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A Domino of Quakes in the Himalayas

A Domino of Quakes in the Himalayas

On top of the devastation following the first earthquake, a second has hit. EPA

The second earthquake to hit Nepal in less than a month caught local disaster relief agencies unaware and, despite being six times weaker than the massive quake on April 25, it is still thought to have caused hundreds of casualties.

The magnitude 7.3 that struck around 80 km (50 miles) east of Kathmandu resulted from the same tectonic forces as the larger earthquake just over a fortnight before, caused by the Indian plate thrusting beneath the Eurasian tectonic plate along the front of the Himalayas.

While the earthquake could not have been predicted, geophysicists had noted that the fault that slipped on April 25 was weaker than might have been expected. It was not the “great Himalayan earthquake” that had been anticipated by some.

The latest large quake has been linked to stress after the first, which passed eastward along the fault system, running in front of the Tibetan plateau. In a domino effect, stress transferred along to a separate section of the rupture that has now been triggered as an earthquake.

Weaker but still fatal

Although weaker than the previous quake, it was, nevertheless, of a similar magnitude to the Haiti earthquake of 2010, which killed more than 100,000 people.

Estimated population affected where the earthquake struck. Credit: USGS
Estimated population affected where the earthquake struck. Credit: USGS

Many buildings of un-reinforced brick and mud, were already weakened by the recent shakes. The earlier quake also generated secondary hazards such as landslides and liquefaction, the weakening and softening of soil following an earthquake, that might well have increased the damage in this second quake.

The United States Geological Survey has issued an impact assessment, rating the event as “severe” in the worst-affected area. It states that the quake will have caused significant casualties, with estimated fatalities sadly likely to reach a total of hundreds or more.

Orange alert level for shaking-related fatalities. Past events with this alert level have required a regional or national level response. Credit: USGS
Orange alert level for shaking-related fatalities. Past events with this alert level have required a regional or national level response. Credit: USGS

Moving east

Andy Hooper, professor of geophysics and geodesy (the science that enables global positioning) at Leeds University said that the earthquake started at the eastern edge of where the fault slip reached during the 7.8 magnitude event of two and a half weeks ago. “The fault appears to have ruptured mainly eastwards and can be considered as a further unzipping of the locked fault” he said. “We do not have measurements yet, but because the fault slip in this earthquake occurred farther east, it may well have caused a significant drop in the height of Mount Everest.”

Yellow alert level for economic losses. Some damage is possible. Estimated economic losses are 0-1% GDP of Nepal. Credit: USGS
Yellow alert level for economic losses. Some damage is possible. Estimated economic losses are 0-1% GDP of Nepal. Credit: USGS

Yani Najman, Himalayan geologist at the Lancaster Environment Centre at Lancaster University, said there was little or nothing that could be done to stop earthquakes occurring in this region. “However, loss of life in future events can be reduced with stronger buildings, less likely to collapse,” he said. Najman added that when Nepal embarks on a major phase of rebuilding, it should also be a time for education in the country, “promoting simple measures to ensure that housing is as well-built as it can be, taking into account also the limited resources available to people.”The Conversation

Simon Redfern is Professor in Earth Sciences at University of Cambridge.

This article was originally published on The Conversation. Read the original article.

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