- Djordje Kojadinovic/Reuters
Before society collapses, it slows down.
That’s the conclusion of a study published on Monday in the journal PNAS. A team of researchers examined the archaeological record that Neolithic European – that is, between 3,000 and 10,000 years – societies left in the years before several different collapses.
They found that “critical slowing down” is a reliable early warning signal of a society on the edge of going bust. A society that can’t bounce back from a bad winter, a war, or a crop failure, for instance, faces such a slow down.
Sean Downey, a University of Maryland anthropologist and a researcher on the study, said that to understand what it means for a society to slow down, you should imagine a rainforest.
A healthy rainforest can weather a hurricane pretty easily. Flood waters might kill some animals and high winds might knock over huge swaths of trees. But in short order the forest will repair itself, filling in the gaps left by the storm.
But as the forest slows down, it becomes less robust. The clearings left after one storm might still be partially empty when the next one hits, leaving even greater devastation. Too many major storms in a row would threaten the entire ecosystem.
A slowdown becomes a useful measure of a system’s overall resilience.
On a societal level, anthropologists use “resilience” to describe a society’s ability to weather major shocks.
Twentieth-century England, Downey said, is a good example of a resilient society. It was bombed heavily during two world wars and saw its massive colonial empire collapse.
But “at the end of all that you still have something called England. It wasn’t conquered. It wasn’t taken over. It changed, for sure. But it managed the change and maintained that identity even throughout really radical external shocks,” he said.
- Flickr/Roger W
A less resilient society, just like the slowed rainforest, might have failed to heal fast enough between shocks to survive intact.
To demonstrate “critical slowing down” as an early warning signal of societal collapse, Downey and his fellow researchers examined five decades’ worth of data on Neolithic European settlements published in archaeological journals.
They found that before major collapses, societies reliably slowed their responses to smaller shocks.
Interestingly, a society could slow down its rate of self-repair even in the middle of a boom.
“That’s the relevance of the Neolithic Revolution to the Industrial Revolution,” Downey said. “It gives us a much longer sweep of human history to examine.”
In the short term, Downey said that researchers should look for critical slowing down before more recent major collapses, like the Mayan and Roman civilizations.
But long term, if we looked at contemporary population databases, he thinks that it could help us understand our own society.
“It hasn’t really been that long since the Industrial Revolution. It’s been a few hundred years. And archaeology gives access to what happens over a few thousand years,” Downey said.
As we face future known threats like war and climate change, and unknown threats like an asteroid impact or new disease, Downey said that that’s the kind of knowledge we should want to have.