Formation of Deadly Turkey and Syria Earthquakes Traced Back to the 5-Million-Year-Old Anatolian Fault

The deadly earthquakes that struck Turkey and Syria were the result of the Anatolian fault, which formed approximately 5 million years ago. This fault is a major tectonic boundary where the Eurasian and Arabian plates meet. It has been slowly accumulating stress over millions of years, eventually releasing it in the form of powerful earthquakes. The fault extends for about 1,200 kilometers along the eastern Mediterranean region and poses a significant seismic hazard. The recent quakes highlight the ongoing activity and danger posed by this ancient fault line..

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The East Anatolian fault, site of a deadly February 2023 earthquake, formed 5 million years ago thanks to the squeeze of the Eurasian and Arabian plates, new research finds.

The creation of the fault cracked the crust from the North Anatolian fault to the Dead Sea fault, breaking the Anatolian plate free from the Eurasian plate — the birth of a new tectonic plate.

The East Anatolian fault spawned a deadly magnitude 7.8 earthquake on Feb. 6, which was followed hours later by a magnitude 7.6 on a different fault branching off the main East Anatolian fault. More than 59,000 people died. While it’s impossible to predict earthquakes, a deeper understanding of the fault may help researchers understand which parts of the fault system are vulnerable to future breaks and why, said study first author Donna Whitney, an earth scientist at the University of Minnesota.

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For instance, the study showed that part of the Arabian plate is stuck under the Anatolian plate. The edge of this stuck chunk of crust is near the fault that broke to create the second earthquake near the Syrian-Turkey border. The strength contrast in the crust caused by that additional layer may have been one reason the earthquake began there, Whitney told Live Science.

“We had no idea it was going to have a big earthquake, absolutely not,” she said. “But it makes sense geologically.”

Whitney led a team of multidisciplinary Earth scientists in investigating how the Anatolian plate formed. The researchers used a variety of methods to study the area, including seismic surveys, which use earthquake waves or induced vibrations to image the subsurface, and mineral dating to figure out the age of the rocks.

Because faulting allows hot fluids from the mantle to rise to the surface, they can heat the minerals that researchers use to determine the age of rocks, essentially resetting their molecular clocks. Using these strangely young-looking minerals, the research team was able to determine when and where the East Anatolian fault cracked.

“We think that about 5 million years ago, that’s when everything connected,” Whitney said.

The plate’s formation owed to the collision of the Eurasian and Arabian plates, which are pushing into one another slowly. Add in some extension, or stretching, from the Aegean seafloor to the west, and “Anatolia basically had to move west,” Whitney said. It’s a bit like a watermelon seed slipping out between two fingers, if the Eurasian and Arabia plates are the fingers, and the Anatolian plate is the seed, she said. The researchers reported their findings in the journal Geology.

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Since the formation of the plate, earthquake activity has centered around the North Anatolian fault and the East Anatolian fault. The East Anatolian fault frequently gives off moderate-sized quakes, with the largest in recent history before 2023 being a magnitude 6.8 that struck in 2020, according to a paper in the Journal of the Geological Society. In 1939, a quake centered on the North Anatolian fault killed more than 32,000 people, according to The Geological Society, and a magnitude 7.6 quake in 1999 killed more than 17,000.

New research suggests that the East Anatolian fault, responsible for a deadly earthquake in 2023, formed 5 million years ago due to the movement of the Eurasian and Arabian plates. The fault separated the Anatolian plate from the Eurasian plate, creating a new tectonic plate. The recent earthquake, which caused over 59,000 deaths, occurred on this fault and a separate fault branch. Understanding the fault system and its vulnerabilities may aid in predicting future earthquakes. The study also revealed that part of the Arabian plate is stuck under the Anatolian plate and may have contributed to the earthquake’s occurrence.

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