Size and distinguishing traits The describing authors indicated nine unique distinguishing traits,
autapomorphies. The eye socket is large, equalling 40% of the length of the skull. The ascending branch of the
maxilla has a complex connection with a top process of the
lacrimal bone, being wedged between its outer side and inner side. The inner edge of the rear part of the ascending branch of the maxilla touches the rim of the bony nostril with a low but distinct ridge. The ascending branch of the quadratojugal has at its lower rear a tongue-shaped process overlapping the rear of the quadrate. In the braincase there are three separate exits for the
nervus trigeminus. An inner vein channel connecting the
infundibulum with the brains stem, is lacking. The premaxillary teeth are positioned vertically, the maxillary teeth are inclining to the front and the dentary teeth are inclining to the rear. The middle neck vertebrae have strut-like, instead of plate-shaped, ridges between the front joint processes and the vertebral centrum. A long and thin ossified tendon is running along the low side of the series of neck vertebrae and neck ribs.
Skeleton The skull has a length of forty-three centimetres. In top view the skull is more or less tongue-shaped. The
antorbital fenestra is small but the eye socket is exceptionally large. In side view the snout is flat with a concave upper profile and surface. The
maxilla touches the prefrontal. The
jugal bone has an unusual L-shape with a very long front branch and an almost absent rear branch. The fifth
cranial nerve, the
nervus trigeminus, has extra exits for the branches towards the maxilla and the lower jaw, whereas other sauropods possess but single exit. The front of the lower jaw has an almost constant height. The praemaxilla bears four teeth, the maxilla eleven (right side) or twelve (left), and the dentary thirteen. The premaxillary teeth are positioned vertically, the maxillary teeth incline to the front while the teeth of the lower jaw incline to behind, a unique configuration. The build of the teeth is in-between the more spatulate form of basal sauropods and the pencil shape of derived species. The teeth are moderately elongated. They each have sharply-angled wear facets in a high and a low position which, together with their strange orientation, indicates some special, as yet not fully understood, way of cropping vegetation. The neck vertebrae are long and elongated. Their internal structure is camellated, i.e. with many small air spaces inside. The middle neck vertebrae have oval, narrow and deep pleurocoels in their sides, pneumatic excavations that nearly touch each other on the midline, separated by a narrow bone plate. The rear joint processes are uncommonly long, reaching beyond the edge of the vertebral body. The front joint processes are supported from below by struts with an oval cross-section, apparently formed by a perforation of the normally plate-shaped ridges in this position. The neck ribs are delicate, thin and rod-shaped.
Ossified tendon Parallel to the ribs, on the outer side of the neck a cable-shaped structure was discovered with a constant diameter of three millimetres. It had an oval cross-section and a rough and striated surface. The structure originated directly behind the skull and continued over a length of several vertebrae, thus of some metres. It was interpreted by the describing authors as an ossified
tendon. The alternative hypothesis that it might be a neck rib was rejected because the ribs are thicker and should have a different position. Such tendons might have been a continuation of the neck ribs, but again, its position did not confirm this. Instead, it was assumed to have been internal to some neck muscle. Such ossified tendons have never before been found in any fossil dinosaur but some extant bird groups such as the
cranes show them, though they are relatively shorter, at most two vertebrae long. Possible muscles, where it could have been located, are the
Musculus rectus capitis anterior ventralis, the
Musculus longus colli ventralis or the
Musculi intertransversarii. The internal structure of the tendon, with much reworked bone tissue, indicated a swift ossification at a young age. ==Classification==