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Subject: Conservation & Mitigation

1. Conservation Progs.
2. Worldwide initiatives
3. Mitigation Strategies
4. Conventions and Protocols

  • Karuna Abhiyan 2026

    Why in the News?

    The Chief Minister of Gujarat Bhupendra Patel visited the Wildlife Care Centre at Bodakdev, Ahmedabad to review rescue and treatment operations under Karuna Abhiyan 2026, a statewide initiative to rescue birds injured by kite strings during the Uttarayan festival.

    About Karuna Abhiyan

    • Karuna Abhiyan is a state led compassionate wildlife rescue campaign aimed at saving birds and animals injured during festivals, especially Uttarayan.
    • It focuses on rescue, treatment, rehabilitation and release of injured wildlife.
    • Launched in 2017
    • First state driven initiative of its kind in India
    • Implementing Departments: Forest Department, Animal Husbandry Department, Municipal bodies and Voluntary organisations and NGOs

    Special Features

    • Water Birds Unit for specialised avian care
    • 24×7 WhatsApp helpline: 8320002000
      • Sending “Hi” provides district wise treatment centre details
    • Emergency helpline: 1926
    • Animal Husbandry helpline: 1962

    Prelims Pointers

    • Karuna Abhiyan was launched in 2017 by Gujarat
    • Conducted mainly during Uttarayan
    • Focuses on bird and animal rescue
    • Uses WhatsApp based grievance and rescue reporting
    • Considered the first state driven wildlife rescue campaign in India
    [2014] Every year, a month-long ecologically important campaign/festival is held during which certain communities/tribes plant saplings of fruit-bearing trees. Which of the following are such communities/tribes? 

    (a) Bhutia and Lepcha 

    (b) Gond and Korku 

    (c) Irula and Toda 

    (d) Sahariya and Agariya

  • CEC Recommends Restoring Original ESZ Around Bannerghatta National Park

    Why in the News?

    In January 2026, the Central Empowered Committee (CEC) recommended restoring the original 2016 Ecologically Sensitive Zone (ESZ) around Bannerghatta National Park, reversing the reduced ESZ notified in 2020.

    About Bannerghatta National Park (BNP)

    • A protected wildlife reserve and biodiversity hotspot
    • Acts as the southern green lung of Bengaluru
    • Crucial for conserving forests, elephants, and wildlife corridors
    • Located in the Anekal hill range, Karnataka

    Geological and Physical Features

    • Granite hill ranges: Ancient granite formations of the Anekal Hills
    • Moist deciduous valleys: Support elephants, deer and predators
    • Dry scrub uplands: Important grazing habitats
    • Wildlife corridors: Links BR Hills and Sathyamangalam forests, forming a key elephant corridor
    • Water system: Suvarnamukhi stream flows through the park, sustaining wildlife

    What is the ESZ Issue

    • 2016 draft ESZ: 268.9 sq km
    • 2020 notification: Reduced to 168.64 sq km
    • Reduction excluded:
      • Key elephant corridors
      • Critical forest buffer zones
    • Resulted in increased pressure from:
      • Real estate expansion
      • Quarrying
      • Industrial activities
    • Heightened human animal conflict near rapidly expanding Bengaluru

    Prelims Pointers

    • Bannerghatta National Park lies in Karnataka near Bengaluru
    • Forms a vital elephant corridor in southern India
    • ESZ reduction occurred in 2020
    • CEC functions under the Supreme Court of India
    • ESZs regulate activities like mining, industries and construction near protected areas
    [2014] With reference to ‘Eco-Sensitive Zones’, which of the following statements is/are correct? 

    1. Eco-Sensitive Zones are the areas that are declared under the Wildlife (Protection) Act, 1972

    2. The purpose of the declaration of Eco-Sensitive Zones is to prohibit all kinds of human activities in those zones except agriculture

    Select the correct answer using the code given below: 

    (a) 1 only (b) 2 only (c) Both 1 and 2 (d) Neither 1 nor 2

  • Air Pollution Aerosols Intensify and Prolong Winter Fog Over North India: IIT Madras Study

    Why in the News

    A Indian Institute of Technology Madras led study published in Science Advances shows that air pollution aerosols are making winter fog over north India denser and longer lasting, worsening visibility and health impacts.

