Humans Have Been Taking Out Insurance Policies for at Least 30,000 Years

Humans Have Been Taking Out Insurance Policies for at Least 30,000 Years

Humans Have Been Taking Out Insurance Policies for at Least 30,000 Years

Archaeologists say—The same way we trade social media likes or friendship bracelets,  our ancestors swapped bits of ostrich eggshell jewellery 30,000 years ago. Items—shell fragments with holes bored in—would have served as a symbol of the interpersonal links made up of ancient social networks.

Ostrich eggshell beads have been used to cement relationships in Africa for more than 30,000 years

Experts researching beads discovered in the African country of Lesotho have shown that the tradition seen in modern hunter-gatherers had a longer history than believed.

Analysis of elements within the beads has revealed that they were passed from person to person, travelling as far as 621 miles from where they were made.

‘Ostrich eggshell beads and the jewellery made from them basically acted like Stone Age versions of Facebook or Twitter “likes”,’ said archaeologist Brian Stewart of the University of Michigan.

These tokens, he added, would have ‘simultaneously affirmed connections to exchange partners while alerting others to the status of those relationships.’

The beads are thought to have been given as gifts in ancient times

‘Humans are just outlandishly social animals, and that goes back to these deep forces that selected for maximising information, information that would have been useful for living in a hunter-gatherer society 30,000 years ago and earlier.’

Anthropologists have long-known that modern hunter-gatherers trade ostrich eggshell beads to cement their interpersonal relationships — with such being practised among living Bushman groups in the Kalahari Desert.

They were able to trace the origin of the beads using atom analysis

Ostriches don’t typically live in the mountainous, high-elevation environment of Lesotho, however — and archaeologists found no evidence, like bead fragments or samples of unworked eggshell, to suggest the beads were being made there either.

This led Professor Stewart and colleagues to wonder exactly where the beads found in the archaeological record there had come from.

To trace the origin of the beads, the team looked at a radioactive isotope called strontium, which is formed for the breakdown of another element, rubidium-87. Older rocks — such as granites and gneisses — contain more strontium than younger rocks like basalts.

Strontium atoms are taken up from the ground by plants like grass, which are in turn eaten by animals like ostriches — and in this way can end up within materials like eggshells, creating a signal of the geology where they were formed.

Using plant and soil samples, as well as tooth enamel is taken from modern rodent specimens from museum collections, the researchers created a map of the strontium signals from across Lesotho and the surrounding areas.

The basalt-rich volcanic mountains that make up the core of Lesotho contain less strontium, for example than the surrounding and older sedimentary rocks.

The team’s analysis revealed that nearly 80 percent of the beads found in Lesotho could not have originated from nearby highland areas.  ‘These ornaments were consistently coming from very long distances,’ said Dr. Stewart.

‘The oldest bead in our sample had the third-highest strontium isotope value, so it is also one of the most exotic.’

Some of the beads, the team found, must have come from eggshells from at least 202 miles (325 kilometres) from Lesotho — and perhaps even as far away as 621 miles (1,000 kilometres).

The archaeologists worked at rock shelters at Sehonghong and Melikane in southern Africa

The team also found that the beads were being exchanged during a period of climatic upheaval which spanned from around 59–29 thousand years ago.

According to Dr. Stewart, the use of the beads to build relationships between different hunter-gatherer groups may have ensured one group’s access to others’ resources when their region’s weather took a turn for the worse.

‘What happened 50,000 years ago was that the climate was going through enormous swings, so it might be no coincidence that that’s exactly when you get this technology coming in,’ he said.

‘These exchange networks could be used for information on resources, the condition of landscapes, of animals, plant foods, other people and perhaps marriage partners.’ The full findings of the study were published in the journal Proceedings of the National Academy of Sciences.