News Release

Design the first map of active faults in the Gibraltar Arc to prevent earthquakes

Peer-Reviewed Publication

University of Granada

This release is available in Spanish.

Africa and Europe get about 4 mm closer every year in a northeast convergence direction. The exact position and geometry of the boundary between the African and Eurasian plates is unknown, but it is located near the Gibraltar Arc — an area of intense seismic activity which was not studied deeply until now.

A group of researchers from the Andalusian Institute for Earth Sciences (CSIC) and the Department of Geodynamics of the University of Granada described for the first time the physical and mechanical properties of the uppermost part of the Earth’s crust — to a depth of 30 km which is where the highest magnitude earthquakes occur. This study has made it possible to establish the exact position of the active faults of the Gibraltar Arc area which cause earthquakes, thus obtaining valuable geological information which could help determine the areas in which earthquakes are most likely to occur.

The author of this study is Fermín Fernández Ibáñez, whose doctoral thesis Sismicidad, reología y estructura térmica de la corteza del Arco de Gibraltar (Seismicity, reology and thermal structure of the Gibraltar Arc crust) was directed by researchers Juan Ignacio Soto Hermoso and José Molares Soto. This study, which was carried out within the CSIC project entitled The Gibraltar Arc System: Active Geodynamic Processes in the South-Iberian Margins (SAGAS), made the most comprehensive radiography so far in the faults of the Alboran Sea, the westernmost portion of the Mediterranean Sea.

The researchers characterised a region of intense deformation in which the relative movement of blocks is caused by left-lateral strike-slip faults known as “the Transalboran fault system,” which expands from Murcia (Spain) to Alhucemas (Morocco). The other significant fault of the Gibraltar Arc area, which crosses the Transalboran fault perpendicularly, is called Nerja-Yusuf and goes from Málaga (Spain) to the Algerian coast.

Study of oil wells

Fernández and Soto assure that the south of the Iberian Peninsula and the north of Africa are very similar in geology. In order to characterise the way the Gibraltal Arc is being deformed due to pushing plates, the researchers studied oil wells, analysing the disfigurations caused by these forces.

This doctoral thesis could help to prevent natural disasters like the one that occurred in Indonesia in 2004, when a tsunami killed more than 300,000 people and flooded entire cities. In any case, researcher Fernández stated that although the Gibraltar Arc is an area of intense seismic activity and the movements of the faults could produce tsunamis, it is almost impossible that such a phenomenon would occur.

In addition, the study conducted at UGR related for the first time the temperature of the Earth’s crust to its seismic activity, thus determining that the probability of earthquakes is significantly lower in areas of higher temperature. Therefore, the western area of Sierra Nevada and Alhucemas (which are located within the Gibraltar Arc) is the area in which most earthquakes occur due to low temperatures in the Earth’s crust, while the area of Almería (Spain) and the eastern area of the Alboran Sea will probably experience fewer seismic movements.

Results from this interesting study were published in renowned scientific journals like the Journal of Geophysical Research or Tectonics. The research group in which researchers Fernández and Soto participate is a member of Topo-Iberia, an important project which aims at creating an unprecedented temporal seismic broadband net in Spain, composed by a minimum of 80 seismic stations 50-60 km apart and which will have simultaneous and homogenous coverage in different regions. Furthermore, Topo-Iberia will create the biggest Spanish GPS net ever created.

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