    About Aerosols

    • Aerosols are tiny solid or liquid particles suspended in the atmosphere.
    • They strongly influence air quality, weather and climate.
    • Natural sources: desert dust, sea spray, volcanic ash, forest fires
    • Human sources: vehicle emissions, industrial pollution, biomass burning, coal and diesel use
    • Primary aerosols are emitted directly.
    • Secondary aerosols form in the air from gases like sulphur dioxide and nitrogen oxides.

    Key Features

    • Extremely small size: penetrate deep into lungs and remain airborne easily
    • Persistence: stay suspended for days to weeks, travel long distances
    • Condensation nuclei: provide surfaces for water vapour to condense, aiding fog and cloud formation
    • Radiative effects:
      • Scatter sunlight: reflective aerosols cool the surface
      • Absorb heat: black carbon warms the atmosphere

    How Aerosols Affect Winter Fog

    • Increase number of fog droplets, making fog thicker
    • Reduce sunlight reaching the surface, causing cooling that sustains fog
    • Slow fog dissipation, leading to prolonged low visibility episodes

    Prelims Pointers

    • Aerosols act as condensation nuclei for fog and clouds
    • Black carbon absorbs heat while sulphate aerosols reflect sunlight
    • Human sources significantly amplify winter fog over north India
    • Aerosols influence health, visibility, weather and climate simultaneously
    [2019] In the context of which of the following do some scientists suggest the use of cirrus cloud thinning technique and the injection of sulphate aerosol into stratosphere? 

    (a) Creating the artificial rains in some regions 

    (b) Reducing the frequency and intensity of tropical cyclones 

    (c) Reducing the adverse effects of solar wind on the Earth 

    (d) Reducing the global warming

  • Ratle Hydroelectric Project Seeks Extension of Environmental Clearance  

    Why in the News?

    Ratle Hydroelectric Power Corporation Limited has sought an extension of Environmental Clearance (EC) for its 850 MW Ratle Hydroelectric Project on the Chenab River, citing delays due to litigation and COVID-19. The proposal is under appraisal by the Expert Appraisal Committee (EAC) of the Union Environment Ministry.

    About the Ratle Hydroelectric Project

    • Capacity: 850 MW
    • Location: Kishtwar district, Jammu and Kashmir
    • River basin: Indus Basin
    • Type of dam: Concrete gravity dam

    Environmental Clearance Timeline

    • Original EC granted: December 2012
    • Initial validity: Up to 2022
    • Extended validity for hydropower projects: Till December 11, 2025
    • Extension sought due to:
      • Court litigations between 2014–2021
      • COVID-19 disruption (April 2020 to March 2021)

    Current Legal Issues

    • Case pending before National Green Tribunal
    • Allegations of illegal muck dumping into the Chenab
    • Petition filed by residents of Thathri
    • Judgment reserved in December 2025

    Prelims Pointers

    • Ratle project is on the Chenab River
    • Falls under the Indus Basin
    • EC validity can exclude court stay and COVID periods
    • Joint venture led by NHPC
    • Under scrutiny of NGT
    [2009] The Dul Hasti Power Station is based on which one of the following rivers? 

    (a) Beas 

    (b) Chenab 

    (c) Ravi 

    (d) Sutlej

  • Doomsday Glacier Destabilisation and the Future of Antarctic Ice Sheets

    Why in the News?

    A recent scientific study has revealed increasing fracturing in the Thwaites Glacier, also known as the Doomsday Glacier, indicating how large parts of the Antarctic ice sheets could collapse in the future. The findings were published in the Journal of Geophysical Research: Earth Surface.

    Thwaites Glacier (Doomsday Glacier)

    The Thwaites Glacier is a massive glacier in West Antarctica that drains ice from the West Antarctic Ice Sheet into the Amundsen Sea. It is one of the fastest changing glacier systems on Earth.

