Ladakh’s Vulnerability to Flash Floods: Adaptation and Mitigation Measures

Perched amidst the Himalayas, Ladakh’s captivating beauty, marked by towering peaks, clear lakes, and ancient monasteries, has drawn global travellers seeking solace. Notwithstanding, a new worry grapples this beautiful landscape: frequent and devastating flash floods. Climate change has disrupted Ladakh’s ecological balance, altering weather patterns and water flow, which are leading to perilous floods threatening communities and nature. These floods, driven by a warming atmosphere, glacier melt, and erratic precipitation are impacting livelihoods. The implications for Ladakh’s people, infrastructure, economy, agriculture, and biodiversity due to climate change are more widespread than previously thought. Ladakh’s experience highlights the need for global cooperation and sustainable practices in confronting a warming planet.

Climate Change Trends Affecting Ladakh

Nestled amidst the Great Himalayas and the Karakoram Range, Ladakh stands as a rugged testament to nature’s grandeur. With an average elevation of almost 3,500 meters, this remote area, also known as the ‘Land of High Passes’, is one of the highest inhabited areas on Earth. Its geographical tapestry is a canvas of contrasts: vast plateaus and deep valleys sculpted by ancient rivers like the Indus, Zanskar and Shyok.

The area has a cold desert environment with extremely cold winters and reasonably warm summers, with staggering temperature differences between day and night. The annual precipitation, which is meagre and primarily in the form of snow, underscores its arid nature. But in recent times, climate change has disrupted the balance; spurring glacial retreat, altering hydrological patterns, and accentuating vulnerabilities to flash floods, a harsh reminder of nature’s capriciousness in this captivating corner of the world.

The complex relationship between climate change and the increasing frequency of flash floods in Ladakh unveils a stark reality that demands urgent attention. As global temperatures rise and glaciers recede in response to a changing climate, Ladakh’s delicate ecological equilibrium is disrupted, triggering a cascade of events that culminate in devastating flash floods. The melting of glaciers accelerated by a warming climate, releases torrents of water that surge through valleys and riverbeds with unprecedented force.

Altered precipitation patterns further exacerbate the situation, delivering intense bursts of rainfall that the region’s arid terrain is ill-equipped to absorb. This combination of factors, driven by anthropogenic influences, transforms the serene landscape into a theatre of calamity, where once-dormant streams rage into destructive forces of nature. The consequences reverberate across Ladakh’s communities, eroding lives, infrastructure and livelihoods in their wake.

The Ladakh region has experienced a series of devastating flash floods since 2005. These flash floods are primarily attributed to the region’s unique geographical features, including its arid climate, high altitude and rugged terrain, which make it highly susceptible to flash flooding events triggered by cloudbursts. Table 1 gives a list of reported cloudburst events in the Ladakh region.

Table 1: Reported Cloudburst Events in the Ladakh Region

S. No.

Cloudburst Event

Location of Flash Flood

1

23–24 June 2005

Leh stream (Ganglas)

2

July 2005

Phyang stream

3

30–31 July 2006

Leh & Igu stream

4

01 August 2006

Phyang streams

5

09 August 2008

Ulle Top

6

04–06 August 2010

Sabu and many other streams

7

06 August 2014

Gya village

8

04 August 2015

Leh stream

9

August 2015

Before Trishia, Nubra valley

10

09 August 2016

Tangtse-Pangong lake road

11

04 August 2017

Achinathang, Leh-Kargil Road

12

12 June 2018

Trishia village, Nubra valley

13

08 August 2018

Sabu and Shey villages

14

July 2019

Murgi village, Nubra valley

15

23 July 2023

Leh town

Source: Houses, Shops Damaged in Leh as Cloudburst Triggers Floods, Hindustan Times, 23 July 2023; R.J. Thayyen, M.K. Singh and A.P. Dimri, “Visual Evidence of Constrained Area of a Cloudburst, 12 June 2018, Tirisha Village, Nubra Valley, Ladakh, India”, Journal of Climate Change, Vol. 6, No. 2, 2020, pp. 47–57.

