Are methane emissions in India being missed?

 Why is this in News?

• Satellite-based studies (ISRO, 2023–25) reveal actual methane emissions from major Indian landfills far exceed official model-based estimates.
• NGT has constituted committees to verify satellite-detected methane hotspots (e.g., Ghazipur, Bhalswa, Pirana, Kanjurmarg).
• Highlights a critical data gap in India’s waste-sector emissions, directly affecting:
  • Climate commitments (NDCs)
  • Urban safety (landfill fires)
  • Public health and air quality
• Renewed policy relevance under Swachh Bharat Mission, GOBARdhan, and revised Municipal Solid Waste (MSW) Rules.

Relevance

GS III – Environment & Climate Change

• Methane as a short-lived climate pollutant (SLCP)
• Waste management and landfill emissions
• India’s NDCs and climate mitigation strategies

GS III – Urban Development

• Solid waste management, landfill fires, urban safety

Methane: The Basics

• What is Methane (CH₄)?
  • A short-lived climate pollutant (SLCP).
  • 84 times more potent than CO₂ over a 20-year period (GWP-20).
  • Atmospheric lifetime: ~12 years.
• Why dangerous in landfills?
  • Generated via anaerobic decomposition of organic waste.
  • Accumulates in open dumps → fires, explosions, toxic smoke.
• Paradox:
  • Useful fuel (Bio-CNG, PNG, power generation).
  • Severe climate and urban hazard if unmanaged.

Landfills as Methane Factories

• Processes mimic natural gas formation, but at accelerated rates:
  • High organic content (wet waste).
  • Poor segregation.
  • Inadequate capping and gas capture.
• India-specific context:
  • Large open dumpsites, not sanitary landfills.
  • High moisture + heat = faster methane generation.

India’s Methane Profile (Waste Sector Focus)

• ~15% of India’s methane emissions come from the waste sector.
• Key advantage:
  • Unlike agriculture or energy, waste offers quick mitigation wins.
  • Technology, policy, and incentives already exist.

The Core Problem: Measuring an Invisible Gas

Model-based Estimation (Traditional)

• Uses:
  • Waste inflow volumes.
  • Standard decay coefficients.
• Limitations:
  • Outdated data (State-level, often 2018).
  • Aggregated → cannot locate specific hotspots.
  • Heavily assumption-driven.

Ground-based Monitoring

• Challenges:
  • Expensive sensors.
  • Skilled manpower.
  • Continuous maintenance.
• Difficult to scale across India’s urban landscape.

Satellite Monitoring: The Game Changer

Types of Satellite Data

• Regional-scale monitoring
  • Covers km-level grids.
  • Tracks national/regional trends.
• High-resolution hotspot detection
  • Detects emissions at few square metres.
  • Crucial for targeted action.

Key Missions & Platforms

• ISRO methane study (2023).
• International missions:
  • CarbonMapper (Tanager).
  • SRON (Netherlands).
• Data aggregators:
  • ClimateTRACE
  • WasteMap

What Satellites Are Revealing: The Discrepancy ?

• Global finding: Actual landfill methane ≈ 1.8× higher than model estimates.

Indian City Examples

• Delhi
  • Official (2018): 1.07 Mt CO₂e (entire waste sector).
  • Satellite: Ghazipur + Bhalswa alone → 0.85–0.96 Mt CO₂e.
• Mumbai
  • Model: Kanjurmarg ≈ 11% of city waste emissions.
  • Satellite: 1.05 Mt CO₂e (~10× higher; ~50% of Maharashtra’s waste emissions).
• Ahmedabad
  • Gujarat total (model): 0.73 Mt CO₂e.
  • Pirana landfill alone: 0.60–0.81 Mt CO₂e.

Inference

• Indicates:
  • Gas capture failures.
  • Accelerated decomposition.
  • Engineering flaws.
• Risks were invisible earlier due to data blindness.

Why This Matters Beyond Climate ?

• Urban safety: Methane-driven landfill fires.
• Public health: Toxic emissions, PM spikes.
• Governance: Weak accountability of ULBs.
• Economy: Lost opportunity for Bio-CNG and power.

The Way Forward: A Three-Pillar Strategy

Expand Satellite Coverage

• Mandatory monitoring of all major dumpsites.
• Public, transparent emission dashboards.

Ground Validation Systems

• Rapid-response teams for satellite-flagged hotspots.
• Diagnose:
  • Poor capping.
  • Gas collection leaks.
  • Illegal dumping.

Integrated Data Architecture

• Standardised data-sharing between:
  • ULBs.
  • SPCBs.
  • NGT, CAQM (for NCR).
• Expand proposed centralised waste data portal under MSW Rules to include methane tracking.

Institutional & Policy Linkages

• Swachh Bharat Mission: Integrate methane reduction targets.
• GOBARdhan Scheme: Scale Bio-CNG plants (Indore model).
• CAQM (NCR): Regional oversight for landfill emissions.
• State Action Plans on Climate Change (SAPCCs): Update with satellite-based waste data.

Key Observation

• Methane mitigation from waste is India’s lowest-hanging climate fruit:
  • High impact.
  • Low cost.
  • Immediate gains.
• Core governance lesson:
  • “What gets measured gets managed.”
  • Data integration can convert urban waste from a liability into a climate asset.

Conclusion

By synchronising satellites, street-level action, and standardised data governance, India can turn landfill methane—from a fire hazard and climate threat—into its smartest, fastest climate solution.

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