SIERRA DE
GUADALUPE
GUADALUPE
Simulated
epicenter
epicenter
MEXICO
CITY
CITY
Area of ancient
lake bed
lake bed
Shock waves from
a simulated earthquake
a simulated earthquake
The New York Times | Source: Víctor Cruz-Atienza, National University of Mexico
The earthquake that on Tuesday killed at least
135 people in Mexico City and toppled dozens of buildings there was all
the more destructive because of the city’s unusual position atop an
ancient lake bed.
The animation above, based on a model by Víctor Cruz-Atienza,
a professor of geophysics at the National University of Mexico, shows
how the shock waves of a hypothetical earthquake near Mexico City would
spread. Darker red areas indicate the strongest ground movement.
The shaking in this simulation is strongest in
the low parts of the Valley of Mexico, which cradles the city, and it
weakens when it meets the surrounding hills. That’s no coincidence. The
darker red areas showing the strongest shock waves trace the shape of an
ancient lake.
The Spanish built modern Mexico City over the
ruins of the Aztec capital of Tenochtitlan, which they conquered in
1521. The Aztec city was on an island in Lake Texcoco, but the Spanish
drained the surrounding lake over centuries and expanded Mexico City
onto the new land.
Today, much of the city stands on layers of sand
and clay — up to 100 yards deep — that used to be under the lake. These
soft, water-laden sediments make the city uniquely vulnerable to
earthquakes and other problems.
2 MI.
The city stands on soft
ancient lake sediments.
ancient lake sediments.
The lake bed
contains some hills...
...and is surrounded
by mountains.
1 MILE
ABOVE SEA
LEVEL
HARDER ROCK
The New York Times
During an earthquake, the looser sediments near
the surface cause shockwaves to slow down from about one and a half
miles per second to about 150 feet per second as they enter the valley.
The slower waves grow in amplitude, similar to a tsunami approaching a
coastline, and cause more violent shaking.
Worse still, the denser, deeper material below
the looser sediments causes waves to linger in the valley, making the
amplified shaking last longer.
The map below, based on seismological readings
taken at the National University of Mexico, shows how violently the
ground shook in Mexico City during Tuesday’s earthquake. Like the
simulation map, the redder the area, the more violently the ground shook.
MEXICO
CITY
CITY
Lake bed
Strength of shaking in Mexico City
The New York Times | Source: The Institute of Engineering at the National University of Mexico
These actual readings confirm what the
simulation shows: Tuesday’s earthquake grew worse in the city as its
waves moved through the ancient lake bed below.
Mexico City is already a hot spot for
earthquakes because vast chunks of the earth’s crust, called tectonic
plates, are slowly smashing into one another nearby. Mexico rests on the
North American Plate, and the Cocos Plate slides underneath it along
the country’s southwestern coast.
MEXICO
200 MILES
Mexico City
TUESDAY’S EPICENTER
COCOS PLATE
The collision as one plate plunges below the
other, a movement called subduction, releases huge amounts of energy,
making earthquakes a common occurrence in Mexico. Unlike Tuesday’s, many
of these earthquakes are small.
The unique geology of Mexico City’s basin can
amplify earthquake waves to be a hundred times stronger than they would
be otherwise, a phenomenon that Dr. Cruz-Atienza said is not matched
anywhere else in the world.
Partly because of this amplification,
earthquakes that happen relatively far away from Mexico City can still
cause significant damage. A devastating earthquake in 1985 that killed
as many as 10,000 people originated over 200 miles away, near the
Pacific coast of Mexico.
The epicenter of Tuesday's quake was closer,
around 50 miles away, but the map below shows that it shook Mexico City
more violently than other areas that were a similar distance from the
epicenter.
Mexico City
Puebla
Atlixco
EPICENTER
20 MILES
The New York Times | Source: United States Geological Survey
The 1985 earthquake prompted improvements to building codes that are thought to have lessened
the damage on Tuesday. But earthquakes will always pose a unique threat
to Mexico City, because of the geologic implications of the ancient
lake bed that lies beneath it.
Sources: Víctor Cruz-Atienza and Mario Ordaz at the National University of Mexico, and Dr. Cruz-Atienza’s 2016 paper, “Long Duration of Ground Motion in the Paradigmatic Valley of Mexico”
Additional work by Troy Griggs, K.K. Rebecca Lai and Anjali Singhvi. Additional reporting by Henry Fountain.
NYT
NYT
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