Evacuees are escorted from an IAF C-17 Globemaster aircraft as they arrive at Air Force Station Palam in New Delhi early yesterday.
IANS/New Delhi
In the wake of the strong 7.9 magnitude earthquake that killed over 2,400 people in Nepal and left a swathe of devastation in the northern Himalayas on Saturday, experts said a disaster of equal intensity is “overdue” in northern India.
“An earthquake of the same magnitude is overdue. That may happen either today or 50 years from now... in the region of the Kashmir, Himachal, Punjab and Uttarakhand Himalayas. Seismic gaps have been identified in these regions,” B K Rastogi, the director general of the Ahmedabad-based Institute of Seismological Research, said.
This is because the movement of tectonic plates generates stress over time, and rocks at the surface break in response. When the stress accumulates, every 100km stretch of the 2,000km-long Himalayas can be hit by a high-magnitude earthquake.
“The accumulation of stress is going on everywhere. But where it will reach the elastic limit, we don’t know nor also when. But what we do know is that it is happening everywhere,” Rastogi added.
“With 20 such locations that are prone to high-intensity earthquakes, it takes 200 years for an earthquake of this magnitude to happen on this belt. In 1833, the same epicentre - 80km northwest of Kathmandu - an earthquake of 7.5 magnitude had hit the region,” he said.
According to the India Meteorological Department (IMD), Saturday’s quake, measuring 6 on the Richter scale in Delhi, had a depth of 10km and its impact lasted up to one minute.
The US Geological Survey said the epicentre was in Nepal’s Lamjung district some 75km from Kathmandu.
Rastogi said the earthquake uplifted rocks by 4m, rupturing an area 100km long and 50m wide of the epicentre.
Scientist P R Vaidya at IMD here, said Nepal falls on the Alpine-Himalayan belt, one among the three seismic belts on the Earth’s surface, which is responsible for 10% of the world’s earthquakes.
The Apline-Himalayan belt, which is prone to high-intensity earthquakes, runs through New Zealand, Australia, Indonesia, the Andaman and Nicobar Islands and northeast India, from where it turns to Nepal and then to Jammu and Kashmir, up to Afghanistan and the Mediterranean Sea. It finally ends in Europe.
The world’s greatest earthquake belt, the circum-Pacific seismic belt, is found along the rim of the Pacific Ocean, where about 80% of the world’s largest temblors occur.
Rastogi said within the 40km-range of the epicentre, the scale of damage has been very high, with a total collapse of buildings.
Aftershocks, he added, would be felt for two days in case of a “strong” earthquake” of about magnitude 8.
“Even small buildings that were hit in the first wave may be damaged by the aftershocks if not designed properly. And the aftershocks may continue for one or two months,” he said.
About 40mn years ago, India was 5,000km south of where the Himalayas now stand. With the continental shift, India and the Asian continent came closer to form the Himalayas.
“And the process of movement continues at about 2cm every year. The Indian landmass today is pushing the Asian landmass and that generates stress,” Rastogi said.
Scientist Vaidya said: “Earthquakes happen because of the theory of plate tectonics, which means with the movement of tectonic plates, stress in generated in the rocks.”
