Researchers say they have built up a complete picture of what the next major earthquake in Turkiye will look like, the only piece missing is knowing exactly when it will occur.
A team of scientists from USC say they can pinpoint the probable epicentre, estimate its strength and see the spatial footprint of where damage is most likely to occur.
Using remote sensing, USC geophysicist Sylvain Barbot and his fellow researchers documented the massive quake that killed more than 50,000 people in Eastern Turkiye on 6 February and destroyed more than 100,000 buildings.
Alarmingly, researchers found that a section of the fault remains unbroken and locked – a sign that the plates there may, when friction intensifies, generate another magnitude 6.8 earthquake when it finally gives way.
“We know a little bit better what to prepare for. We don’t know the timing, but we know where it can happen,” Barbot said.
Major earthquakes are caused by the slipping of tectonic plates. The plates, slowly moving pieces of the earth’s crust, press against each other, gradually accumulating force over the course of decades, centuries and eons. When the plates finally slip, the energy explodes in traveling waves through the earth’s crust.
The Kahramanmaras, Turkiye, magnitude 7.8 mainshock occurred in February, followed by a magnitude 7.6 aftershock on a separate fault further west. Another quake occurred two weeks later, a magnitude 6.4 on 20 February. A plotting of data highlighted seismic activity and the amount of slippage along the faults.
The area beneath Turkiye’s Pütürge district shows a swarm of seismic activity along the fault – but no slippage. That means that part of the fault is locked, or stuck, but it is likely to slip sometime — anytime — in the future.
“What we’ve seen in photos of the buildings that collapsed is that some of them were pancakes but others were literally pulverised,” Barbot said. “So that means another degree of failure; even the concrete itself disintegrated. There is the possibility that this earthquake produced more shaking than was anticipated in the building codes. We won’t know without more research.
“So, we have this region where we can expect a 6.8 magnitude earthquake and two things can happen from here. The population needs to be prepared for that. But also the scientific community because that gives us an opportunity to prepare a monitoring experiment to see how an earthquake starts and ends.”