Perilous Times
Crews Fight to Save Mexico City from Sinking into the Ground
By Chris Hawley, USA TODAY
MEXICO CITY — Deep underground, tunneling crews are racing against time
as they try to save the world's third-largest metropolis from
catastrophe.
Above them, the Mexican capital is sinking into the earth at a record
rate, tilting the city's sewage tunnels so they are actually running
backward. Crews are rushing to build a 37-mile drainage tunnel to save
the city from drowning.
"Imagine the Congress, the stock exchange, the country's biggest
airport, everything underwater," says Ariel Flores, water reuse manager
for the National Water Commission. "It would paralyze the economy of
the entire country. It would be a total disaster."
Across this city of 18.7 million, workers have started a flurry of
projects to shore up areas that are sinking by as much as 8 inches a
year. They're renovating a key intersection, filling holes under a
commuter train line, reinforcing churches in the historic center,
rehabilitating another drainage tunnel and dredging above-ground sewage
canals.
Flooding poses the most danger, and there are already signs of trouble.
In February, the Remedios River, a sewage canal, backed up and broke
through its dike, flooding 4,000 homes with raw waste. Officials
evacuated swaths of eastern Mexico City, worried about an epidemic
deadlier than the H1N1 flu that swept over the city last year.
After the flood, the city installed five more massive pumps to force
water out of the sinking metropolis.
"The goal: to reduce the risk of flooding as much as we can," Mayor
Marcelo Ebrard says. "With luck, we'll be in time."
Mexico City's sinking problem dates back centuries. The Aztecs built
their capital, known as Tenochtitlan, on a flat island in the middle of
a lake. The city flooded frequently.
After the Spanish defeated the Aztecs in 1521, Spanish colonizers began
draining the lake to control flooding. One flood, in 1629, left the
city underwater for five years.
As the water disappeared, the city settled into the mud, forcing the
government to build ever-deeper drainage tunnels to carry the water to
lower ground.
In recent decades, the city's population soared, forcing authorities to
pump more drinking water from underground aquifers and worsening the
sinking. Mexico City and its suburbs make up the world's
third-most-populous urban area after Tokyo and New Delhi, according to
the United Nations.
Much of the wastewater no longer flows naturally out of the city. Pumps
are used to get it over a rise called the Sierra de Guadalupe.
Landmarks anchored to bedrock are thrust skyward as the rest of the
city drops. Workers have had to add 14 steps to the base of the
Independence Angel monument since it was built in 1910, and a water
pipe installed at ground level in 1934 now juts 27 feet in the air
beside the Monument to the Revolution.
The Insurgentes Traffic Circle, a main intersection built on
underground piles in 1970, is now 12 feet higher than the streets
feeding into it.
On a recent afternoon, workers were tearing up asphalt to make way for
a new ramp so drivers could make the grade without gunning their
engines.
"We can't stop the sinking, so we just have to adapt the streets to
it," engineer Carlos Pixor says.
In the city's colonial center, the federal government is injecting
columns of wet concrete 115 feet beneath the Holy Trinity Church in an
attempt to shore it up. The 17th-century church is listing to the side
and sinking faster than the surrounding streets. Worshipers descend a
7-foot stairway to get in the door.
The biggest project is the Eastern Drainage Tunnel, a 23-foot-wide,
$1.1 billion pipeline that will run north for 37 miles from Mexico City
to lower ground in the Mezquital Valley.
At its deepest point, the tunnel will be 495 feet underground.
Excavation began in June 2008 and will finish in 2012, the National
Water Commission says.
It will carry away wastewater and reduce the risk of flooding, but it
won't stop the sinking, says Ramón Domínguez Mora, a hydraulic engineer
at the National Autonomous University of Mexico. To stop the ancient
lake bed from contracting further, the city either has to stop pumping
from its aquifer or inject water back into the ground, he says. But
first the water must be cleaned, and the city does not have enough
water treatment plants. Only 6% of Mexico City's sewage and rain runoff
is treated; the rest is used to irrigate fields.
Even if the water could be returned to the aquifer, it's unlikely the
ground could be "re-inflated," Flores says. Once the soil of the lake
bed is compacted, it will not return to its original volume, he says.
"You can't raise the city again," Domínguez says. "The only hope is to
stop it from sinking further."