Preparing for the Worst: Mountain Lakes and Natural Catastrophes

Parts of Asia and South America have mountain regions prone to a high risk of flooding due to mountain lakes breaches and bursts.

In India, the Himalayas are home to a large number of glaciers. States like Jammu & Kashmir, Ladakh, Uttarakhand, Sikkim, Arunachal Pradesh, Assam and Himachal Pradesh are vulnerable to this phenomenon because of a large number of mountain lakes.

Mountain lakes often have base and walls made of debris and loose rocks. As the climate warms, new lakes are forming, and the dimensions of existing lakes are increasing in size, causing them to hold even larger quantities of water.

Over time, snow accumulated in mountainous regions compressed into glacial ice.  As temperatures rise, glaciers melt and carving large arena shaped depressions in the landscape. Retreating glaciers leave behind rocks and debris creating a wall or a natural dam to block the flow of water.

Various geological processes, such as tectonic activity, create natural depressions in mountains when movements in the Earth’s crust occur. Water flows from snow-melt, seasonal rainfall or cloud bursts replenish glacial lakes or mountain lakes  in elevated regions. 

Increasing changes in climate patterns, including more intense and frequent storms, altered precipitation patterns, and temperature variations are already influencing the hydrological cycle globally. The unique topography of mountains enhances the likelihood of notable phenomenon which leads to massive flash floods.

The dynamic mountain landscape, combined with natural and human-induced factors, contributes to the complexity of water flow patterns. These complex factors lead to increased volume and velocity of water flow from mountains to downstream plains. This causes flooding, potential damage to buildings and crops downstream.

Here is a clip from recordings done by our team from such locations.

Major Causes

  • Cloud Bursts: In mountainous regions, the terrain’s elevation forces moisture laden air to keep rising. As the air rises it cools, reaches its dew point and rapid condensation occurs. This process is known as orographic lifting. The primary cause of cloud bursts is the rapid condensation of moisture in the atmosphere, leading to sudden and very heavy rainfall in a short period over a localized area. This intense rainfall over a short duration leads to flash floods and landslides in mountainous regions.
  • Landslides: Due to combination of geological, climatic, and human-related factors, landslides are evidently the most common and devastating occurrences in the mountains. Some factors which facilitate landslides are:
    • Intense or prolonged periods of rainfall or rapidly melting snow that can saturate the soil quickly. This increased groundwater fluctuation can reduce soil cohesion, making it more prone to landslides, particularly along steep slopes.
    • Seismic activity, causing movements and adjustments due to tectonic forces both in the earthquake-prone areas and even in areas away from major fault lines. Seismic activity causes rocks and soil to lose stability and potentially trigger landslides.
    • Human actions like oil and gas extraction, mining and construction of reservoirs also contribute to low-level seismic activity. Vegetation helps absorb and slow down water runoff. Deforestation alters the natural stability of mountain slopes and leads to increased runoff. 

Solutions

Early warning systems and effective water management strategies can significantly reduce the magnitude of devastation caused by sudden downstream flooding and runoff.

As proactive preventive measures, expenses associated with such efforts are relatively inconsequential when compared to the expenditures involved in disaster management efforts. Such disasters lead to an incalculable loss of livestock, crops, homes and human lives.

Satellite pictures and drone cameras can aid in studying and monitoring potential landslide-prone areas, facilitating appropriate land-use planning to mitigate the risk of landslides in mountainous regions.                                                                                           

Regular mapping and monitoring of water bodies in mountainous regions, along with coordinated and controlled releases of water from reservoirs, are crucial measures to reduce the ferocity of floods in downstream areas.

We must prioritize preventative measures at the point of origin. This will have the maximum impact on the magnitude of the problem. Consider measures like removing encroachments and clearing the natural flow path to facilitate the free movement of water.

We can gradually reduce a slope without resorting to permanent civil work by using loose boulders and pebbles. To reduce flow velocity, we can create multiple small dikes in the flow path using loose boulders and pebbles.

Water flows from the high mountains do not just affect certain areas. These massive quantities of water ultimately reach from mountains to the level ground of the plains. Here, the water stands there for weeks, destroying crop in the fields.

Here are some observations of this situation in parts of Haryana adjacent to Himachal Pradesh in June-July 2023.

The calmer water which manages to reach the plains should not be allowed to spoil the crop by flooding, stagnating or as run off. This water instead it should be utilized in recharging the ground water aquifers by designing appropriate Rain Water Harvesting systems. This effort will not only improve the water table but will also improve the ground water quality.

Nature

The English dictionary defines science as “the intellectual and practical activity encompassing the systematic study of the structure and behavior of the physical and natural world through observation and experiment”.

We at SILVERON, while analyzing the reasons which lead to failure of rain water harvesting efforts concluded that Nature is the ultimate science and natural processes, systems and principles cannot be challenged or tampered with.

We can endorse without doubt that nature knew the importance of water for life on earth so it covered the major portion of earth by seas and oceans. Let us not forget the soil with its massive capacity to hold rainwater as ground water.

Nature created the atmosphere, force of gravity, the sun, the moon, the day, the night and the seasons, the plants, the forests, the mountains, the glaciers and the rivers. Every atom, every molecule, every cell is the creation of nature.

Hundreds of thousands of natural principles like water seeking its own level, hot air or water vapor rising and colder air taking its place, clouds forming and rain fall that gives fresh water on earth, are in operation at all times.

Process of photosynthesis, refreshes the supply of oxygen and reduces carbon dioxide in the environment. Thick forests check the velocity of the wind, where every leaf acts as a seat for settlement of suspended particles in the air, where the butterflies, animals and birds make their home and help in pollination and disbursement of seeds, where the fruits and vegetables grow in abundance and from where the food chain begins.

The magnificent and amazing natural principles, processes and systems  are so well amalgamated into each other that we simply fail to take notice of them.

The list of nature’s feats is … unending!

Man is so engrossed and overwhelmed by his own self that he tries to ignore nature, often dares to challenge nature by going against its basic principles and sees reason only when nature exhibits its displeasure and fury. 

Supporting nature – a sure path to success.
Going against nature – a recipe for failure.