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March is Women's History Month!

Lessons From The Last Time Civilization Collapsed

From the Abu Simbel temples in southern Egypt, dating back to the 13th century B.C.
iStockphoto
From the Abu Simbel temples in southern Egypt, dating back to the 13th century B.C.

Consider this, if you would: a network of far-flung, powerful, high-tech civilizations closely tied by trade and diplomatic embassies; an accelerating threat of climate change and its pressure on food production; a rising wave of displaced populations ready to sweep across and overwhelm developed nations.

Sound familiar?

While that laundry list of impending doom could be aimed at our era, it's actually a description of the world 3,000 years ago. It is humanity's first "global" dark age as described by archaeologist and George Washington University professor Eric H. Cline in his recent book 1177 B.C.: The Year Civilization Collapsed.

1177 B.C. is, for Cline, a milepost. A thousand years before Rome or Christ or Buddha, there existed a powerful array of civilizations in the Near and Middle East that had risen to the height of their glory. Then, fairly suddenly, the great web of interconnected civilizations imploded and disappeared.

The question that haunts Eric Cline is why. What drove such a complex set of societies to all perish almost all at once? The answers and its lesson, Cline argues, are a story we moderns should not ignore. When I asked him about the parallels between 1177 B.C. and A.D. 2014, Cline responded:

The Late Bronze Age that Cline is interested in stretches from about 1500 B.C. to 1100 B.C. The Bronze Age itself, as opposed to the Stone Age before it, begins somewhere around 3000 B.C. At that point, people developed sophisticated metallurgy techniques allowing them to mix copper and tin into an alloy — bronze — strong enough for serious sword blades and other goods. It is in the Bronze Age that city building, and the sprawling kingdoms they engendered, begins in earnest. Egypt of the pharaohs was a Bronze Age civilization as was the Babylonian empire.

It was the transport of copper and tin for bronze that helped establish complex trade networks. Grain and manufactured goods also became part of that transportation web. Alliances between city-states followed. In this way, the Egyptians, Hittites, Canaanites, Cypriots, Minoans, Mycenaeans, Assyrians and Babylonians became the economic powerhouses of the ancient world — what Cline calls the "Group of 8." Together they built the first version of a "global" culture using long-distance economic and military partnerships that required advanced — for its day — technologies.

So what took all these cultures down at the same time? The story begins, but does not end, with climate change.

The evidence that a prolonged shift in climate was a factor in bringing down the Mediterranean Bronze Age comes from a number of studies, including one published in 2013, showing that cooling sea surface temperatures led to lower rainfall over inland farming areas. Pollen analysis from sea sediments also indicates a fairly rapid transition to a drier climate during this period that includes the Late Bronze Age collapse.

What followed were drought, scarcity and desperation. Ancient voices, preserved in stone, tell the human side of the climate change story. A letter from a commercial officer living in the starving, inland city of Emar begs the recipient in his hometown of Ugarit, in northern Syria, to bring aid quickly. "There is famine in your [i.e. our] house; we will all die of hunger. If you do not arrive quickly, we ourselves will die of hunger. You will not see a living soul ..."

And with famine came migration and wars. The scourge of the era was the mysterious "Sea Peoples" who had swept across the region. According to Cline, it is likely that the marauding Sea Peoples came from the western Mediterranean and "were probably fleeing their island homes because of the drought and famine ... moving across the Mediterranean as both refugees and conquerors."

The wars took their own toll. "Be on the lookout for the enemy and make yourself very strong!" proclaims a letter to the King of Ugarit near the end. The warning appears to have arrived too late. Another letter tells of the army's humiliation. "The city was sacked. Our food in the threshing floors was burned and the vineyards were also destroyed. Our city is sacked. May you know it! May you know it!"

For Cline, climate change — along with the famines and migration it brought — comprised a "perfect storm" of cataclysms that weakened the great Bronze Age "global" culture. But the final blow, the deepest reason for the collapse, may have come from within the very structure of that society.

The world of the Egyptians, Assyrians and Babylonians was complex, in the technical meaning of the word. It was a system with many agents and many overlapping connections. That complexity was both a strength and weakness. Cline points to recent research in the study of so-called complex systems that shows how susceptible they can be to cascades of disruption and failure from even small perturbations. Perhaps, Cline says, the Bronze Age societies exhibited the property called "hypercoherence" where interdependencies are so complex that stability becomes ever harder to maintain.

Thus complexity itself may have been the greatest threat to late Bronze Age civilization once the pressures began. And it is that fact, more than anything else, that speaks to the dangers we face today. As Cline wrote in the Huffington Post:

So, what exactly is the lesson Cline thinks we should take away from 1177 B.C.? In an email to me, Cline wrote:

But are we advanced enough to do anything with our understanding?


You can keep up with more of what Adam is thinking on Facebook and Twitter: @adamfrank4

Copyright 2023 NPR. To see more, visit https://www.npr.org.

Adam Frank was a contributor to the NPR blog 13.7: Cosmos & Culture. A professor at the University of Rochester, Frank is a theoretical/computational astrophysicist and currently heads a research group developing supercomputer code to study the formation and death of stars. Frank's research has also explored the evolution of newly born planets and the structure of clouds in the interstellar medium. Recently, he has begun work in the fields of astrobiology and network theory/data science. Frank also holds a joint appointment at the Laboratory for Laser Energetics, a Department of Energy fusion lab.