BEACH LEVEL RISE: A recent powerful earthquake reversed years worth of coastal erosion at beaches in Chile. Image: Wikimedia Commons/Maximiliano Reichenbauer

In 2010, a massive, magnitude-8.8 earthquake struck the south central coast of Chile, rupturing beaches and launching a tsunami that rode inland with devastating effect. In an instant, whole sections of the coastline were transformed, with large swaths of sand and rock lifted from beneath the waves.

For Chile, it was a disaster of sobering proportions. But for Eduardo Jaramillo and Jenifer Dugan -- researchers who have spent years studying the effects of coastal erosion on beach ecology -- it was also a rare opportunity to see one of climate change's more immediate effects put in reverse.

"It was like setting the clock backward," said Dugan, a researcher at the Marine Science Institute of the University of California, Santa Barbara. "The whole coast went up in places. Beaches that had been much lower elevation relative to sea level came up a couple of meters. They regained a lot of lost ground."

Before the quake, that "lost ground" had been steadily eaten away by a combination of natural and human influences.

As thermal expansion and glacial melt -- both products of global climate change -- push sea levels steadily higher, coastlines are shifting inland. Yet in many places, that shift has been arrested by man-made sea walls, vast projects meant to protect the trillions of dollars of infrastructure that perch on the edge of the world's oceans.

Sea walls are often constructed at high-tide lines, and although they may protect the infrastructure behind them, they actually exacerbate the erosion of the beach in front of them, said Jaramillo, of Universidad Austral de Chile.

How sea walls accelerate erosion "When you build a sea wall close to high tide, the water actually hits it and bounces off with more force" than if the tide had been allowed to go out naturally, he said. Beaches lose more sand to erosion when they have sea walls than when they're allowed to move naturally, he added.

For the plants and animals that inhabit beaches, that means a precipitous loss of habitat. Along much of the Chilean coast, species have abandoned beaches hemmed in by closing walls of water and concrete. But in those places where the quake lifted new ground, life quickly returned.

"Dune plants are coming back in places there haven't been plants, as far as we know, for a very long time," Dugan said. "The earthquake created sandy beach habitat where it had been lost." Invertebrate and avian life were coming back quickly, as well, she said.

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Chilean Earthquake Restores Beaches