I firmly believe that catastrophes generated by natural hazards, such as earthquakes and hurricanes, are a product of the interaction between people decisions and the ecosystem. Thus, understanding a natural catastrophe implies analyzing historic processes of human settlements’ evolution and environmental modification. For example, the construction and sprawl of Mexico City over a drained lakebed is a necessary element in understanding its vulnerability to seismic activity. The Global Warming Euphoria brought the thesis than the likelihood of natural systemic hazards is fueled by manmade events. Yet the empirical evidence to confirm it is rare. For instance, Columbia University’s researchers suggest that the Sichuan Province’s earthquake it may have been triggered by the weight of 320 million tons of water in the Zipingpu Dam. Here’s the story published in the NYT’s International Herald Tribune:
Nearly nine months after a devastating earthquake in Sichuan Province left 80,000 people dead or missing, a growing number of U.S. and Chinese scientists are suggesting that the calamity was triggered by a four-year-old reservoir built close to the fault line at the center of the earthquake.
A Columbia University scientist who studied the quake has said that it may have been triggered by the weight of 320 million tons of water in the Zipingpu Reservoir less than a mile from a well-known major fault. His conclusions, presented to the American Geophysical Union in December, coincide with a new finding by Chinese geophysicists that the dam caused significant seismic changes before the earthquake.
Scientists emphasize that the link between the dam and the failure of the fault has not been conclusively proved, and that even if the dam acted as a trigger, it would only have hastened a quake that would have occurred at some point.
Nonetheless, any suggestion that a government project played a role in one of the biggest natural disasters in recent Chinese history is politically explosive.
The issue of government accountability and responsiveness has boiled over in China in the past year. The grieving parents of thousands of schoolchildren killed in the disaster have already made the 7.9-magnitude earthquake a political issue, charging that children died needlessly in unsafe school buildings approved by negligent or corrupt officials. More public anger erupted last year when the government failed to prevent the sale of tainted milk powder that sickened nearly 300,000 children and killed six.
If it is proved that the earthquake “was related to a man-made situation and not just a natural disaster, the government will be very uncomfortable with that kind of report because of the whole issue of government accountability,” Li said.
Questions about the Zipingpu Dam are especially delicate because China is building many major hydroelectric dams in the southwest, a region which has abundant water resources but prone to earthquakes.
In a petition to the government in July, a group of environmentalists and scholars said the fact that government scientists had underestimated the risk of the May earthquake raised questions about a host of other dams built in the same valley and along five other major rivers, according to an article published by Probe International, an environmental advocacy group. Chinese authorities have steadfastly dismissed any notion that reservoir-building in Sichuan Province placed citizens at any added risk, and they have blocked some Web sites of environmental groups that suggest that dangers have been overlooked.
In a December article in the Chinese magazine Science Times, two scientists from the Chinese Academy of Sciences strongly denied that the dam played any role in the earthquake. “The earthquake research community outside and inside China has widely accepted the notion that the May 12 Wenchuan earthquake was a huge natural disaster caused by massive crustal movement, because no reservoir triggered-quake with a magnitude eight has ever occurred in history,” said Pan Jiazheng, an expert in hydroengineering, according to a translation published by Probe International.
Scientists generally agree that a reservoir, no matter how big, cannot by itself cause an earthquake. But Leonardo Seeber, a senior scientist with the Lamont-Doherty Earth Observatory of Columbia University, said the impact of so much water could hasten an earthquake’s occurrence if geological conditions for a quake already existed. He said the best known example was a 1967 earthquake triggered by the Koyna Dam in a remote area of India, with a magnitude of about 6.5 and a death toll of about 180 people.
Seeber said that while the link between the Sichuan earthquake and the Zipingpu Dam was not yet proved, work by Christian Klose, a Columbia University researcher specializing in geophysical hazards, suggested the stress caused by the accumulated water might have hastened the quake by a few hundred years.
“It would have occurred anyway,” Seeber said. “But of course the people who were affected might think the timing is an important difference.”
Klose estimated that the weight of the water in the Zipingpu reservoir amounted to 25 times the natural stress that tectonic movements exert in a year. The added pressure, he wrote in an abstract to an unpublished study, “resulted in the Beichaun fault coming close to failure.”
Fifty stories tall and big enough to hold more than one billion cubic meters of water, the Zipingpu Dam astride the Minjiang River was billed as one of the biggest Chinese water control projects. Almost as soon as construction got under way in 2001, one expert, Li Youcai, voiced fears that officials were underplaying the risk of a major earthquake in the region, but government officials rejected his argument, according to an article published last year on China Dialogue, a Web site devoted to environmental news.
Officials allowed the reservoir to fill with water in late 2004. Fan Xiao, a chief engineer with the Sichuan Geology and Mineral Bureau, said that from late 2004 to late 2005, the data showed 730 minor earthquakes, with magnitudes of 3 or less.
When the major earthquake struck last May, it originated 3.4 miles from the reservoir. The rupture in the Earth’s crust stretched for 185 miles, initially moving in a direction that Klose said was consistent with the pressure from the water’s weight.
“The main lesson is that in building these kinds of projects we need to give more consideration to scientific planning and not simply consider the electricity or water or the economic interests,” Fan said.
The debate reignited in December when two scientists with the China Earthquake Administration and three other researchers published a study in the Chinese journal Seismology and Geology. They concluded only that the weight of the reservoir’s water and diffusion of water from the reservoir below the earth’s surface “clearly affected the local seismicity” over a period of nearly four years before the fault ruptured.
The Chinese researchers called for further study to see whether the reservoir helped trigger the earthquake. One of them, Du Fang, with the Sichuan Earthquake Administration, said Thursday that it was impossible to know whether the reservoir influenced the earthquake without more research. “The possibility exists,” she said.