A groundbreaking discovery in the field of paleoanthropology has shed light on a new human species called Homo juluensis, with distinctively large skulls. Dubbed “Large Head People,” this enigmatic group once lived alongside Homo sapiens in Eastern Asia. According to Science Alert, fossilised remains unearthed from sediment layers dated over 200,000 years ago revealed individuals with disproportionately large cranial volumes. Initial measurements indicate that their braincases were up to 30 percent larger than those of Homo sapiens.
Homo juluensis lived nearly 300,000 years ago in Eastern Asia, hunted wild horses in small groups, and made stone tools and possibly processed animal hides for survival before disappearing around 50,000 years ago.
“Collectively, these fossils represent a new form of large-brained hominin,” Paleoanthropologist Xiujie Wu from the Chinese Academy of Sciences (CAS) and anthropologist Christopher Bae from the University of Hawai’i wrote in the journal PaleoAnthropology earlier this year.
The unique combination of characteristics exhibited by the Large Head People suggests a complex ancestry, resulting from interbreeding between different hominin groups that coexisted in Asia between 300,000 and 50,000 years ago, the researchers said.
“Although we started this project several years ago, we did not expect to be able to propose a new hominin (human ancestor) species and then to be able to organize the hominin fossils from Asia into different groups,” said Christopher Bae.
Fossils attributed to H. juluensis, primarily consisting of facial and jaw remains, exhibit dental characteristics reminiscent of Neanderthals. However, certain distinctive traits are unlike those found in any other known hominin species, including the Denisovans, setting H. juluensis apart from its ancient human relatives.
The emergence of the ‘Large Head People’ raises fundamental questions about human evolution, diversity, and migration patterns. Some scientists speculate that this group might have played a significant role in shaping the genetic landscape of modern humans. (NDTV)