Alexander
Gates, a geology professor at Rutgers-Newark, is co-author of ”The
Encyclopedia of Earthquakes and Volcanoes,” which will be published by
Facts on File in July. He has been leading a four-year effort to remap
an area known as the Sloatsburg Quadrangle, a 5-by-7-mile tract near
Mahwah that crosses into New York State. The
Ramapo Fault, which runs through it, was responsible for a big
earthquake in 1884, and Dr. Gates warns that a recurrence is overdue. He recently talked about his findings.
Q. What have you found?
A.
We’re basically looking at a lot more rock, and we’re looking at the
fracturing and jointing in the bedrock and putting it on the maps. Any
break in the rock is a fracture. If it has movement, then it’s a fault.
There are a lot of faults that are offshoots of the Ramapo. Basically
when there are faults, it means you had an earthquake that made it. So
there was a lot of earthquake activity to produce these features. We are
basically not in a period of earthquake activity along the Ramapo Fault
now, but we can see that about six or seven times in history, about 250 million years ago, it had major earthquake activity. And because it’s such a fundamental zone of weakness, anytime anything happens, the Ramapo Fault goes.
Q. Where is the Ramapo Fault?
A.
The fault line is in western New Jersey and goes through a good chunk
of the state, all the way down to Flemington. It goes right along where
they put in the new 287. It continues northeast across the Hudson River
right under the Indian Point power plant up into Westchester County. There are a lot of earthquakes rumbling around it every year, but not a big one for a while.
Q. Did you find anything that surprised you?
A. I found a lot of faults, splays that offshoot from the Ramapo that go 5 to 10 miles away from the fault. I
have looked at the Ramapo Fault in other places too. I have seen splays
5 to 10 miles up into the Hudson Highlands. And you can see them right
along the roadsides on 287. There’s been a lot of damage to those rocks,
and obviously it was produced by fault activities. All of these faults have earthquake potential.
Q. Describe the 1884 earthquake.
A.
It was in the northern part of the state near the Sloatsburg area. They
didn’t have precise ways of describing the location then. There was
lots of damage. Chimneys toppled over. But in 1884, it was a farming
community, and there were not many people to be injured. Nobody appears
to have written an account of the numbers who were injured.
Q. What lessons we can learn from previous earthquakes?
A.
In 1960, the city of Agadir in Morocco had a 6.2 earthquake that killed
12,000 people, a third of the population, and injured a third more. I
think it was because the city was unprepared.There had been an
earthquake in the area 200 years before. But people discounted the
possibility of a recurrence. Here
in New Jersey, we should not make the same mistake. We should not
forget that we had a 5.4 earthquake 117 years ago. The recurrence
interval for an earthquake of that magnitude is every 50 years, and we
are overdue. The Agadir was a 6.2, and a 5.4 to a 6.2 isn’t that big a jump.
Q. What are the dangers of a quake that size?
A.
When you’re in a flat area in a wooden house it’s obviously not as
dangerous, although it could cut off a gas line that could explode.
There’s a real problem with infrastructure that is crumbling, like the
bridges with crumbling cement. There’s a real danger we could wind up
with our water supplies and electricity cut off if a sizable earthquake
goes off. The best thing is to have regular upkeep and keep up new
building codes. The new buildings will be O.K. But there is a sense of complacency.
MARGO NASH
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