A new chelonibiid from the Miocene of Zanzibar (Eastern Africa) sheds light on the
evolution of shell architecture in turtle and whale barnacles (Cirripedia: Coronuloidea)
COLLARETA, Alberto ✉; NEWMAN, William A.; BOSIO, Giulia; COLETTI, Giovanni
The fossil history of turtle and whale barnacles (Coronuloidea: Chelonibiidae, Platylepadidae,
Coronulidae and +Emersoniidae) is fragmentary and has only been investigated in part.
Morphological inferences and molecular phylogenetic analyses on extant specimens suggest
that the roots of whale barnacles (Coronulidae) are to be found among the chelonibiid
turtle barnacles, but the hard-part modifications that enabled early coronuloids to
attach to the cetacean skin are still largely to be perceived. Here, we reappraise
a fossil chelonibiid specimen from the Miocene of insular Tanzania that was previously
referred to the living species Chelonibia caretta. This largely forgotten specimen
is here described as the holotype of the new species +Chelonibia zanzibarensis. While
similar to C. caretta, +C. zanzibarensis exhibits obvious external longitudinal parietal
canals occurring in-between external longitudinal parietal septa that abut outwards
to form T-shaped flanges, a character so far regarded as proper of the seemingly more
derived Coronulidae and Platylepadidae. Along with these features, the presence of
a substrate imprint on the shell exterior indicates that +C. zanzibarensis grasped
its host's integument in much the same way as coronulids and platylepadids, albeit
without the development of macroscopic parietal buttresses and bolsters. Thin section
analyses of the inner parietal architecture of some extant and extinct coronuloids
conclusively demonstrate that vestiges of comparable external parietal microstructures
are present in some living members of Chelonibiidae. This observation strengthens
the unity of Coronuloidea while significantly contributing to our understanding of
the evolution of the coronuloid shell structure in adapting to a diverse spectrum
of hosts.