Esox lucius, Linnaeus, 1758

Esox lucius View in CoL , Lepidopus caudatus , Thyrsites atun and Sphyraena guachancho

The various sections obtained from Esox lucius ( Fig. 1 View Figure 1 ), Lepidopus caudatus ( Fig. 2 View Figure 2 ), Thyrsites atun ( Fig. 3 View Figure 3 ) and in Sphyraena guachancho ( Fig. 4 View Figure 4 ) mainly show common features. In these fishes, the dentine includes odontoblastic processes housed in canaliculi. These canaliculi tend to decrease in number from the base to the apical region of the tooth. In addition, they arborize in several branchings and sometimes emit a panache of highly fine processes that establish connections with each other ( Figs 1C View Figure 1 , 2C View Figure 2 , 3D View Figure 3 , 4B, C View Figure 4 ). The odontoblastic canaliculi follow a general direction parallel to the axis of the tooth except when they approach the external surface of the tooth where they arrange perpendicularly direction ( Figs 2C View Figure 2 , 3D View Figure 3 , 4C View Figure 4 ). In addition to the odontoblastic canaliculi, a vascular system is also observed in the thickness of the teeth with numerous vascular canals, most of them being anastomosed ( Figs 1C View Figure 1 , 2C View Figure 2 , 3D View Figure 3 , 4B, C View Figure 4 ). Such an organization, with odontoblastic canaliculi and vascular canals present, characterizes a specific variety of dentine named osteodentine ( Lison, 1954). It is composed of simple units, the denteones ( Francillon-Vieillot et al., 1990), organized around a vascular canal ( Figs 1B View Figure 1 , 2B, C View Figure 2 , 3B, C View Figure 3 ). They are separated from each other by bands of calcified fibrous tissue composed of collagen fibres.

Examination in polarized light might evidence nicely the spatial organization of these fibres. In Sphyraena guachancho , the observation of a cross section in polarized light revealed their presence in dentine matrix. In fact, these fibres surrounding the vascular canals, are highly birefringent and appear in bright tint. However, in longitudinal section, they do not polarize and appear in dark. These collagen fibres are aligned parallel to each other and are therefore following a trajectory parallel to the direction of vascular canals and to the long axis of the tooth ( Fig. 4B, C View Figure 4 ).

The teeth of these four predators do not show dentin folds projecting into the base of the tooth, i.e. plicidentine is absent. The different sections show an enameloid layer around the teeth. This layer thickens gradually toward the apex of the tooth to the point that for some specimens, it forms a real cap of enameloid, the so-called cap acrodine ( Figs 1A View Figure 1 , 2B View Figure 2 , 3A View Figure 3 , 4A View Figure 4 ). A thick layer of enameloid is noticed on the cutting edge of the teeth in Thyrsites atun ( Fig. 3B, C View Figure 3 ).