OHIO paleontologists discover new species of sauropod dinosaur in Tanzania

International project led by Heritage College faculty
Aug 24, 2017

Artist's reconstruction of the appearance of the Shingopana songwensis dinosaur

ATHENS, Ohio (Aug. 24, 2017)— In an article published this week in the Journal of Vertebrate Paleontology, Ohio University paleontologists have identified a new species of titanosaurian dinosaur. The new species is a member of the gigantic long-neck sauropods, and its fossil remains were recovered from Cretaceous-age (70-100 million years ago) rocks in southwestern Tanzania. Titanosaurs are known from all over the world and best known from South America, but fossils of this group are particularly rare from the African continent.

The new dinosaur is named Shingopana songwensis, a name derived from the Swahili expression for ‘wide neck’ and the Songwe region of the Great Rift Valley in southwestern Tanzania. Part of the Shingopana skeleton was first excavated in 2002 and represents the first significant discovery by the Rukwa Rift Basin Project, an international collaborative effort led by Ohio University Heritage College of Osteopathic Medicine professors Drs. Patrick O’Connor and Nancy Stevens. Over the next few years of excavation, additional portions of the skeleton, including neck vertebrae, ribs, a humerus, and part of the lower jaw, were recovered.

“There are a couple of key anatomical features only present in Shingopana and several South American titanosaurs but that are absent in other African titanosaurs,” said lead author Dr. Eric Gorscak, a recent PhD graduate of Ohio University and now post-doctoral researcher at the Field Museum of Natural History in Chicago. “ Shingopana had siblings in South America, whereas the other African titanosaurs were only distant cousins,” noted Dr. Gorscak.

Detailed comparison of Shingopana with other known sauropod dinosaurs suggests that the species found in southern Africa are certainly more diverse than previously thought. The team conducted phylogenetic analyses in order to understand the evolutionary relationships of these and other known titanosaurs. What they discovered is that Shingopana was more closely related to titanosaurs of South America than to any of the other species currently known from Africa or elsewhere.

 “This discovery suggests that the fauna of northern and southern Africa were different in the Cretaceous,” says Judy Skog, program director in the National Science Foundation (NSF)’s Division of Earth Sciences, which supported the research. “At that time, Southern African dinosaurs were more closely related to those in South America, and were more widespread than we knew.”

During the Cretaceous, Shingopana roamed the landscape alongside Rukwatitan bisepultus, another titanosaur the same team described and named in 2014. Dr. Gorscak studied both skeletons as part of his dissertation research. He is one of three PhD researchers to have completed the doctoral research on the Rukwa Rift Basin Project in the past year.

“We are still only scratching the surface with regard to understanding the diversity of organisms and the environments in which they lived on the African continent during the Late Cretaceous,” commented Patrick O’Connor, professor of anatomy and Gorscak’s advisor during his Ph.D. research. “And getting students involved in research and encouraging them to develop their own projects is one sure way of better addressing this knowledge gap.”

The authors note that there appears to be a division between northern and southern African biotas during the tectonically active Cretaceous Period. Southern Africa first experienced Madagascar and Antarctica splitting off to the east and south, followed by a gradual northward ‘unzipping’ from South America. All the while northern Africa maintained a land connection with South America, as southern Africa progressively became more isolated until the two continents completely separated 95-105 million years ago. Other factors such as terrain and climate may have further isolated southern Africa.

“This is yet another example of the transformative research being done by our distinguished faculty,” President M. Duane Nellis said. “Ohio University’s internationally recognized paleontologists are helping to redefine the field of paleontology and our understanding of the past. I am so proud of this team and its significant discovery.”

Co-author Eric Roberts, Head of Geosciences at James Cook University of Australia, studied the geological and paleoenvironmental context of the new discovery. Interestingly, the bones of Shingopana were damaged by borings produced by ancient insects shortly after the death of the animal. Professor Roberts noted that “the presence of bone-borings provides a CSI-like opportunity to study the skeleton and reconstruct the timing of death and burial, as well as providing rare evidence for ancient insects and complex food webs during the age of dinosaurs.

“Congratulations to Dr. Gorscak, Dr. Stevens, Dr. O’Connor, Dr. Roberts, and their team of colleagues for this pathbreaking discovery, which is an exemplar of how mentoring relationships between faculty and graduate students lead to ongoing collaborative projects,” said Interim Executive Vice President and Provost David Descutner.

The study was funded by the National Science Foundation, the National Geographic Society, the Jurassic Foundation, The Paleontological Society, Ohio University Student Enhancement Award, Ohio University Original Work Grant, the Ohio University Heritage College of Osteopathic Medicine, the Ohio University Office of the Vice President for Research and Creative Activity, and James Cook University.

Access the journal article here.

Access more photos here.


Contacts :

Eric Gorscak, (740) 408-0794, egorscak@fieldmuseum.org

Patrick O’Connor, (740) 707-5008, oconnorp@ohio.edu


inks to other NSF news related to the Rukwa Rift Basin Project

Rukwatitan bisepultus - new sauropod dinosaur, Rukwa Rift Basin 

Pakasuchus kapilimai—mammal-like crocodile, Rukwa Rift Basin 

Early evidence for monkey-ape split, Rukwa Rift Basin Project.

Early evidence of insect farming—Fossil Termite Nests, Rukwa Rift Basin 


Other project related links:




Attribution details for photographs:

1.  Shingopana_Env_Reconstruction.jpg (picture accompanying this article) - Illustration by Mark Witton, www.markwitton.com.

2.  Shingopana_Quarry_Site _2017a.jpg - photo credit: Leigh Lawrence, James Cook University.

3.  Shingopana_Locality_Wide.jpg - photo credit: Eric Roberts, James Cook University.

4.  Shingopana_Excavation_1.jpg - photo credit: Nancy J. Stevens, Ohio University.

5.  Sunset_over the Rukwa Rift.jpg - photo credit: Patrick O'Connor, Ohio University.

6.  Landscape_I.jpg - photo credit: Patrick O'Connor, Ohio University.


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