A fossilized tail vertebra collected in Antarctica in 1985 has been identified as a titanosaurian sauropod, marking the first dinosaur bone ever recovered from the continent. Researchers confirmed in Acta Palaeontologica Polonica that the specimen, cataloged as BAS D.8621.25, dates back 83 million years to the Campanian age of the Late Cretaceous.
How was the discovery missed for four decades?
The specimen sat in storage for nearly 40 years before modern analysis confirmed its identity. Geologist Michael Thomson and paleontologist Reinhard Förster originally excavated the bone on December 9, 1985, from the Santa Marta Formation on James Ross Island. According to Dr. Mark Evans, a paleontologist and manager of the geological collections and labs at British Antarctic Survey, he suspected the bone was dinosaurian after spotting it in the archives a few years ago. Subsequent CT scanning allowed researchers to look inside the fossil, revealing structural details that confirmed it as a titanosaur tail vertebra.

What does this reveal about ancient Antarctica?
The discovery suggests that Antarctica was home to more than one lineage of long-necked sauropods during the Cretaceous, reinforcing the continent’s role as a land bridge connecting South America, Australia, and New Zealand before Gondwana broke apart. Professor Paul Barrett of the Natural History Museum, London, notes that the continent was covered in lush temperate forests at the time, offering abundant resources for large herbivores. The presence of a titanosaur—a group containing some of the largest land animals to ever exist—suggests that multiple sauropod lineages inhabited the region. The specimen itself is estimated to be only 6–7 m in length, indicating it belonged to either a juvenile or a dwarf species.
Will climate change lead to more dinosaur finds?
As Antarctic ice retreats, paleontologists expect further discoveries. Professor Barrett suggests that the current warming trends may expose more fossils that have remained hidden for millions of years. Current research, such as the study published by Barrett et al. in 2026, relies on a combination of legacy collections and new imaging technologies. According to Samantha Beeston, a Ph.D. student at University College London, these methods allow scientists to unlock information from specimens that have been “waiting in plain sight” for decades.
Pro Tip: The role of museum curation
The identification of BAS D.8621.25 underscores the importance of maintaining physical specimen collections. Even when a fossil’s significance is not immediately apparent, long-term stewardship ensures that future generations can apply new technology to historical finds.

Frequently Asked Questions
- What is a titanosaur? Titanosaurs are a group of long-necked, long-tailed sauropod dinosaurs that included some of the largest land animals ever to exist.
- Where was this dinosaur fossil found? The fossil was discovered in the Santa Marta Formation on James Ross Island, off the tip of the Antarctic Peninsula.
- Why is this discovery significant? It is the first dinosaur bone ever collected in Antarctica and the second sauropod body fossil known from the continent, showing that close relatives traveled between South America and Australia via Antarctica.
- How did scientists identify the bone? Researchers used CT scanning to analyze the internal anatomy of the fossil, which helped them to describe previously unidentifiable information.
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