogenetics; Phylogeny; Taphonomy; Teeth; Vertebrate; Vertebrates
• ISSN: 0962-8452; 1471-2954
• DOI: 10.1098/rspb.2010.1641

The timing and sequence of events underlying the origin and early evolution of vertebrates remains poorly understood. The palaeontological evidence should shed light on these issues, but difficulties in interpretation of the non-biomineralized fossil record make this problematic. Here we present an experimental analysis of decay of vertebrate characters based on the extant jawless vertebrates (Lampetra and Myxine). This provides a framework for the interpretation of the anatomy of soft-bodied fossil vertebrates and putative cyclostomes, and a context for reading the fossil record of non-biomineralized vertebrate characters. Decay results in transformation and non-random loss of characters. In both lamprey and hagfish, different types of cartilage decay at different rates, resulting in taphonomic bias towards loss of ‘soft’ cartilages containing vertebrate-specific Col2α1 extracellular matrix proteins; phylogenetically informative soft-tissue characters decay before more plesiomorphic characters. As such, synapomorphic decay bias, previously recognized in early chordates, is more pervasive, and needs to be taken into account when interpreting the anatomy of any non-biomineralized fossil vertebrate, such as Haikouichthys, Mayomyzon and Hardistiella.