Mass burial of women 300 thousand years ago

Map of the Rising Star cave system in Gautong Province South Africa. The yellow dot marks the chamber where Homo naledi fossils were first found; the red one is the site of a new discovery. (Credit: Elliott et al 2021, PaleoAnthropology. Issue 1.64, Fig. 1)

In September 2015 a barrage of publicity announced the remarkable unearthing of the remains of 15 diminutive hominins (see: The ‘star’ hominin of South Africa; September 2015). Subsequently this number rose to at least 24. It was named Homo nadeli, from the floor sediments of an almost inaccessible chamber in the Rising Star cave system of South Africa. In many respects the individuals seemed to share affinities with both australopithecines and the earliest known human, but subsequent dating to 335 to 236 ka proved they were not a ‘missing link’. Many near-complete skeletons suggested that they were similar in many ways to members of the genus Homo. Like H. floresiensis they may have evolved during protracted isolation from their contemporary hominins, perhaps even early modern humans. Nevertheless, it was indeed one of the most dramatic palaeoanthropological discoveries of the 21st century. But its celebrety is as much for the extraordinary efforts of women archaeologists small and lithe enough to wriggle through a maze of extremely narrow cave passages: and the deft PR skills of the leader of the discovering expedition, Lee Berger.

The skeletal remains in the remote chamber were near-complete, with little sign of physical trauma, except gnawing by snails and beetles. Few hominin bones have turned up in the more accessible parts of the cave. One likely explanation was that a living H. naledi group had deliberately carried the bodies through the cave system for burial – at less than 1.5 m tall with a slender build they could have done this far more easily than the modern excavators, but they must have used firebrands to light their way. It was alternatively suggested that a group of them, panicked by large predators, may have scrambled deep into the cave to hide, and suffocated as CO2 built-up to toxic levels, as happens occasionally to trapped speleologists. But another twist has arisen, more than a decade after the discovery.

Applying the large spectrum of modern forensic analysis to such a wealth of bones takes time. One approach, genetic sequencing, demands a great deal of patience. None of the bones preserved ancient DNA, probably because of their age and the high ambient temperatures and humidity of burial at low latitudes. A team led by Palesa Madupe of the Max Planck Institute for Evolutionary Anthropology, Leipzig, Germany then resorted to extracting protein from tooth enamel of 20 individuals (Madupe, P. and 20 others 2026. Proteomic analysis of dental enamel from 20 Homo naledi individuals shows no male markers. Cell, v. 189, p. 1-10; DOI: 10.1016/j.cell.2026.05.044). One dental protein amelogenin (or AMEL) in every analysed hominin species has  separate male and female types (AMELX and AMELY), analogous to Y and X chromosomes. Rather than being of mixed sex, the bodies were all women: even the few infants. So, what can that one-in-a-million finding imply?

One of the leaders of the Rising Star team (Lee Berger) had suggested since 2015 that H. naledi had purposefully buried its dead. He now suggests that the species separated sexes in their death rituals. For beings with brains about the size of chimps that seems unlikely to some critics. The earliest evidence for separate mortuary practices only appears in late-Neolithic burials. Moreover, the first evidence for any kind of human inhumation is about 100 ka later than Rising Star at a Neanderthal site in Israel. A possibly more plausible explanation is that H. naledi men were simply too big to reach the burial chamber, i.e. that the species was sexually dimorphic. If so, then why are there no remains of men in more easily accessed parts of the cave system? There remains one other scientific possibility: perhaps H. nadeli had only one type of AMEL and the genes responsible for it – i.e. the L variety was shared between both sexes. Palesa Madupe had previously found AMELY in tooth enamel from a 2 Ma-old South African hominin, so considers that possibility to be highly unlikely. All other approaches seem to be a matter of opinion about cultural practices of which we know little. One seems useful. If H. naledi had a high female to male ratio, perhaps females died at ‘home’, while male hunters were killed while hunting and then eaten by large predators … Further suggestions via Leave a comment.

See also: Gibbons, A. 2026. An ancient mystery: missing males. Science, v.392 News; DOI: 10.1126/science.aej9809; Barras, C. 2026. All known Homo naledi skeletons seem to be female. New Scientist; 24 June 2026.

Middle Palaeolithic Neanderthals and Denisovans of East Asia

During the Middle Palaeolithic (250 to 30 ka) anatomically modern humans (AMH) and Neanderthals were engaged in new technological developments in Europe and Africa as well as in migration and social interaction. This is reflected in the tools that they left at occupation sites and the fact that most living non-Africans carry Neanderthal DNA. One of the major cultural developments was a novel means of manufacturing stone implements. It developed from the Levallois technique that involved knapping sharp-edged flakes of hard rock from larger blocks or cores. A type of tool first found at a Neanderthal site near La Quina in France is a thick flake of stone with a broad, sharp edge that shows evidence of having been resharpened many times. Most other flake tools seem to have been ‘one-offs’ that were discarded after brief usage. The Quina version was not only durable but seems to have been multipurpose. Analysis of wear patterns on the sharpened edges suggest that they were deployed in carving wood and bone, removing fat and hair from animal hides, and butchery. Such scrapers have been found over a wide area of Europe, the Middle East and NE Asia mostly at Neanderthal sites, including the famous Denisova Cave of southern Siberia that yielded the first Denisovan DNA as well as that of Neanderthals.

