7,200-year-old DNA reveals unknown human lineage in Indonesia—what scientists just uncovered

7,200-year-old DNA reveals unknown human lineage in Indonesia—what scientists just uncovered

Every now and then, the story of humankind throws us a plot twist. This time, a discovery from the humid depths of Sulawesi, Indonesia, is giving even the most seasoned archaeologists a reason to raise their eyebrows—and probably their glasses, too. DNA extracted from the skeleton of a young woman who lived 7,200 years ago has revealed the existence of a previously unknown human lineage. The findings, just published in Nature, paint a picture that’s as complex as a family dinner conversation when someone brings up politics.

The Discovery: Bessé and the Mysterious Toaleans

Back in 2015, deep within the Leang Panninge cave of Sulawesi (also known as Celebes), researchers unearthed the remains of a 17 to 18-year-old woman. She had been buried in a fetal position, partly covered with stones, and surrounded by tools and animal bones—a burial fit for someone with a story to tell. This individual, whom archaeologists fondly nicknamed Bessé, belonged to the enigmatic Toalean culture, a group of hunter-gatherers who roamed the south-western peninsula of Sulawesi between 8,000 and 1,500 years ago. For the first time, a relatively complete skeleton could be directly linked to this group.

The intrigue didn’t stop there. Driven by curiosity (and, quite possibly, caffeine), an international team conducted further excavations and managed to date Bessé’s remains to between 7,200 and 7,300 years old. They also achieved what was once thought nearly impossible: extracting intact DNA from her bones, despite severe tropical degradation. As Selina Carlhoff of the Max Planck Institute for the Science of Human History explained, the secret lay in retrieving DNA from the inner ear bone—a tough spot that protects genetic material even through millennia of humidity.

DNA That Changes the Map

Bessé’s DNA is a double jackpot. First, it’s the world’s earliest genetic clue from the Toalean culture. Second, it’s the oldest ancient human DNA ever recovered from Wallacea—a biogeographical zone between Borneo and New Guinea that was crucial in ancient human migrations, yet long remained a blank on the genetic map. Pre-Neolithic skeletons across Southeast Asia rarely yield DNA, but Bessé broke the rules.

The results are nothing short of thrilling for the science-minded (and confusing to anyone who thought history was sorted). Her genome carries

• Genetic affinities with Aboriginal Australians
• Links with present-day populations of New Guinea and western Pacific islands
• Traces of Denisovan ancestry—the mysterious cousins of Neanderthals

This mixture supports the theory that these hunter-gatherers were related to the very first humans to reach Wallacea around 65,000 years ago. As Professor Adam Brumm of Griffith University, who co-led the study, put it: “They were the first inhabitants of Sahul, the supercontinent formed when lower sea levels united Australia, Tasmania, and New Guinea.” To get there, these pioneers braved ocean crossings. But as Brumm admits, we know little about those journeys.

An Unexpected Ancestral Signature

If the story stopped there, it would already be a game-changer. But the plot thickens. Among Bessé’s genetic signatures, researchers found a previously unsuspected ancestral link to an Asian population—an unexpected revelation. Until now, scientists were only aware of one major migration from East Asia to Wallacea, which happened about 3,500 years ago, well after Bessé’s time.

To add to the mystery, her genetic heritage shows no match with present-day Sulawesi inhabitants, who descend mainly from Neolithic farmers that arrived about three millennia ago. Bessé’s lineage doesn’t align with any currently known human population in the area and appears to have vanished around 1,500 years ago.

As Professor Brumm and colleagues explained, Bessé’s ancestors did not mix with those of Aboriginal Australians or Papuans. This hints that her people arrived after the first wave that populated Sahul but long before the later Austronesian expansion. The Toalean culture also appears to have had very little contact with other ancient communities in Sulawesi and neighboring islands, maintaining isolation for thousands of years. Questions abound about where these elusive hunter-gatherers came from—and where their descendants, if any, might still be hiding in the genetic shadows.

Unlocking the Next Mysteries

The team hopes further genetic analyses among the modern population of Indonesia may yet reveal traces of these lost Toalean genes. They’re also planning more excavations at Leang Panninge cave—because if Bessé’s story has taught us anything, it’s that early human history is full of surprises (and not always the kind you find in textbooks).

As Professor Brumm concluded, “The discovery of Bessé and the implications of her genetic ancestry show our limited knowledge of early human history in our region and just how much more there is to discover.” So next time you think you’ve got history figured out, remember: there’s always room for a bit more wonder—and in this case, a whole new branch on the human family tree. Stay tuned; humanity’s saga is far from over.

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David Miller is an entertainment expert with a passion for film, music, and series. With eight years in cultural criticism, he takes you behind the scenes of productions and studios. His energetic style guides you to the next big releases and trending sensations.