The two specimens of Suskityrannus stood roughly tall and long and likely weighed between. Both are likely to have been juveniles. One of the specimens is believed to have been 3 years old when it died, based on bone rings. The skull of Suskityrannus and its foot are more slender than other tyrannosaurs. The species already possesses many key features of the tyrannosaurid body plan, including the phylogenetically earliest record of an arctometatarsalian foot in tyrannosauroids. Additionally, as an early tyrannosaur, Suskityrannus may have had feathers, despite no feathers being found with its fossils. Doug Wolfe noted that the brain of Suskityrannus was relatively large compared to its body plan.
Discovery and naming
First mentioned as a small dromaeosaurid by Wolfe and Kirkland in their description of Zuniceratops, Suskityrannus was informally referred to as the "Zuni coelurosaur", "Zuni tyrannosaur", and by the documentary Planet Dinosaur of 2011 "Zunityrannus" prior to its scientific description. The original fossils were found by Robert Denton, a professional geologist from Virginia, and a native Mesa teenSterling Nesbitt, who was a museum volunteer that came to a dig with paleontologist Doug Wolfe. In 2019 Suskityrannus was formally described as a genus of primitive tyrannosauroid. Both the holotype specimenMSM P4754 and the paratype specimenMSM P6178 are preserved in the collections of the Arizona Museum of Natural History.
The area in New Mexico where Suskityrannus lived is an area rich in fossils. The fossil record of the Moreno Hill Formation documents a transition period between early Cretaceous fauna and the latest Cretaceous fauna. The area was a thickly forested coastal region with a humid climate. Zuniceratops, Nothronychus, and a few specimens of Jeyawati are known from this region. The formation also contains a currently undescribed ankylosaurid dinosaur. Fossils of a crocodilian and a possible marine turtle belonging to the Cheloniidae, were also found in the same locality as well. Suskityrannus filled the major phylogenetic, morphological and temporal gaps that researchers needed to piece together tyrannosauroid evolution.