10.6084/m9.figshare.9810371.v2
Kai R. K. Jäger
Kai R. K.
Jäger
Pam G. Gill
Pam G.
Gill
Ian Corfe
Ian
Corfe
Thomas Martin
Thomas
Martin
Occlusion and dental function of <i>Morganucodon</i> and <i>Megazostrodon</i>
Taylor & Francis Group
2019
m 2
well-preserved snout
tooth placement
cusps b
Megazostrodon rudnerae
two-on-one pattern
Occlusal Fingerprint Analyser
tooth row
orthal occlusal path
OFA analysis
molar
M 2
M 1
early-diverging mammaliaform Morganucodon watsoni
hypothesis Morganucodon
2019-09-16 08:20:18
Dataset
https://tandf.figshare.com/articles/dataset/Occlusion_and_dental_function_of_i_Morganucodon_i_and_i_Megazostrodon_i_/9810371
<p>A functional analysis of a well-preserved snout of the early-diverging mammaliaform <i>Morganucodon watsoni</i>, with matching upper and lower dentitions, and of the holotype of <i>Megazostrodon rudnerae</i>, showed that both taxa had a primarily orthal occlusal path. In <i>Morganucodon</i>, the direction was individually variable and either strictly orthal or slightly distally or mesially inclined. An analysis with the Occlusal Fingerprint Analyser (OFA) software confirmed an earlier hypothesis that the main cusp A of the upper molars occluded between cusps b and a of the lower antagonists. According to the OFA analysis, there was more extensive contact between cusp a and the preceding anterior upper molar than previously assumed, showing some similarities to the two-on-one pattern described for <i>Megazostrodon</i>. According to our analyses, the molars of <i>Morganucodon</i> and <i>Megazostrodon</i> had an adaptation to piercing, as well as shear-cutting. ‘Shearing flanks,’ which were the focus of previous studies, seem to be a result of attrition, rather than functional areas in themselves. The posterior upper molars in <i>Morganucodon</i> were rotated along their longitudinal axis and lingually inclined within the tooth row, resulting in a triangle between M1 and M2 into which the large m2 can occlude. Together, this suggests a predetermined tooth placement and that contrary to previous hypothesis <i>Morganucodon</i> did not rely on extensive wear in order to form a precise occlusion.</p>