Experts warned higher intensity earthquakes expected in Himalayan region

Experts warned higher intensity earthquakes expected in Himalayan region. The tectonic shift a series of earthquakes caused in region.

The magnitude of 8.0 or more on the Richter scale are likely to hit the Himalayan region

MHA experts have warned that earthquakes with a magnitude of 8.0 or more on the Richter scale are likely to hit the Himalayan region.

Experts warned higher intensity earthquakes expected in Himalayan region.

Expert say quakes with higher intensity than the one that struck likely to rock the region in future.

The tectonic shift a series of these recent earthquakes have caused in the region.

Manipur 6.7 (Jan 2016), Nepal 7.3 (May 2015) and Sikkim 6.9 (2011) have re-ruptured the plates that had already developed.

This has led to conditions which might trigger multiple earthquakes which may go up to 8.0 in magnitude.

In 1803, 1833 and 1934; Shillong in 1897; Kangra in Himachal Pradesh in 1905; Assam in 1950; and Kashmir in 2005.

In addition, earth scientists have been able to learn about historical earthquakes by using old or paleo-seismological evidences.

Speaking director Santosh Kumar said the interconnected plates across Nepal, Bhutan, Myanmar and India pose a bigger danger.

And predicted a disaster of bigger magnitude that awaits hill states and parts of Bihar, UP and even Delhi.

Which fall under the second worst seismic Zone IV classification.

The North-East and other hill states fall under severe seismic Zone V.

Seismologist saying “the current conditions might trigger at least four earthquakes greater than 8.0 in magnitude.

Using this technique it has been possible to infer the occurrences of major earthquakes in the Himalayas in 1125, 1400, 1505 and 1555.

Himalayas are one of the youngest and most active mountain belts in the world.

The range had resulted from the collision between India and Tibet (Eurasia) around 50 million years ago.

Process of convergence continues today with the Indian plate diving beneath the Eurasian plate at a steady rate of ~2 cm/year.

The process has been continuing steadily over centuries, resulting in accumulation of stresses in subsurface rocks.

It ruptures (along a fault) and blocks on either side of the fault slips past each other in a flash, resulting in release of enormous energy.

Part of the energy gets converted into elastic waves, which in turn causes vibration that propagates through the ground.

If the vibrations are strong enough, they can cause tremendous destruction.

The whole of the Himalayas have several such faults.

Our study suggests that the fault across which the current slips occurred is the Main Himalayan Thrust or MHT.