'' reconstruction outline, showing known bones in red. From Boessenecker et al. 2017|left Xenorophids would have appeared quite dolphin-like, with a streamlined body, a tail fluke, and likely possessing flipper-like forelimbs. Their elongated skulls lacked the fusion in the sutures between their
premaxilla,
maxilla, and
nasal bones seen in more derived odontocetes. These skulls, with the exception of
Inermorostrum, possessed heterodont dentition, with larger conical teeth in the front and sharp, slashing teeth in the back, however their teeth were still small for Oligocene odontocetes.
Locomotion Xenorophids would have swum using
dorsoventral undulation like that seen in modern dolphins. However, they lacked the stiffening in the vertebrae present in more derived odontocetes, meaning they were slower and less efficient compared to modern dolphins. Though less efficient, this design enabled for agile maneuvering in confined habitats such as reefs.
Echolocation Xenorophids seem to have evolved echolocation independently from modern odontocetes. Genera such as
Cotylocara and
Echovenator possess traits in their skull clearly showing that they were capable of echolocation. These include having nasal bones that are elevated far above the rostrum, being a precursor to the melon-like structure seen in modern echolocating odontocetes. In addition, they also possessed modified
periotic bone and nasal plug morphology showing that they were capable of hearing high-frequency sounds underwater. ==Classification==