PIB Summaries 08 April 2026

Content

1. India’s Green Pathway
2. A New Chapter in India’s Nuclear Journey

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India’s Green Pathway

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Why in News?

• PIB release (7 April 2026) highlights India’s transition from biodiversity conservation to climate-centric development, aligning with NDC targets, SDGs, and net-zero 2070 goal.
• Reflects India’s post-COP30 (2025) climate leadership, operationalisation of carbon markets, Green Hydrogen Mission, and Mission LiFE initiatives.

Relevance

• GS III (Environment & Economy)
  • Climate change, biodiversity, sustainable development, energy transition
• GS  II (Governance & IR)
  • Environmental governance, international climate commitments (UNFCCC, CBD)

Practice Question

Q1.“India’s development trajectory is increasingly aligned with sustainability and climate resilience.”Examine in the context of India’s Green Pathway.(250 Words)

Static Background

• Shift from “environment vs development” dichotomy to “mutually reinforcing pillars”, embedding sustainability within economic planning and governance architecture.
• Constitutional backing via Article 48A (State duty) and Article 51A(g) (citizen duty) ensures environmental protection as governance obligation.
• India is among 17 mega-biodiverse countries, hosting ~8% global species on 2.4% land area, making conservation a strategic national priority.

Key Dimensions  

• Legal–Institutional Framework built on Environment Protection Act 1986 (umbrella law) supported by Air Act 1981, Water Act 1974, Forest Act 1980, Wildlife Act 1972, ensuring comprehensive regulatory ecosystem.
• Biodiversity Governance anchored in Biological Diversity Act 2002 and NBSAP 2024–30, aligned with Kunming-Montreal Global Biodiversity Framework targeting biodiversity restoration by 2030.
• Administrative Expansion seen in Protected Areas increase: 745 (2014) → 1,134 (2025), strengthening habitat protection and ecological security frameworks.
• Flagship Species Conservation:
  • Project Tiger: 58 reserves, ~85,000 sq km, 3,167 tigers (2022).
  • Project Elephant: 33 reserves, 150 corridors ensuring connectivity.
  • Project Dolphin: 6,327 dolphins (2023) with 2026 reassessment ongoing.
• Ecosystem Restoration Strategy includes 18 Biosphere Reserves (91,425 sq km) with 13 UNESCO recognition, ensuring landscape-level conservation integration.
• Wetland & Coastal Governance: Ramsar Sites increased to 98 (2026) from 26 (2014); MISHTI restored 4,536 hectares mangroves (2025) enhancing coastal resilience.
• Climate Policy Architecture driven by NAPCC (9 missions), NDC 2022 targets, and LT-LEDS (net-zero 2070 pathway) ensuring integrated mitigation–adaptation strategy.
• Emission Reduction Targets: 45% emission intensity reduction by 2030, with 36% already achieved (2005–2020) indicating policy effectiveness and early action.
• Clean Energy Transition: >50% installed capacity non-fossil (2025); total capacity 520 GW with ~272 GW non-fossil, reflecting structural decarbonisation.
• Global Renewable Ranking: India is 3rd in solar, 4th in wind and total RE capacity (IRENA 2025) strengthening energy leadership credentials.
• Green Hydrogen Mission targets 5 MMT annual production by 2030, supporting industrial decarbonisation and energy security diversification.
• Carbon Market Development through Carbon Credit Trading Scheme, covering 490 obligated entities (2026), promoting market-based emission reduction mechanisms.
• Industrial Transition Support via ₹20,000 crore CCUS allocation (2026–27) enabling low-carbon technologies in hard-to-abate sectors.
• Pollution Governance strengthened through NCAP (2019), with 103/130 cities improving PM10 levels and 25 cities achieving 40% reduction.
• Circular Economy Push: Fly ash utilisation 332.63 MT out of 340 MT (2024–25) and EPR recycling 375.11 lakh tonnes waste, enhancing resource efficiency.
• Waste Infrastructure Expansion: Recycling plants increased from 829 → 3,036 (2019–25) supporting SDG 12 (responsible consumption).
• Community Participation via Mission LiFE, with 6 crore participants and 4.96 crore pledges, embedding behavioural climate action.
• Mass Afforestation Drive: Ek Ped Maa Ke Naam campaign planted 262.4 crore saplings, reflecting people-centric environmental governance.
• Technological Integration through satellite-based forest fire monitoring (FSI) and real-time alerts, improving disaster preparedness and response.
• International Climate Leadership: Active role in ISA, CBD, UNFCCC, advocacy for climate justice and CBDR principle, strengthening Global South voice.
• Montreal Protocol Success: 67.5% HCFC reduction (2025), demonstrating compliance with global environmental regimes.
• SDG Progress: SDG Index score improved to 71 (2023–24) from 57 (2018), reflecting sustained multi-sectoral development gains.

Challenges and Criticisms

• Implementation deficits in SPCBs and local bodies, limiting enforcement of environmental regulations.
• Human-wildlife conflict persistence despite corridor development, due to habitat fragmentation and land-use change pressures.
• Urban pollution hotspots remain despite NCAP, reflecting compliance and monitoring gaps.
• Climate finance constraints hinder scalability of green hydrogen, CCUS, and renewable infrastructure.
• Federal coordination challenges in coastal and forest governance create overlapping mandates and inefficiencies.