    Why it is called the Doomsday Glacier

    • Complete collapse could raise global sea levels by about 65 cm
    • Acts as a gateway glacier whose destabilisation can trigger wider ice sheet collapse
    • Focus area: Thwaites Eastern Ice Shelf (TEIS), a floating extension of the glacier

    Pinning point and shear zone

    • TEIS is attached to an undersea ridge called a pinning point
    • Pinning points slow ice flow but also cause compression and fracturing
    • Upstream of the pinning point lies a shear zone where ice deforms intensely

    Fracture patterns observed

    • Ice fracturing occurred in two stages
      • Long fractures parallel to ice flow
      • Smaller fractures perpendicular to ice flow
    • Annual fracture length increased sharply
      • From about 165 km in 2002
      • To about 335 km in 2022

    Consequences of fracturing

    • Breakdown of the shear zone accelerates ice flow
    • Faster ice flow increases ice discharge into the ocean
    • Raises risk of destabilisation of the entire West Antarctic Ice Sheet

    Prelims Pointers

    • Thwaites Glacier is located in West Antarctica
    • Known as the Doomsday Glacier due to sea level rise potential
    • Complete melt could raise sea levels by about 65 cm
    • Study used satellite and GPS data over two decades
    • West Antarctic Ice Sheet is a global climate tipping element
    [2021] With reference to the water on the planet Earth, consider the following statements: 

    1. The amount of water in the rivers and lakes is more than the amount of groundwater

    2. The amount of water in polar ice caps and glaciers is more than the amount of groundwater

    Which of the statements given above is/are correct? 

    (a) 1 only (b) 2 only (c) Both 1 and 2 (d) Neither 1 nor 2

  • India’s progress on its climate targets

    Introduction

    India’s climate commitments under the Paris Agreement reflect the principle of Common but Differentiated Responsibilities, balancing development imperatives with environmental responsibility. While headline indicators show substantial compliance, deeper analysis reveals incomplete decoupling between growth and emissions, structural dependence on coal, and gaps between capacity creation and actual decarbonisation outcomes.

    Why in the News?

    India has recorded significant progress on climate metrics such as emissions intensity reduction and non-fossil power capacity expansion. Emissions intensity declined by nearly 36% between 2005 and 2020, placing India ahead of its 2030 target of 33-35% reduction. Installed non-fossil capacity crossed 40% of total capacity, achieving a Paris commitment nearly a decade early. However, absolute emissions continue to rise, forest carbon sinks remain overstated, and renewable capacity has not proportionally translated into electricity generation. The divergence between numerical targets and real climate outcomes makes this a critical inflection point.

    Has India Successfully Reduced Its Emissions Intensity?

    1. Emissions Intensity Reduction: Declined by approximately 36% from 2005 to 2020, exceeding the 2030 target of 33-35%.
    2. Comparative Performance: Intensity decline outperforms most G20 peers despite lower per-capita emissions.
    3. Structural Drivers: Renewable capacity expansion, efficiency improvements in power generation, and sectoral shifts towards services.
    4. Limitation: Intensity reduction masks rising absolute emissions due to economic expansion.

    Why Do Absolute Emissions Continue to Rise?

    1. Incomplete Decoupling: GDP growth has outpaced emissions growth, but emissions have not declined in absolute terms.
    2. Emission Levels: Territorial greenhouse gas emissions stood at ~2,959 MtCO₂e in 2020 and continue to increase.
    3. Sectoral Divergence: Power sector emissions grow faster than industrial emissions due to coal dependence.
    4. Policy Implication: Intensity-based targets delay hard choices on fossil fuel phase-down.

    Has Renewable Capacity Expansion Translated into Clean Power Generation?

    1. Installed Capacity: Non-fossil capacity crossed 40% by 2025, nearly ten years ahead of schedule.
    2. Generation Share: Non-fossil generation remains substantially lower due to grid constraints and intermittency.
    3. Coal Dominance: India retains 253 GW of coal-based capacity, providing baseload power.
    4. Curtailment Losses: Grid congestion and state-level regulatory bottlenecks limit renewable utilisation.
    5. Storage Gap: Against a projected requirement of 336 GWh of storage by 2029-30, only 500 MW of battery storage is operational as of September 2025.

    Are Forest-Based Carbon Sink Targets Credible?

