Gerakakis says, “Hippopotamus creutzburgi lived on Crete during the Early-to-early Middle Pleistocene. During cold phases of the Pleistocene, sea levels were significantly lower, and the geography of the Aegean, influenced by tectonics, was narrower than today.
Using these techniques, the researchers could digitally reconstruct the entire skull of H. creutzburgi, filling in the blanks using a modern model of a hippopotamus skull.
They found that H. creutzburgi’s morphology was similar to that of African Hippopotami, H. antiquus, and dwarf Malagasy hippopotami. With its size likely coming close to dwarf Malagasy hippopotami or a juvenile male African Hippopotamus.
“Hippos do not float in freshwater; during locomotion, they maintain contact with the ground, typically with only one foot at a time, and experience prolonged unsupported intervals. This behavior suggests their specific weight is slightly higher than that of freshwater. However, in salt water, they might have been buoyant.
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Additionally, steps have been taken to publish a reconstruction of the entire H. creutzburgi skeleton says Gerkakis, “Most skeletal elements of H. creutzburgi have been discovered, although vertebrae and ribs are relatively scarce.
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Gerkakis elaborates on the methodology used, “For the flattened cranium; we employed a virtual approach in Blender (a computer graphics software) that would have been destructive if applied to the actual specimen. The cranium was segmented into several pieces, which were repositioned anatomically.
“As for their extinction, several hypotheses exist, including physical catastrophes, another cold event, illness, food scarcity, or competition with deer that arrived on Crete in the late Middle to Late Pleistocene. Ongoing research aims to determine the exact causes,” says Gerkakis.
Using four fossil remains excavated between 1998 and 2002, Gerakakis and Prof. Makris set out to digitally reconstruct the skull of this extinct dwarf hippo species using a photogrammetry approach.
“Juveniles, which make up a significant portion of a hippopotamus herd, likely had higher survival rates than adults if swept into the sea, potentially allowing them to establish a viable population on Crete.”
Not only are the fossils of H. creutzburgi badly preserved, but they are also highly fragmentary, as no complete skull has ever been recovered of the species. Thus, the size, shape, and form of the species’ skull are a matter of speculation.
“A digital reconstruction of the entire skeleton has already been completed. A physical reconstruction of the entire skeleton, based on the digital model, was created by the Laboratory of Vertebrate Paleontology at the National and Kapodistrian University of Athens with the assistance of two conservators (Prof. George Lyras, Nikolaos Gerakakis, Maria Tsanidou, and Konstantina Kouveli). The corresponding scientific paper is currently in preparation.”
