When the devastating earthquake struck southern Turkey (officially the Republic of Türkiye) and northwest Syria on February 6, 2023, World Vision swiftly responded to the intensified challenges faced by the survivors there, including those made vulnerable by the ongoing conflict in Syria. The earthquake worsened conditions in an area already hosting thousands of refugees.
Your immediate and generous support played a crucial role in alleviating the suffering caused by displacement, heightened levels of hunger, malnutrition, and limited access to healthcare and educational support. Your gifts enabled the timely delivery of vital assistance to over 1.8 million people affected in Turkey and Syria within the first year. Hope endured for so many vulnerable children throughout the year in their most difficult times. Children like Baker*, who was orphaned by the destruction, have reclaimed their smiles. For girls like Sahar*, new dreams are beginning to unfold as her nightmares fade away.
Turkey is situated in one of the most seismically active regions on Earth. The country has long faced the threat of devastating earthquakes due to its location at the intersection of three major tectonic plates – the Eurasian Arabian and Anatolian plates. Recent powerful earthquakes that caused mass destruction and tragic loss of lives in Turkey once again highlights the vulnerable position of the country. But what exactly causes Turkey’s susceptibility to frequent and damaging quakes? Let’s take a closer look at the tectonic forces at play.
Turkey’s Restless Geological Location
Turkey straddles several major fault lines between interacting tectonic plates. The northern part of the country sits on the Eurasian plate. To the south, the Arabian plate slides northward towards the Eurasian plate. Sandwiched between these two plates is the Anatolian plate – a smaller tectonic plate comprising most of Turkey. This complex boundary region is riddled with active fault lines that frequently generate earthquakes.
The biggest threat comes from the collision zone between the Arabia and Anatolian plates, known as the East Anatolian Fault. This 1000 km long strike-slip fault runs along southeast Turkey into northern Syria. As the Arabian plate moves north, it grinds against the Anatolian plate causing the buildup of stresses that are eventually released as earthquakes.
Several other active faults also crisscross Turkey adding to its vulnerability. These include the North Anatolian Fault running along northern Turkey and the Aegean region. Western Turkey is influenced by the extensional tectonics between the Anatolian plate and the Aegean Sea plate.
A History of Destructive Earthquakes
Turkey’s hazardous location at the boundary of converging tectonic plates has resulted in some of the most damaging earthquakes in history. Over 100,000 lives have been lost in Turkey due to earthquakes in the last century alone.
The devastating 1939 Erzincan earthquake with a magnitude of 7.8 took around 33,000 lives. The 1999 Izmit earthquake registering 7.6 killed over 17,000 people. Most recently, the 2011 Van earthquake in eastern Turkey claimed over 600 lives.
But perhaps the most infamous is the 7.4 magnitude 1999 İzmit earthquake that led to nearly 18,000 fatalities and caused immense damage across the industrial heartland of the country. It highlights Turkey’s vulnerability arising from poor construction standards that amplify earthquake losses.
Underground Forces Triggering Earthquakes
Let’s look at the processes going on deep below the surface that ultimately cause the ground to shake in Turkey.
Plate Motion and Strain Accumulation
The Arabian plate is slowly but steadily pushing north against the Anatolian plate at a pace of about 2 cm per year. However, the collision is not smooth. Friction between the plates prevents them from sliding past each other easily. This causes strain to build up in the crust over decades and centuries.
Rocks deform elastically to accommodate the plate motion. When shear stress exceeds the strength of rocks along a fault, the built-up strain is released abruptly in the form of an earthquake. The two flanks of the fault suddenly jerk sideways, sending out seismic waves that make the ground shake at the surface.
Fault Slippage
Most major earthquakes in Turkey originate along strike-slip faults like the East Anatolian and North Anatolian faults. As the name suggests, slabs of crust on either side of such faults predominantly move horizontally past each other to relieve pent-up tectonic pressures.
During an earthquake, one side of the fault rapidly slides a few meters to over 10 meters relative to the other side. This displacement of the Earth’s surface manifests as the ground shaking that can last from a few seconds to over a minute. Afterslip along the fault can continue for hours and even months after the mainshock.
Liquefaction
Apart from directly damaging buildings and infrastructure, earthquakes in Turkey also amplify their effects through soil liquefaction. Loose granular soil saturated with water can temporarily behave like a liquid when shaken rigorously during an earthquake. This causes the soil to lose strength and collapse structures sitting above it.