Climate change is being attributed to variations in temperature and precipitation patterns over the Himalayan region, which has an impact on water supplies, glaciers, ecosystems, agriculture, and more.1 Changes in the severity and frequency of extreme precipitation events are highlighted as one of the many anticipated outcomes of climate change.2 During instances of extreme incidents such as cloudbursts, secondary effects like flash floods, glacier lake outburst floods, landslides, and similar events lead to significant destruction across the area.3

Climate change alters precipitation patterns, intensifying local rain and snowfall which can result in rapid water build-up and flash floods. Glacial Lake Outburst Floods (GLOFs) occur when glacial lakes breach barriers, inundating downstream areas with water, debris and ice. Thawing permafrost triggers landslides, obstructing valleys and potentially causing flash floods. Rapid snowmelt overwhelms rivers, inducing downstream floods. Urbanisation alters drainage patterns, exacerbating floods, and activities like mining disrupt natural drainage, compounding the risks in Ladakh.

Cloudbursts bring sudden, heavy rainfall that overwhelms drainage and rivers. Excess water flows rapidly, possibly breaching banks. Hillslope erosion adds sediment, increasing flood potential. Intense rainfall, swift runoff, and sediment create flash floods, damaging infrastructure, homes, and terrain downstream.

Flash floods can lead to loss of life and injuries, catching residents and tourists off guard, and making it difficult to escape to safety, especially those near water bodies. Infrastructure damage disrupts essential services, affecting healthcare and education. Livelihoods relying on nature—like agriculture and tourism, suffer, causing economic hardships and job losses. The force of water erodes soil, damages habitats, and disrupts ecosystems, causing environmental degradation and biodiversity loss.

Survivors endure trauma, grief, and uncertainty due to property and loved ones lost.4 Community cohesion can weaken as people grapple with individual and collective losses. The case of Ladakh would be no exception to these significant societal and environmental consequences which underscores the need for the adoption of mitigation and adaptation strategies to strengthen disaster resilience.

Mitigation and Adaptation Strategies

The area is rapidly transitioning from subsistence farming to a market-driven economy, largely due to the increasing number of tourists.5 Given the increasing vulnerability to the effects of hydrological disasters, particularly floods, this transition has substantial implications for the socio-economic landscape. Local studies in Ladakh are limited and a study conducted in 2012 underscores the growing irregularity in summer rainfall, marked by sudden intense downpours.6 Of the projected impacts, alterations in the frequency and intensity of extreme precipitation events stand out as critical.7 Extreme occurrences such as cloudbursts trigger secondary effects—flash floods, glacier lake outburst floods, and landslides leading to widespread devastation.8

The character of flood disasters is shaped by the intertwined forces of heightened hazard exposure and impacts (i.e., flooding), along with shifts in socio-economic vulnerabilities.9 The Indian Army, Disaster Response Force, Union Territory Administration, and local volunteers have been praised for the response and rescue efforts during Flash Floods in Ladakh.10 The adoption of an integrated approach that addresses both mitigation and adaptation, while embracing the dimensions of climate change, becomes paramount. Such a comprehensive strategy is imperative to foster resilience against disasters, encompassing six key facets, as listed below.

Cloudburst Monitoring and Prediction

The timely prediction of cloudbursts holds immense importance in safeguarding lives and valuable assets. This objective can be accomplished by implementing advanced weather radar systems, which effectively identify and track cloudbursts in real time, thus furnishing precise and timely alerts. Additionally, creating a network of weather stations throughout Ladakh to gather microclimate data empowers accurate cloudburst predictions and flash flood risk assessments.