Way Forward

• Strengthen regulatory institutions (CPCB/SPCBs) using AI-based monitoring and real-time compliance systems.
• Scale Nature-based Solutions (NbS) integrating wetlands, forests, mangroves into climate adaptation frameworks.
• Deepen carbon markets with global linkage (Article 6) and robust price signals.
• Promote green federalism through performance-linked fiscal transfers based on SDG/climate outcomes.
• Ensure just transition policies for coal-dependent regions, balancing employment and decarbonisation goals.

Prelims Pointers

• Ramsar Sites: 98 (2026), highest in Asia
• Tiger population: 3,167 (2022)
• Green Hydrogen target: 5 MMT by 2030
• Non-fossil capacity >50% achieved (2025)
• Mission LiFE = behavioural climate action model

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A New Chapter in India’s Nuclear Journey

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Why in News?

• Prototype Fast Breeder Reactor (PFBR), 500 MWe at Kalpakkam attained first criticality (6 April 2026), marking start of self-sustained nuclear chain reaction.
• India enters Stage-II of Three-Stage Nuclear Programme, becoming 2nd country after Russia with commercial FBR capability.

Relevance

• GS III (Science & Technology)
  • Nuclear technology, energy security, advanced reactors
• GS III (Environment)
  • Clean energy transition, low-carbon energy

Practice Question

Q1.Discuss the significance of the Prototype Fast Breeder Reactor (PFBR) in India’s three-stage nuclear programme.(250 Words)

Static Background

• India’s nuclear strategy designed by Dr. Homi J. Bhabha, based on closed fuel cycle and thorium utilisation for long-term energy security.
• India has limited uranium but ~25% global thorium reserves, necessitating three-stage programme for resource optimisation.

Key Dimensions of India’s Nuclear Pathway

• Scientific–Technological Breakthrough: PFBR uses MOX fuel (U-Pu mix) and fast neutrons, enabling breeding of more fissile material than consumed.
• Closed Fuel Cycle Strategy: Spent fuel reprocessing ensures resource efficiency, reduced waste, and long-term sustainability of nuclear programme.
• Three-Stage Programme Structure:
  • Stage-I (PHWRs): Natural uranium → Plutonium production.
  • Stage-II (FBRs): Plutonium fuel → more fissile material generation.
  • Stage-III (Thorium): U-233 from thorium → long-term energy source.
• Bridge to Thorium Economy: PFBR enables conversion of Thorium-232 → Uranium-233, unlocking India’s vast thorium potential.
• Institutional Ecosystem: Led by Department of Atomic Energy (DAE), IGCAR (design), and BHAVINI (execution) ensuring indigenous technological capability.
• Energy Security Dimension: Nuclear reduces import dependence on fossil fuels, ensuring base-load, reliable power supply.
• Climate Change Mitigation: Nuclear is low-carbon energy source, supporting India’s net-zero target (2070) and NDC commitments.
• Current Nuclear Status:
  • Installed capacity: 8.78 GW
  • Generation: 56,681 MU (2024–25)
  • Share: ~3.1% of electricity mix
• Future Expansion Plan: Capacity projected 22.38 GW by 2031–32 (~3x increase) with 700 MW PHWRs and 1000 MW reactors.
• Long-Term Vision: 100 GW nuclear capacity by 2047 under Nuclear Energy Mission (Budget 2025–26).
• SMR Development Push:
  • ₹20,000 crore allocation for Small Modular Reactors (SMRs).
  • Target: 5 operational SMRs by 2033.
• Advanced Reactor Innovation:
  • BSMR-200 (200 MWe)
  • SMR-55 (55 MWe)
  • HTGR (5 MWth) for hydrogen production
• Legal–Regulatory Reform: SHANTI Act, 2025 enables limited private participation, modernising nuclear governance framework.
• International Cooperation: India has civil nuclear agreements with 18 countries, enhancing technology access and global trust.
• Strategic Significance: Strengthens strategic autonomy in critical energy technologies and reduces geopolitical vulnerabilities in energy supply chains.

Challenges and Criticisms

• High capital costs and long gestation periods limit rapid scaling compared to renewables.
• Public concerns over nuclear safety and waste disposal, especially post global nuclear accidents (Fukushima context).
• Limited domestic uranium reserves, making Stage-I partially import-dependent.
• Technological complexity of FBRs and reprocessing, requiring high safety standards and skilled manpower.
• Regulatory and liability issues may constrain private sector participation despite SHANTI Act reforms.

Way Forward

• Accelerate thorium-based reactor R&D to achieve Stage-III transition faster.
• Strengthen independent nuclear regulatory authority ensuring transparency and public trust.
• Integrate nuclear with renewables (hybrid grids) for stable low-carbon energy mix.
• Promote SMRs for decentralised power and industrial use, improving economic viability and scalability.
• Enhance international collaboration for advanced nuclear tech and safety standards.

Prelims Pointers

• PFBR: 500 MWe, Kalpakkam, uses MOX fuel
• Fast Breeder Reactor = produces more fuel than consumed
• India’s nuclear programme = 3-stage, thorium-based
• U-233 derived from Thorium-232 in Stage-II/III
• Nuclear share ~3% of India’s electricity

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