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This is the Church of Santiago de
Lorca, destroyed in the earthquake of 2011.
Credit: Antonio Periago Miñarro.
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Enjoying Spanish participation, an
international group of researchers have analysed the most recent
history of the Alhama de Murcia fault. They discovered that it has
experienced six major earthquakes above 7 on the Richter scale.
According to the scientists, this provides "convincing evidence"
that the maximum earthquake magnitudes in the area are higher than
originally thought.
Since 2001, researchers from the
Universities of Barcelona, Leon, Complutense de Madrid (UCM), Coimbra
(Portugal), Aahus (Denmark) and the National Autonomous University of
Mexico have been working on the Alhama de Murcia fault in order to
identify those high magnitude earthquakes that have occurred during
the Quaternary period – the most recent of geological ages.
This fault is a fracture plane of the
land that crosses the entire earth's crust. Therefore, to identify
the prehistoric earthquakes in its walls, scientists had to make
surface excavations perpendicular to the fault (trenches of between
20 and 30 metres long and 4 metres deep). This allowed for them to
take an exceptionally extensive paleoseismic record.
As Martínez adds, "when large
earthquakes exceed magnitude 6, they usually break at the surface and
as a result, we have been able to identify this in their walls."
These tectonic deformations were dated using carbon-14 and infrared
stimulated luminescence techniques.
In order to understand the behavioural
patterns of the Alhama de Murcia fault, the researchers had to
reconstruct hundreds of thousands of years "much more than the
Americans or the Japanese, who can understand their fault patterns by
studying just 10 thousand years."
This is because faults in Spain are
slow-moving and there is therefore much more time between major
earthquakes (to the tune of thousands of years) compared to much
faster-moving faults like San Andreas in California. According to
their estimations, the Alhama fault would be created more than 9
million years ago and would have caused earthquakes from the outset
thus shaping the landscape of the region.
"It was in our interest to detect
the seismic activity from the Quaternary period, or, in other words,
earthquakes that occurred more than 1.8 million years ago. In total,
we have identified a minimum of six earthquakes of high magnitude
during the period studied (more than 300,000 years) but we know that
the real number is actually much higher. In some cases, sedimentary
evidence could have disappeared or maybe they can be found in parts
of the fault that have yet to be studied," outlines the
researcher.
An underestimated seismic danger?
Another revelation according to the
article is that the area could suffer from a stronger earthquake than
originally thought. "During earthquakes, the entire length of
the fault does not break. It does so in segments. We have proven that
this fault could break at once at the two western segments, from
Góñar (Almería) to Totana (Murcia) causing at the same time an
earthquake of a magnitude above 7," explains Martínez.
"This fault has already produced
an earthquake of magnitude 6.5 or 7 thousands of years ago, and could
do so again tomorrow. As a result, it is vital to bear in mind the
earthquake risk calculations and building codes on the area,"
outline the researchers.
The seismic hazard map forming the
basis of the Spanish Seismic Resistance Construction Standard assigns
the area of Lorca with a maximum acceleration for construction design
of 0.19 g. However, the recent earthquake reached a magnitude of 5.2
and generated a much higher acceleration of 0.36 g.
"The area's hazard level was
underestimated because until now estimations have been based on the
historical earthquake catalogue which only records events from the
last 2000 years," points out Martínez. The researcher believes
that the fault activity parameters obtained through paleoseismic
studies like this can help to improve risk calculations.
But will they be capable of predicting
the next high magnitude movement? The authors stress that it is
indeed possible to determine the maximum magnitude as well as the
location of the earthquake. However, at present there is still no way
of predicting the moment it will strike, as this involves a complex
geological phenomenon governed by non-linear physical processes.
"Earthquakes like the one in Lorca
and ones before produce fault stress changes which increase in
certain points of the fault. We know this thanks to models and
results that we have published from previous studies. The next
earthquake is more likely to occur in these areas. However,
estimating when is impossible," ensures the scientist.
With regards to the study recently
published in the 'Nature Geoscience' journal that alludes to water
extraction being the possible cause of the 2011 earthquake in Lorca,
the researcher is doubtful.
"There is much scientific
discussion on the matter, we are part of various groups that have
been working in the area for some time and I am not the only one who
is sceptic of the idea. The 2011 earthquake in Lorca was similar to
those that took place in 1674 and 1818 at a time when aquifer
exploitation was not practiced. I believe that there is no need to
search for any unusual reason behind the earthquake. It was down to
the fault's natural tectonic evolution. It was a completely normal
earthquake from a geological point of view – the small magnitude
kind which occurs on a fault every so often," concludes
Martínez.
References:
María Ortuño, Eulalia Masana, Eduardo
García-Meléndez, José Martínez-Díaz, Petra Štěpančíková,
Pedro P. Cunha, Reza Sohbati, Carolina Canora, Jan-Pieter Buylaert,
and Andrew S. Murray, "An exceptionally long paleoseismic record
of a slow-moving fault: The Alhama de Murcia fault (Eastern Betic
shear zone, Spain)", Geological Society of America
Bulletin 1474 – 1494, septiembre –octubre de 2012.
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