News APP

NewsApp (Free)

Read news as it happens
Download NewsApp

Available on  gplay

Home  » News » Wayanad landslides linked to warming of Arabian Sea: Scientist

Wayanad landslides linked to warming of Arabian Sea: Scientist

By Gaurav Saini
July 31, 2024 00:16 IST
Get Rediff News in your Inbox:

Warming of the Arabian Sea is allowing the formation of deep cloud systems, leading to extremely heavy rainfall in Kerala in a shorter period and increasing the possibility of landslides, a senior climate scientist said on Tuesday.

IMAGE: NDRF and Army personnel during a rescue operation after a devastating landslide hit hilly villages triggered by heavy rainfall, in Wayanad, July 30, 2024. Photograph: ANI Photo

Extremely heavy rain triggered a series of landslides in the hilly areas of Kerala's Wayanad district early on Tuesday, leaving at least 123 people dead and 128 injured. Many were feared trapped under the debris.

 

S Abhilash, director of the Advanced Centre for Atmospheric Radar Research at Cochin University of Science and Technology, said Kasargod, Kannur, Wayanad, Calicut and Malappuram districts have been receiving copious rainfall due to the active monsoon offshore trough affecting the entire Konkan region for the last two weeks.

The soil was saturated after two weeks of rainfall.

A deep mesoscale cloud system formed off the coast in the Arabian Sea on Monday and led to extremely heavy rain in Wayanad, Calicut, Malappuram and Kannur, resulting in localised landslides, he told PTI.

"The clouds were very deep, similar to those seen during the 2019 Kerala floods," Abhilash said.

He said scientists have noticed a trend of very deep cloud systems developing over the southeast Arabian Sea, and added that sometimes, these systems intrude into the land, like in 2019.

"Our research found that the southeast Arabian Sea is becoming warmer, causing the atmosphere above this region, including Kerala, to become thermodynamically unstable," Abhilash said.

"This atmospheric instability, allowing the formation of deep clouds, is linked to climate change. Earlier, this kind of rainfall was more common in the northern Konkan belt, north of Mangalore."

With climate change, that rain-bearing belt with deep clouds is extending southward and this is the main reason behind such extremely heavy rainfall, he said.

Research by Abhilash and other scientists published in Climate and Atmospheric Science journal in 2022 found that rainfall over the west coast of India is becoming more convective.

Another study by Abhilash and scientists from IITM and IMD, published in Elsevier in 2021, found that one of the hotspots of heavy rainfall in the Konkan region (between 14 degrees north and 16 degrees north) seems to have shifted southward with likely fatal consequences.

"An increase in rainfall intensity may suggest a rising probability of landslides in the high to mid-land slopes of the Western Ghats in eastern Kerala during the monsoon seasons," the study said.

According to the India Meteorological Department, several automatic weather stations in Thrissur, Palakkad, Kozhikode, Wayanad, Kannur, Malappuram and Ernakulam districts recorded rainfall between 19 cm and 35 cm.

"Most automatic weather stations of the IMD in the region recorded rainfall above 24 cm in 24 hours. Some stations installed by farmers recorded more than 30 cm of rain," Abhilash said.

The Met Office said very heavy rainfall could occur in some places in the state over the next two days.

Roxy Mathew Koll, a climate scientist at the Indian Institute of Tropical Meteorology, however, said it is too early to understand the specifics of the Kerala landslides.

In general, monsoon patterns have become erratic and more rainfall is occurring in a short period. As a result, there are frequent instances of landslides and floods along the Western Ghats, from Kerala to Maharashtra, he said.

Get Rediff News in your Inbox:
Gaurav Saini in New Delhi
Source: PTI© Copyright 2024 PTI. All rights reserved. Republication or redistribution of PTI content, including by framing or similar means, is expressly prohibited without the prior written consent.