Climate Risk & Adaptation Lab
Assess vulnerability, map risks, and design adaptation strategies for South Asian communities — from drought-prone Marathwada to cyclone-hit coastal Odisha.
Climate Change in South Asia
South Asia is among the most climate-vulnerable regions in the world. Understanding the specific risks is the first step toward effective adaptation.
Key climate hazards in South Asia
Heat stress
Rising wet-bulb temperatures threaten outdoor labour, health, and agriculture; some regions approach the limits of human heat tolerance.
Flooding
Monsoon intensification, glacial lake outburst floods (GLOFs), and urban flooding in fast-growing megacities.
Drought
Rainfall variability, groundwater depletion, and crop failure. India's 2015–16 drought affected an estimated ~330 million people across 11 states.
Cyclones
Bay of Bengal and Arabian Sea coasts are most exposed, with evidence of intensifying storms.
Glacier & snow loss
Retreating Himalayan glaciers and declining snowpack threaten water security for roughly 2 billion people across the Hindu Kush Himalaya river basins (ICIMOD).
Crop failure
Shifting planting seasons, pest migration, and soil salinity threaten food security and farmer livelihoods.
Vulnerability Assessment
Vulnerability is not just exposure to hazards. It is about sensitivity (how badly you are affected) and adaptive capacity (how well you can cope).
The vulnerability framework
How often and severely is the area hit?
How much does it hurt? (poverty, health, dependence on climate-sensitive livelihoods)
How well can people cope? (savings, social networks, infrastructure, knowledge)
Interactive: assess a village Illustrative scenario
You are assessing a village in drought-prone Marathwada, Maharashtra. The details below are a teaching example. Select all factors that increase vulnerability, then analyse.
Located in a rain-shadow region with under 300 mm annual rainfall
High exposure to drought
80% of households depend on rain-fed agriculture
High sensitivity — livelihoods directly tied to rainfall
Average household savings around ₹15,000
Low adaptive capacity — limited buffer for shocks
Village has a functioning secondary school and internet connectivity
High adaptive capacity — NOT a vulnerability factor
High child malnutrition rate (42% stunted)
High sensitivity — health vulnerability amplifies climate impacts
River 2 km away frequently floods during monsoon
High exposure to flooding
Active Self-Help Group (SHG) network with 15 groups
High adaptive capacity — social capital for mutual aid
60% of houses are kachcha (mud/thatch)
High sensitivity — physical vulnerability to extreme weather
Building a Risk Matrix
Risk = Probability × Impact. A risk matrix helps you prioritise which climate hazards to address first when resources are limited.
Interactive risk matrix: Marathwada village Illustrative
Click any cell to see the risk rationale, then build your own matrix for a coastal Odisha village below.
Hazard × Impact matrix
Medium
High
High
Low
Medium
High
Low
Medium
High
Build your own: coastal Odisha
Drag each hazard into the risk level you think fits a coastal village in Odisha, then check your matrix.
Adaptation Strategies
Adaptation is not one-size-fits-all. The right strategy depends on the hazard, the community's capacity, and the local context.
Strategy types
Structural
Embankments, cyclone shelters, drip irrigation, raised platforms, rainwater harvesting.
Agricultural
Drought-resistant seeds, crop diversification, shifting planting dates, agroforestry.
Economic
Crop insurance, weather-indexed products, livelihood diversification, migration support.
Institutional
Early warning systems, disaster management plans, climate-resilient building codes.
Health
Heat action plans, disease surveillance, nutrition supplementation, cool roofs.
Social
Indigenous knowledge, community-based adaptation, women's groups, traditional water systems.
Interactive: match strategy to context
For each scenario, select the most appropriate adaptation strategy, then check your answers.
Adaptation Cost-Benefit Calculator
Resources are limited. This calculator helps you compare the cost-effectiveness of different adaptation options for a simplified village scenario.
Scenario: drought-prone village, 500 households Illustrative model
The costs, coverage, and effectiveness values below are stylised teaching numbers, not official figures. Use the tool to build intuition about trade-offs, not to quote a result.
Estimated annual benefit per household
Understanding the numbers
Cost per household protected: total cost ÷ households served.
Avoided loss: crop-loss % × average income × drought frequency.
Benefit-cost ratio (BCR): avoided loss ÷ adaptation cost over the project lifetime.
Co-benefits: often as valuable as direct benefits — groundwater recharge, employment, biodiversity.
Building an Adaptation Plan
A good adaptation plan is iterative, participatory, and specific. Here is a practical timeline for a village-level plan.
Month 1–2: Baseline & vulnerability assessment
Climate data review, participatory vulnerability mapping, household surveys, resource inventory.
Month 3: Priority setting
Community ranking of hazards, cost-benefit screening, feasibility assessment, stakeholder consultation.
Month 4–5: Strategy design
Select adaptation options, design an implementation plan, identify resources, build partnerships.
Month 6–12: Pilot implementation
Small-scale rollout, monitoring, learning, adjustment. Document what works and what does not.
Month 13–18: Scale & institutionalise
Expand successful pilots, integrate into panchayat plans, train local champions, secure long-term funding.
Ongoing: monitor, evaluate, adapt
Climate is changing — your plan must too. Annual review, update the risk matrix, incorporate new science.
Interactive: build your plan Illustrative scenario
You are planning for a village in Bihar facing both floods (monsoon) and drought (summer). Choose the strongest approach for each phase, then review your plan.
Lab complete
You can now assess climate vulnerability, prioritise risks, and design context-specific adaptation strategies for South Asian communities.
- Vulnerability combines exposure and sensitivity, offset by adaptive capacity
- Risk matrices help prioritise limited resources by probability and impact
- Adaptation must be context-specific — there are no universal solutions
- Cost-benefit analysis should include co-benefits and avoided losses
- Plans must be iterative — the climate is not static
- Participation is not optional — local knowledge is data