    1. Official Claim: India reports 30.43 billion tonnes of CO₂ equivalent forest carbon stock.
    2. 2030 Target: Additional 2.5-3 billion tonnes CO₂e sequestration through forests.
    3. Measurement Issue: Forest Survey of India defines “forest cover” as land above one hectare with over 10% canopy, including plantations and monocultures.
    4. Satellite Evidence: Natural forest cover increased only 156 sq km between 2015-2023, while recorded forest cover rose by over 75,000 sq km.
    5. CAMPA Utilisation: Of ₹95,000 crore available, only 23% utilised between 2019-20 and 2023-24.
    6. Policy Risk: Over-reliance on plantations weakens biodiversity and long-term carbon stability.

    Why Does the Gap Persist Between Targets and Outcomes?

    1. Capacity vs Output Gap: Renewable installations do not proportionately increase clean electricity generation.
    2. Grid Infrastructure Deficit: Transmission, balancing capacity, and storage expansion lag behind capacity addition.
    3. Policy Fragmentation: Climate governance prioritises accounting compliance over ecological restoration.
    4. Administrative Frictions: Delays in land acquisition, approvals, and state coordination limit execution.

    What Are the Critical Challenges Ahead?

    1. Coal Lock-in: Continued investment in coal infrastructure constrains long-term decarbonisation.
    2. Storage Scaling: Energy transition hinges on rapid deployment of battery and pumped storage.
    3. Data Transparency: Overstated forest metrics undermine credibility of carbon sink commitments.
    4. Climate Stress: Rising heatwaves and water stress challenge forest productivity and carbon assimilation.

    Conclusion

    India has delivered on quantified climate commitments but remains short of achieving ecological transformation. The next phase requires shifting from intensity-led compliance to outcome-oriented decarbonisation through coal phase-down, grid modernisation, credible carbon accounting, and governance reform.

    PYQ Relevance

    [UPSC 2021] Describe the major outcome of the 26th session of the Conference of Parties [COP] to the United Nations Framework conversation on climate change [UNFCCC]. What are the commitments made by India in this conference.

    Linkage: This question links to the article’s evaluation of India’s COP-26 commitments, showing that while emissions intensity reduction and non-fossil capacity targets are being met, absolute emissions continue to rise. It highlights the UPSC focus on assessing climate pledges against actual outcomes, especially coal dependence and gaps in real decarbonisation.

  • Barcelona Convention COP24 

    Why in the News?

    At COP24 of the Barcelona Convention held in Cairo, European Union countries and Mediterranean partners adopted strengthened commitments to protect the Mediterranean Sea from pollution and ecological degradation.

    About Barcelona Convention

    • A legally binding regional environmental agreement led by United Nations Environment Programme
    • Focuses on protection of the Mediterranean Sea and sustainable coastal management

    Key Milestones

    • Adopted on 16 February 1976 as Convention for the Protection of the Mediterranean Sea Against Pollution
    • Entered into force in 1978
    • Amended and renamed in 1995 as the Convention for the Protection of the Marine Environment and the Coastal Region of the Mediterranean

    About Mediterranean Sea

    • A semi enclosed intercontinental sea between Europe, Asia and Africa
    • Covers about 2.5 million square kilometres
    • Accounts for roughly 0.7 percent of global ocean area
    • Recognised as a global biodiversity hotspot

    Connectivity

    • Atlantic Ocean through Strait of Gibraltar
    • Black Sea through Dardanelles, Sea of Marmara and Bosporus
    • Red Sea through Suez Canal

    Prelims Pointers

    • Barcelona Convention is a regional sea convention under UNEP
    • Mediterranean Sea is semi enclosed making it vulnerable to pollution
    • COP is the supreme decision making body of the Convention
    • Integrated coastal zone management is a key protocol area
    [2017] Mediterranean Sea is a border of which of the following countries? 

    1. Jordan 

    2. Iraq 

    3. Lebanon 

    4. Syria 

    Select the correct answer using the code given below: 

    (a) 1, 2 and 3 only (b) 2 and 3 only (c) 3 and 4 only (d) 1, 3 and 4 only

  • Is Delhi’s winter pollution breeding superbugs?

