The real-life ‘Hobbits’ survived on an Indonesian island for thousands of years, until a long drought may have drove them away | World News
For more than a million years, a small ancient human relative survived quietly on the volcanic island of Flores in Indonesia. Then, around 50,000 years ago, this tiny hominin known as Homo floresiensis, nicknamed the hobbit because of its small stature, disappeared entirely, leaving behind one of the most puzzling mysteries in human evolution. Scientists have now built the most detailed climate record yet for the region where these ancient humans once lived, and the evidence points toward a long and severe drought as a likely trigger. As rainfall declined sharply, the hobbits and one of their key food sources appear to have been pushed out of their long-time refuge, possibly bringing them into contact with modern humans for the first time.
Homo floresiensis and the mystery of Liang Bua cave
Homo floresiensis was first discovered in 2003, a find that reshaped how scientists think about human evolution. These small-brained hominins stood just over a metre tall, made their own stone tools and somehow reached the isolated island of Flores without any known boat technology. Their remains, along with associated stone tools, were found in Liang Bua cave, tucked away in a small valley in the island’s uplands, with fossils dating between 190,000 and 50,000 years ago. Today Flores has a monsoon climate with heavy summer rain and drier winters, but during the last glacial period, rainfall patterns would have looked very different.
Rebuilding an ancient rainfall record from a cave stalagmite
To understand what the climate was actually like during this period, researchers examined a stalagmite found deep inside Liang Luar, a cave located 700 metres upstream from Liang Bua. This particular stalagmite happened to grow right through the exact window when Homo floresiensis disappeared, and since stalagmites form layer by layer from dripping water, their chemistry preserves a detailed record of past climate. By measuring oxygen isotopes to track monsoon strength and the ratio of magnesium to calcium to estimate total rainfall, the team was able to reconstruct summer, winter and annual rainfall patterns with far more precision than before. The findings were published in the journal Communications Earth and Environment.
Three climate phases and a dry turning point
The rainfall record revealed three distinct climate phases. Between 91,000 and 76,000 years ago, the island was wetter than it is today throughout the year. Between 76,000 and 61,000 years ago, the monsoon became highly seasonal, bringing wetter summers alongside noticeably drier winters. Then, between 61,000 and 47,000 years ago, conditions shifted dramatically, with summers turning far drier, similar to the arid conditions seen in Southern Queensland today. This final phase lines up closely with the period when both Homo floresiensis and their prey begin vanishing from the fossil record at Liang Bua.
Pygmy elephants and the hobbits that hunted them
To connect the climate record to the fossils themselves, researchers also studied oxygen isotopes in the teeth of Stegodon florensis insularis, an extinct pygmy relative of modern elephants. Juvenile pygmy elephants were known to be an important food source for the hobbits, based on cut marks found on bones at Liang Bua. Remarkably, the oxygen pattern in the fossil teeth lined up almost perfectly with the stalagmite record, allowing researchers to precisely date the Stegodon fossils alongside the Homo floresiensis remains found nearby. This comparison showed that around 90 percent of pygmy elephant remains date to the wetter, more seasonal period between 76,000 and 61,000 years ago, when conditions seem to have been ideal both for the elephants to graze and for the hobbits to hunt them.
Why declining rainfall may have forced them out
As the climate dried further, researchers believe the small river running through the valley, known as the Wae Racang, may have shrunk to the point where it could no longer sustain the pygmy elephants during the dry season. This likely forced the animals to migrate elsewhere in search of water, with Homo floresiensis probably following its main prey out of the area. The decline in rainfall, pygmy elephant numbers and hobbit remains all lining up at the same time suggests that dwindling resources played a major role in the gradual abandonment of Liang Bua as a long-term shelter.
A possible link to the arrival of modern humans
The last known Stegodon fossils and stone tools at Liang Bua sit just beneath a thick layer of volcanic ash dated to around 50,000 years ago, and researchers are still unsure whether a nearby volcanic eruption played any final role in the hobbits’ disappearance. What is clearer is that the earliest evidence of Homo sapiens at the site appears just above this ash layer, and separate archaeological and genetic evidence suggests modern humans were already island hopping across Indonesia by at least 60,000 years ago. If drought forced Homo floresiensis away from their long-time refuge and toward the coast, it raises the possibility that they crossed paths with modern humans, opening the door to new questions about competition, disease or other pressures that may have contributed to their eventual extinction.
