Abstract
The great diversity of dinosaurian tooth shapes and sizes, and in particular, the amazing dental complexity in derived ornithischians has attracted a lot of attention. However, the evolution of dental batteries in hadrosaurids and ceratopsids is difficult to understand without a broader comparative framework. Here we describe tooth histology and development in the "middle" Cretaceous ornithischian dinosaur Changchunsaurus parvus, a small herbivore that has been characterized as an early ornithopod, or even as a more basal ornithischian. We use this taxon to show how a "typical" ornithischian dentition develops, copes with wear, and undergoes tooth replacement. Although in most respects the histological properties of their teeth are similar to those of other dinosaurs, we show that, as in other more derived ornithischians, in C. parvus the pulp chamber is not invaded fully by the newly developing replacement tooth until eruption is nearly complete. This allowed C. parvus to maintain an uninterrupted shearing surface along a single tooth row, while undergoing continuous tooth replacement. Our histological sections also show that the replacement foramina on the lingual surfaces of the jaws are likely the entry points for an externally placed dental lamina, a feature found in many other ornithischian dinosaurs. Surprisingly, our histological analysis also revealed the presence of wavy enamel, the phylogenetically earliest occurrence of this type of tissue. This contradicts previous interpretations that this peculiar type of enamel arose in association with more complex hadrosauroid dentitions. In view of its early appearance, we suggest that wavy enamel may have evolved in association with a shearing-type dentition in a roughly symmetrically-enameled crown, although its precise function still remains somewhat of a mystery.
Highlights
Comparative dental histology is an emerging area of study in dinosaur palaeontology [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18] and the breadth and depth of this research is increasing
Ornithischian dinosaurs display an amazing diversity of tooth shapes, sizes, and arrangements to cope with their herbivorous diets [2,9,10,13,27,28,29,30,31]
At the earliest stage of the tooth replacement cycle, a new tooth develops lingual to its predecessor at the level of a large foramen that opens onto the lingual surface of the dentary (Fig 3), supporting the hypothesis that these foramina are the entry points of a lingually positioned dental lamina into the dentary [38,42]
Summary
Comparative dental histology is an emerging area of study in dinosaur palaeontology [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18] and the breadth and depth of this research is increasing. The teeth of most early ornithischian dinosaurs were relatively simple triangular or leaf-shaped teeth for shearing plant material [32], but hadrosaurid and ceratopsid dinosaurs displayed extensive modifications to their dentitions, forming complex dental batteries for more efficient oral processing. The evolution of these complex structures, the dental batteries of hadrosaurids, has been studied extensively and figures prominently in many histological analyses of dinosaur teeth [1,2,3,4,6,9,16,22,33]. Whereas several studies have revealed important insights into dental anatomy and replacement in phylogenetically earlier ornithischians [34,35,36,37,38] our understanding of dental histology and development in many of these ornithischian clades remains poor compared to the wealth of research efforts focused on more specialized, dental battery-bearing taxa
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