    Introduction

    Delhi’s winter pollution is characterised by elevated particulate matter levels due to temperature inversion, biomass burning, vehicular emissions, and industrial activity. The Jawaharlal Nehru University (JNU) study identifies airborne bacteria attaching to fine particulates, enabling their survival, dispersal, and inhalation by humans. The findings indicate that environmental pollution is actively contributing to antimicrobial resistance, transforming air quality from a respiratory hazard into a microbial and genetic risk pathway.

    Why in the News?

    A Jawaharlal Nehru University (JNU) study, published in Nature, has for the first time in Delhi established the presence of antibiotic-resistant bacteria in ambient air, particularly during winter months. The study records high bacterial loads exceeding WHO exposure thresholds in crowded urban localities, establishing a direct association between particulate matter (PM2.5 and PM10) and airborne transmission of multi-drug resistant Staphylococci. This marks a departure from earlier AMR discourse that focused primarily on hospitals, water bodies, and food chains, by identifying air as a vector for AMR spread.

    How does air pollution facilitate the spread of antibiotic-resistant bacteria?

    1. Particulate Matter (PM2.5 and PM10): Facilitates bacterial adhesion, atmospheric transport, and prolonged suspension.
    2. Carrier Function: Enables bacteria to remain viable and reach human respiratory tracts.
    3. Toxic Synergy: Enhances inflammatory response and susceptibility to infection upon inhalation.
    4. Crowded Environments: Increases bacterial exchange through coughing and breathing.

    What did the JNU study reveal about bacterial load in Delhi’s air?

    1. First-of-its-kind Study: Conducted across indoor and outdoor environments in Delhi.
    2. High Bacterial Concentration: Levels exceeded WHO recommended exposure limit of 1000 CFU/mÂł.
    3. Seasonal Pattern: Winter and monsoon months recorded higher bacterial loads than summer.
    4. Urban Hotspots: Crowded neighbourhoods exhibited the highest concentrations.

    Which antibiotic-resistant bacteria were identified?

    1. Staphylococci Presence: Eight species identified in air samples.
    2. Dominant Species: Staphylococcus arlettae emerged as the most prevalent.
    3. Resistance Profile:
      1. 36% multi-drug resistant strains
      2. 73% resistance to at least one antibiotic
    4. Clinical Significance: Staphylococci cause pneumonia, sepsis, skin infections, and endocarditis.

    Which locations showed the highest bacterial load?

    1. High-Load Areas: Munirka Market Complex, Slum clusters near Vasant Vihar
    2. Low-Load Area: Jawaharlal Nehru University (STP site), attributed to lower population density
    3. Urban Pattern: Crowding directly correlated with bacterial concentration.

    Who is most vulnerable to airborne antibiotic-resistant bacteria?

    1. Elderly Population: Reduced immunity increases infection risk.
    2. Immunocompromised Individuals: Cancer survivors and patients with chronic illnesses.
    3. Urban Poor: Greater exposure due to overcrowding and limited healthcare access.
    4. Hospital Visitors: Risk of exposure to resistant strains circulating between hospital and community.

    How does improper antibiotic disposal worsen the AMR threat?

    1. Disposal Practices: Flushing or discarding antibiotics into municipal waste.
    2. Environmental Impact: Creates low-dose antibiotic environments enabling bacterial mutation.
    3. Resistance Amplification: Promotes survival and genetic evolution of resistant strains.
    4. Ecosystem Spread: Resistance genes transmitted across soil, water, air, and food chains.

    What gaps in AMR governance does the study highlight?

    1. Monitoring Deficit: Absence of systematic surveillance of airborne AMR.
    2. Urban Blind Spot: AMR strategies focused on hospitals and wastewater, not air.
    3. Data Fragmentation: Lack of integration between pollution control and health agencies.

    Conclusion

    The JNU study underscores that Delhi’s winter air pollution is not merely a respiratory hazard but an active enabler of antimicrobial resistance, facilitating the survival and spread of antibiotic-resistant bacteria through particulate matter. By revealing air as an overlooked transmission pathway for resistant microbes, the findings expose critical gaps in urban pollution control, waste disposal practices, and AMR surveillance frameworks. Addressing this emerging threat requires integrating air quality management with antimicrobial stewardship and environmental monitoring, without which urban public health risks will continue to intensify silently.