Community Preparedness and Education

It involves empowering the community to participate in cloudburst response which is a pivotal aspect in attaining resilience against disasters. Collaboration with local populations to create customised disaster preparedness plans considering the abrupt occurrence of cloudbursts and flash floods and regular awareness drives need to be conducted to educate residents about cloudbursts, their potential consequences, and essential emergency measures.

Early Warning Systems

Flash floods are a quick onset type of disaster, offering minimal response time. To address this, there is a need to integrate meteorological information, satellite imagery, and local observations into an all-encompassing early warning mechanism. This system should predict cloudbursts and initiate alerts. These notifications can then be swiftly broadcasted via SMS, mobile applications and other communication channels to promptly warn residents, facilitating immediate responses and evacuation measures.

Infrastructure and Land Use Planning

Socio-economic limitations are heightening infrastructure vulnerability. Nevertheless, it remains imperative to plan and build buildings, highways and bridges using flood-resistant materials and elevated foundations, enabling them to endure flash flood impacts. Establishing buffer zones and curtailing development in high-risk zones prone to cloudburst-induced flash floods and integrating natural drainage mechanisms like green zones and permeable surfaces to absorb excess rainwater will mitigate runoff effects.

Emergency Response and Evacuation

Regular mock drills aimed at readying communities for swift evacuation during cloudburst incidents, emphasising safe routes and assembly points, are vital to save lives. It is also essential to establish designated safe shelters on higher ground where residents can find shelter amid cloudburst-related emergencies.

Ecosystem Restoration and Management

The geographical layout of Ladakh allows minimal capacity for water retention. Encouraging afforestation and reestablishing vegetation in vulnerable zones becomes imperative to curtail soil erosion, amplify water absorption, and stabilise slopes. Rehabilitation of wetlands and natural water catchment zones to decelerate water flow during cloudbursts and diminish downstream inundation can effectively mitigate the repercussions of cloudburst events.

Figure 1: Mitigation and Adaptation Strategies for Flash Floods

The Way Forward

Climate change has emerged as one of the most pressing challenges of our time, with far-reaching impacts on ecosystems, economies and communities worldwide. One of the critical consequences of climate change is the increased frequency and intensity of extreme weather events, such as flash floods. To address these challenges, a comprehensive and collaborative approach is required, encompassing international cooperation, public awareness, scientific research, and efforts to increase the resilience of Ladakh.

International climate collaborations that reinforce global pacts like the Paris Agreement to strengthen joint efforts in clean energy, sustainable farming, and disaster readiness will aid climate adaptation. Wealthier states can assist developing counterparts in transitioning to low-carbon economies and bolstering adaptability.

Spreading climate change awareness and its impacts through governments, NGOs and media is vital for urgency and individual action. Campaigns in schools can nurture eco-conscious generations while individuals and businesses adopting sustainable practices collectively combat climate change and lessen flood risks. Ongoing climate research will aid policymaking through predictive modelling. Local hydrology insights can help manage flash floods with rain, land and river analysis.

Assessing flood vulnerability considers demographics, economics and infrastructure for effective preparedness. Flash floods prone Ladakh needs custom adaptations like flood-proof infrastructure, eco-friendly tourism, and early warnings to enhance resilience. Incorporating indigenous knowledge and practices can enhance local resilience, and traditional water management techniques can be integrated with modern solutions.

Conclusion

Climate change is exacerbating the occurrence and severity of flash floods in the Ladakh region. The unique geographic and climatic conditions in Ladakh make it especially vulnerable to these events, with far-reaching consequences for the local communities and ecosystems. While the challenge is substantial, a combination of adaptation and mitigation strategies can help minimise the impacts of flash floods and build resilience in the face of a changing climate. Governments, communities and individuals must work together to address both the symptoms and causes of this issue, striving for a sustainable and secure future for Ladakh and the planet as a whole.

Views expressed are of the author and do not necessarily reflect the views of the Manohar Parrikar IDSA or of the Government of India.

Keywords: Climate Change