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Istanbul: Seafloor Study Proves Earthquake Risk for the First Time

GeoSEA sensors document tectonic strain build-up below the Marmara Sea

Collapsed houses, destroyed port facilities and thousands of victims -- on 22 May 1766 an earthquake of approximately 7.5 magnitude units and a subsequent water surge triggered a catastrophe in Istanbul. The origin of the quake was located along the North Anatolian fault in the Sea of Marmara. It was the last major earthquake to hit the metropolis on the Bosporus.

Led by GEOMAR Helmholtz Centre for Ocean Research Kiel (Germany), researchers have demonstrated, for the first time, with direct measurements on the seafloor that considerable tectonic strain has built up again on the North Anatolian fault below the Sea of Marmara. "It would be sufficient to trigger another earthquake with magnitudes between 7.1 to 7.4," says geophysicist Dr. Dietrich Lange of GEOMAR. He is the lead author of the study published July 8 in the international journal Nature Communications.

EM1 GeoSEA Tripod02 DLange GEOMARIn 2014, German and French scientists set down their measuring instruments in the Sea of Marmara. Photo: Dietrich Lange / GEOMAR

The North Anatolian fault zone marks the boundary between the Eurasian and Anatolian plates. "Strong earthquakes occur when the fault zone becomes locked. Then tectonic strain accumulates, and the seismic energy is released in an earthquake," explains Dr. Lange. The last time this happened was in 1999 at a section of the North Anatolian fault near Izmit, about 90 kilometers east of Istanbul.

Tectonic strain build-up along fault zones on land has been regularly monitored for years using GPS or land surveying methods. This is not possible in seabed fault zones due to the low penetration depth of the GPS satellite signals under water. However, the section of the North Anatolian fault that poses the considerable threat to the Istanbul metropolitan region is located underwater in the Marmara Sea.

EM2 151202 1207 0567 SO244 JSteffen GEOMAR originalA tripod is launched off Chile. Photo: Jan Steffen

Up to now, it has only been possible to extrapolate, for example using land observations, whether the plate boundaries there are moving or locked. However, the methods could not distinguish between a creeping movement and the complete locking of the tectonic plates. The new GeoSEA system developed at GEOMAR measuring acoustic distances on the seabed now enables scientists to directly measure crustal deformation with mm-precision. Over a period of two and a half years, a total of ten measuring instruments were installed at a water depth of 800 meters on both sides of the fault. During this time, they carried out more than 650,000 distance measurements.

"In order to get measurements accurate within a few millimeters over several hundred of meters, very precise knowledge of the speed of sound underwater is required. Therefore, pressure and temperature fluctuations of the water must also be measured very precisely over the entire period," explains Prof. Dr. Heidrun Kopp, GeoSEA project manager and co-author of the current study.

"Our measurements show that the fault zone in the Marmara Sea is locked and therefore tectonic strain is building up. This is the first direct proof of the strain build-up on the seabed south of Istanbul," emphasizes Dr. Lange.

"If the accumulated strain is released during an earthquake, the fault zone would move by more than four meters. This corresponds to an earthquake with a magnitude between 7.1 and 7.4," adds Professor Kopp. Such an event would very probably have similar far-reaching consequences for nearby Istanbul as the 1999 earthquake for Izmit with over 17,000 casualties.

Story by Helmholtz Centre for Ocean Research Kiel (GEOMAR)

Journal Reference:

Dietrich Lange, Heidrun Kopp, Jean-Yves Royer, Pierre Henry, Ziyadin Çakir, Florian Petersen, Pierre Sakic, Valerie Ballu, Jörg Bialas, Mehmet Sinan Özeren, Semih Ergintav, Louis Géli. Interseismic strain build-up on the submarine North Anatolian Fault offshore Istanbul. Nature Communications, 2019; 10 (1) DOI: 10.1038/s41467-019-11016-z


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