    PYQ Relevance

    [UPSC 2014] Can overuse and free availability of antibiotics without Doctor’s prescription, be contributors to the emergence of drug-resistant diseases in India? What are the available mechanisms for monitoring and control? Critically discuss the various issues involved.

    Linkage: This question directly links to GS Paper III under Public Health, Science & Technology, and Environmental Pollution, particularly the microtheme of Antimicrobial Resistance (AMR). Recent evidence, such as findings on airborne antibiotic-resistant bacteria in polluted urban environments, expands the AMR discourse beyond clinical misuse to environment-driven and community-level transmission.

  • Drones Used to Detect Virus in Arctic Whales 

    Why in the News?

    Scientists have detected Cetacean morbillivirus in Arctic waters for the first time by collecting breath samples from whales using drones.

    About the Study

    • Title Deep breath out molecular survey of selected pathogens in blow and skin biopsies from North Atlantic cetaceans
    • Published in BMC Veterinary Research
    • Lead researcher Helena Costa from Nord University

    Species and Regions Covered

    • Whale species studied Humpback whale, sperm whale and fin whale
    • Regions Northern Norway, Iceland and Cape Verde
    • Sample collection period 2022 to 2025
    • Over 50 whale blow samples collected

    About Cetacean Morbillivirus

    • Infectious virus affecting whales, dolphins and porpoises
    • First discovered in 1987
    • Impacts respiratory and nervous systems
    • Known to cause mass strandings and deaths
    • Spreads through direct contact and respiratory droplets

    Prelims Pointers

    • Whale blow refers to exhaled breath from blowholes
    • Drones are emerging tools in non invasive wildlife research
    • Cetacean morbillivirus is linked to mass marine mammal mortality events
    • Arctic disease surveillance is critical under climate change
    [2020] At the present level of technology, which of the above activities can be successfully carried out by using drones? 

    1. Spraying pesticides on a crop field 

    2. Inspecting the craters of active volcanoes 

    3. Collecting breath samples from spouting whales for DNA analysis 

    Select the correct answer using the code given below: 

    (a) 1 and 2 only (b) 2 and 3 only (c) 1 and 3 only (d) 1, 2 and 3

  • Amazonian Stingless Bees 

    Why in the News?

    Municipalities in Peru passed a landmark ordinance granting legal rights to Amazonian stingless bees, making them the first insects in the world to receive such recognition.

    About Amazon’s Stingless Bees

    Stingless bees belong to the Meliponini group and either lack stingers or have non functional stingers, making them harmless to humans. They are critical pollinators in tropical ecosystems.

    Origin

    • Among the oldest bee lineages, existing for nearly 80 million years
      • Emerged during the age of dinosaurs
      • About 500 species globally, nearly half in the Amazon

    Habitat

    • Tropical forests worldwide
      • Highly abundant in the Amazon rainforest
      • Peru hosts over 170 species

    Key Ecological and Cultural Features

    • Primary rainforest pollinators
      • Pollinate over 80 percent of Amazonian plant species
      • Support key global crops like coffee, cacao, avocado, blueberry
      • Deeply embedded in Indigenous knowledge systems
      • Culturally significant to communities such as Asháninka and Kukama-Kukamiria

    Legal Rights for Stingless Bees

    The ordinance recognises inherent rights, including
    • Right to exist and flourish
    • Right to maintain healthy populations
    • Right to regenerate natural ecological cycles
    • Right to live in pollution free habitats
    • Right to legal representation when threatened

    Significance

    • Global legal first: First instance of insects granted legal rights
      • Stronger conservation framework: Enables legal action against deforestation, pollution, and habitat loss
      • Advances Rights of Nature doctrine: Moves from human centred environmental protection to ecosystem centred justice
    [2023] Which of the following organisms perform waggle dance for others of their kin to indicate the direction and the distance to a source of their food? 

    (a) Butterflies 

    (b) Dragonflies 

    (c) Honeybees 

    (d) Wasps