Liquefaction occurred during the 1999 Kocaeli earthquake, causing damage to port and storage facilities near the fault zone. The possibility of liquefaction highlights the need for earthquake-resilient building designs in Turkey's quake-prone regions.
Monitoring Earthquakes and Minimizing Damage
Advanced seismic networks run by Turkey’s Disaster and Emergency Management Presidency provide round-the-clock monitoring of earthquake activity across the country. Seismic data enables quick characterization of fault slip, shake intensity patterns, and potential damage in the aftermath of a major quake.
These insights help guide emergency response and identify vulnerable areas for strengthening building codes and retrofitting older structures. Stringent building standards have been successful in minimizing earthquake losses in California. Similar measures for constructing quake-resilient buildings and infrastructure must be implemented across Turkey’s earthquake zones.
Public education programs are also essential for better earthquake preparedness and survival skills during a big quake. With its dangerous tectonic location, Turkey will continue facing earthquake risks. But through science-guided mitigation efforts, their disastrous impacts can be reduced and managed effectively.
How did World Vision respond to the earthquake, and how were people helped?
In the year following the devastating earthquake, World Vision provided critical support to more than 1.8 million people. Our efforts included delivering vital essentials such as food, heaters, fuel, hygiene kits, cash assistance, and more. Here’s a breakdown our of assistance:
- 22,224 heaters and fuel provided for schools
- 10,675 people supplied with shelters
- 924,975 people gained access to clean water and sanitation
- 119,745 people equipped with hygiene kits
- 380,288 people supported with healthcare services
- 449,378 people received health and nutrition support
- 50,916 educational programs implemented
In collaboration with 15 local organizations, World Vision reached areas like Aleppo, Afrin, Azaz, and Idlib in northern Syria, and Gaziantep and Sanliurfa in Turkey.
Through our partnership and already being present in the area when the earthquake struck, World Vision initiated psychological support sessions in schools. This endeavor helped over 1,300 children like 9-year-old Sahar* move from fear to healing. She has endured lifelong instability caused by war, displacement, and now the devastating earthquake that destroyed her home and school in their newfound community in northwest Syria. She was studying when the house collapsed. “I am afraid to go to school. I don’t want the building to fall down when I start studying again,” Sahar says. With World Vision’s support, she resumed her education and is flourishing. Sahar has now paved her way for new dreams.
Sahar (pictured at age 9) attends a psychological support session at her school in northwest Syria. She is one of 1,300 children supported through the integrated program by our partner Takaful Al Sham. (© 2023 World Vision/photograph by Rand Ishaqat)
In what ways were survivors affected by the aftermath of the earthquake?
The earthquake’s aftermath deeply affected survivors in Turkey and Syria, worsening the already severe humanitarian crisis. The ongoing emergency in Syria stands as one of the world’s largest crises, further intensified by the earthquake’s extensive aftermath:
- Nearly 50,000 buildings, including critical infrastructure like schools and hospitals, suffered significant damage or were completely destroyed.
- Access to essential healthcare in northwest Syria was severely disrupted, with nearly one-third of health centers non-operational and 70 others damaged, according to OCHA.
- Disrupted schooling and housing loss heightened vulnerabilities among children, increasing the risks of exploitation and family separation.
- In August 2023, over 265,000 people in Syria urgently needed proper housing due to the disaster’s destruction of homes.
- Scorching summer temperatures in 2023 triggered more than 40 devastating fires, damaging tents, and taking several lives, further exacerbating the crisis.
Despite Syria’s struggling health infrastructure, dedicated doctors like Dr. Mujahid* have remained supportive and committed to their patients during these difficult times. As a pediatrician working with disease surveillance supported by World Vision, Dr. Mujahid continues caring for people even after the devastating loss of his relatives, including the death of a family member’s child who had been missing during the earthquake. He has faced challenges like a lack of medical equipment, staff shortages, and power outages. “I had feelings of sadness and helplessness when I witnessed the severe injuries, numerous deaths, and people trapped under the rubble. But all of this did not prevent me from fulfilling my duty,” he says. *Name changed to protect identity (© 2023 World Vision)
The cause of earthquake in Turkey, Syria
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