Making a typical Quina scraper and related tools. The toolmaker would flake pieces of stone off the core and then carefully shape the Quina scraper. (Image credit: Pei-Yuan Xiao)

Until now, the early humans of East Asia were thought not to have proceeded beyond more rudimentary tools during the Middle Palaeolithic: in fact that archaeological designation hasn’t been applied there. Recent excavations at Longtan Cave in south-west China have forced a complete revision of that view (Ruan, Q.-J., et al. 2025. Quina lithic technology indicates diverse Late Pleistocene human dynamics in East Asia. Proceedings of the National Academy of Sciences, v. 122, article e2418029122; DOI: 10.1073/pnas.2418029122). The Longtan site has yielded more than fifty scrapers and the cores from which they had been struck that clearly suggest the Quina technology had been used there. They occur in cave sediments dated at between 60 and 50 ka. As yet, no human remains have been found in the same level at Longtan, although deeper levels dated at 412 ka have yielded hominin crania, mandibular fragments, and teeth, that have been suggested to be Homo erectus.

Quina type tools in East Asia may previously have been overlooked at other hominin sites in China: re-examination of archived tool collections may show they are in fact widespread. The technology could have been brought in by migrating Neanderthals, or maybe it was invented independently by local East Asian hominins. Because most living people in China carry Denisovan DNA in the genomes so perhaps that group developed the technique before interbreeding with AMH immigrants from the west. Indeed there is no reason to discard the notion that  early AMH may have imported the Quina style. A lot of work lies ahead to understand this currently unique culture at Longtan Cave. However, interpretation of another discovery published shortly after that from Longtan has spectacularly ‘stolen the thunder’ of the Qina tools, and it was made in Taiwan …

Right (top) and downward (lower) views of the partial Penghu mandible. Credit: Yousuke Kaifu University of Tokyo, Japan and Chun-Hsiang Chang Tunghai University, Taichung, from Tsutaya et al. Fig. 1 (inset)Taiwan.

About 10 years ago, Taiwanese fishers trawling in the Penghu Channel between Taiwan and China were regularly finding bones in their nets. Between 70 to 10 ka and 190 to 130 ka ago much lower sea level due to continental ice cap formation exposed the Penghu seabed. Animals and humans were thus able to move between the East Asian mainland and what is now Taiwan. The bones brought to the surface included those of elephants, water buffaloes and tigers, but one was clearly a human lower jawbone (mandible). Its shape and large molar teeth are very different from modern human mandibles and molars. A multinational team from Japan, Denmark, Taiwan and Ireland has extracted proteins from the mandible to check its genetic affinities (Tsutaya, T. and 14 others 2025. A male Denisovan mandible from Pleistocene Taiwan. Science, v. 388, p. 176-180; DOI: 10.1126/science.ads3888). Where DNA has not been preserved in bones proteomics is a useful tool, especially if results are matched with other bones that have yielded both DNA and protein sequences. In the case of the Penghu mandible, proteins from its teeth matched those of Denisovans from the Denisova Cave in Siberia which famously yielded the genome of this elusive human group. They also matched proteins from a rib found in Tibet associated with Denisovan mitochondrial DNA in cave sediments that enclosed the bones.

The three sites (Denisova, Baishiya Cave in Tibet and Penghu Channel) that have produced plausible Denisovan specimens span a large range of latitudes and altitudes. This suggests that Denisovans were capable of successful subsistence across much of East Asia. The Penghu mandible and teeth are similar to several hominin specimens from elsewhere in China that hitherto have been attributed to H. erectus. Apart from the Denisovan type locality, most of the sites have yet to be accurately dated. Having been immersed in sea water for thousands of years isotopes used in dating have been contaminated in the Panghu specimen. It can only be guessed to have lived when the seabed from which it was recovered was dry land; i.e. between 70 to 10 ka and 190 to 130 ka. China was undoubtedly occupied by Homo erectus during the early Pleistocene, but much younger fossils have been attributed to that species by Chinese palaeoanthropologists. Could it be that they are in fact Denisovans? Maybe such people independently developed the Quina knapping technique

See also: Marwick, B. 2025.  Unknown human species in East Asia used sophisticated tools at the same time Neanderthals did in Europe. Live Science, 31 March 2025; Ashworth. J. 2025. Denisovan jawbone helps to reveal appearance of ancient human species. Natural History Museum News 11 April 2025.

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