Phosphatherium escuilliei, Gheerbrant, Sudre & Cappetta, 1996

PHOSPHATHERIUM ESCUILLIEI

In a vertical section of an upper molar, the enamel is 500–900-µm thick. The Schmelzmuster is two-layered, with radial enamel in the outer zone and HSB in the inner one ( Fig. 2A View Figure 2 ). The HSB represent more than 85% of the enamel thickness, and they start immediately at the EDJ. In some areas, HSB reach the OES. HSB start either perpendicular to the EDJ or with a little inclination; the bands can run straight outwards but they are frequently bent. The HSB are of variable width: they vary from three to more than 20 prisms; the bands are generally larger near the EDJ. Bifurcations of HSB occur in the entire thickness of the enamel. A tangential section of an upper molar shows pronounced undulations of the HSB ( Fig. 2B View Figure 2 ). Band bifurcations occur dominantly with the changes of direction of the HSB.

At the prism level, Phosphatherium shows the following zonation: a very thin layer (6–23 µm) of prismless enamel in the outermost part ( Fig. 1B View Figure 1 ), thin zones of round prisms near both the OES and EDJ ( Fig. 1D View Figure 1 ), and thick intermediate zones of densely packed basally opened prisms that constitute the typical keyhole pattern ( Fig. 1C View Figure 1 ). In this prism type, which is observed in 60% of the enamel thickness, the prisms are arranged in horizontal rows and in alternating positions. The prisms can be very compressed in the ‘ginkgo-tree-leaf ’ pattern ( Kosawa, 1978; Koenigswald & Sander, 1997). In this cross-section pattern, open prism sheaths touch each other and the remaining IPM is incorporated into the ‘tails’ of the prisms ( Koenigswald et al., 1993). In inner and outer zones, where prisms sheaths are closed and round, the IPM envelops the prisms; IPM crystallites show the same orientation to the long axis of prisms. The diameter of the prisms varies from 5 to 8 µm.