Advertisement

Ecology, Infrastructure Could Have Led to Angkor’s Demise

Share
Associated Press Writer

After resisting Siamese invaders for years, Cambodia’s greatest city and civilization -- temple-studded Angkor -- was dealt a death blow with its final sacking in 1431.

At least, that’s what the history books say.

But an international research team now thinks that its demise was set much earlier, by something that is the bane of many modern urban societies -- ecological failure and infrastructure breakdown.

“They created ecological problems for themselves and they either didn’t see it until it was too late or they couldn’t solve it even when they could see it,” said Roland Fletcher, an archeologist working on the Greater Angkor Project.

Advertisement

Angkor city, the capital of several Hindu kings who ruled over large swaths of Southeast Asia, flourished from the 9th to 14th centuries, leaving a legacy of architectural splendor in myriad temples, including the country’s cultural icon, Angkor Wat.

Project members are working on the theory that Angkorians created an elaborate system of reservoirs and canals -- for irrigation, trade and travel -- that began to silt up as the population grew, and perhaps saw failures that caused flooding and water shortages.

Experts say Angkor’s demise is important to study because it can provide lessons for dealing with modern urban problems.

Damian Evans, an archeologist working on the project, said Angkor’s canals were the equivalent of today’s freeways and our telephone lines were a form of communication that can be equated with elephant paths.

“It’s the same kinds of problems manifesting themselves in different ways,” he said.

Seeking evidence for its theories, the Greater Angkor Project team is excavating waterways and digging up pottery and pollen grains. Members pore over radar ground images collected by NASA and photographs taken from an ultralight plane to map the remnants of the ancient civilization, such as rice paddies, houses, shrines and canals.

About 40 people are working on the current phase of the project, a joint effort of Australia’s University of Sydney, the Ecole Francaise d’Extreme-Orient and the Cambodian government’s Apsara Authority, which manages Angkor.

Advertisement

In the past, archeologists primarily focused on studying the intricately carved stone walls of Angkor’s temples, which tell stories from Hindu mythology.

The Greater Angkor Project is “essentially a shift from dominantly looking at the churches and cathedrals [temples] of a city to looking at housing, drainage, roads -- the daily life stuff,” Fletcher said.

Fletcher, a professor at the University of Sydney, theorizes that population pressures and water woes made it harder to trade and communicate. People began migrating south toward the area around what is now Phnom Penh, where subsequent capitals were set up.

The Greater Angkor Project’s first goal was to determine how far out Angkor city spread before trying to determine what led to its fall.

They learned that the metropolitan area extended far beyond Angkor Thom, the 700-year-old walled city that houses Angkor Wat. Angkor was home to about 750,000 people and covered about 386 square miles -- much larger than any other pre-industrial development and similar to the shape and size of modern cities, Fletcher said.

“It’s like a Los Angeles. It’s not like Hong Kong,” he said. “Lots and lots of open space, big gaps around the houses, huge freeways, which are the canals in this case.”

Advertisement

The city’s economy was based on rice, and rice paddies spread along dozens of canals, at least one up to 12 miles long. A network of reservoirs, canals and bridges was created to move people and goods and to ensure that there was enough water to grow rice.

Angkor engineers even changed the direction that some rivers flowed in what essentially was “a human-built landscape for growing rice,” Fletcher said.

The system had three zones: catching water in the north, storage in the center and dispersal in the south. The engineers also created an artificial river to join two natural ones.

As Angkor’s population grew, so did the strains on its intricate water system, the scientists say.

“The more modifications they made, the more problems they ran into, and the harder and harder it became to implement solutions to the problems,” said Evans, who uses aerial photographs, NASA images and on-the-ground investigations to generate a computer map of the water system.

The growing population also forced people to venture into the nearby Kulen hills to cut down trees for fuel and clear land for growing rice. That would have resulted in rain runoff carrying sediment into the canal network, Evans said.

Advertisement

“Anything that happened to that water-management system would have had a great deal of consequence for all of the people,” he said.

There are signs of apparent breaches and fixes to the water system, although it’s hard to tell if they happened during the Angkor era.

“If you think of the freeway and the railway system failing in a modern city, it’s like that,” Fletcher said. “It’s an infrastructure problem. Everything else might be working fine, but if the infrastructure goes, this thing can’t function.”

Advertisement