đŸ’„Join UPSC 2027,2028 Mentorship (July Batch) + XFactor Notes & Microthemes PDF

Subject: Environment

  • India assembles First Chromosome-Level Genome of the Yak

    Why in the News?

    Specialists from the Indian Council of Agricultural Research (ICAR) have successfully assembled the first-ever chromosome-level genome of the Indian yak (Bos grunniens).

    India assembles First Chromosome-Level Genome of the Yak

    About the Indian Yak (Bos grunniens):

    • The Indian yak, often referred to as the ‘ship of the Himalayas’, plays a crucial role in the high-altitude economies of India.
    • Features: It is known for its resilience and adaptability to extreme environments. It provides meat, milk, and manure and is a vital mode of transportation.
    • Habitat: It inhabits the regions above 7,000 feet in Ladakh, Sikkim, Arunachal Pradesh, and Himachal Pradesh.
    • Conservation Status: It is assessed as Vulnerable under the IUCN Red List and included in CITES Appendix I and Schedule I in the Indian Wildlife (Protection) Act, 1972.

    Significance of the Research:

    • Mapping Method: The study used long-read sequencing and advanced bioinformatics to map yak genes with high precision.
    • Feature Identification: The genome will help identify genes for cold tolerance, disease resistance, and milk production.
    • Comparative Applications: It will allow comparative studies with other bovine species to discover valuable genetic traits (alleles).
    • Breeding and Conservation: The data will support better breeding strategies and the creation of conservation plans for yaks.
    • Livelihood Impact: This research supports sustainable development and could improve the livelihoods of Himalayan yak herders through targeted livestock improvements.
    [UPSC 2017] According to the Wildlife (Protection) Act, 1972, which of the following animals cannot be hunted by any person except under some provisions provided by law?

    1. Gharial 2. Indian wild ass 3. Wild buffalo

    Select the correct answer using the code given below:

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

     

  • India eases Solar Panel Efficiency Norms for Off-Grid Rural Projects

    Why in the News?

    The Ministry of New and Renewable Energy (MNRE) has lowered the efficiency requirement for off-grid solar panels to make rural electrification easier and more affordable.

    About India’s Off-Grid Solar Programme:

    • About: The programme was launched by the Ministry of New and Renewable Energy to provide solar energy access in regions without reliable grid electricity.
    • Mission Framework: Implemented under the National Solar Mission (2010), it aimed to install 2,000 megawatt-peak (MW-P) of off-grid and decentralised systems by 2022.
    • Phased Implementation:
      1. Phase I (2010–2014) targeted 200 MW-P capacity.
      2. Phase II (2014–2017) expanded to 500 MW-P with a focus on lighting, pumps, and study lamps.
      3. Phase III (2018–2021) emphasised solar streetlights, study lamps, and solar plants for public institutions.
    • Restructuring: Solar pumps were moved to the Pradhan Mantri Kisan Urja Suraksha evam Utthaan Mahabhiyan scheme (PM-KUSUM), and solar home lights were integrated into the Saubhagya Scheme.
    • Key Applications: Included solar home lighting systems, streetlights, lanterns, study lamps, power packs, and water pumps for irrigation and drinking.

    India’s Progress in Off-Grid Solar Energy:

    • Installed Capacity: As of April 2025, India’s total solar capacity reached 107.95 gigawatts, with 4.98 gigawatts from off-grid systems.
    • Capacity Growth: From 2016 to 2024, solar installations grew from 172.45 gigawatts to 216.86 gigawatts.
    • Recent Trends: In 2024, adoption rose as solar appliances became more affordable in remote and underserved regions.
    • Impact: The programme has been vital for electrification in areas where grid expansion is limited by geography, cost, or infrastructure.

    Tap to know more about India’s Solar Capacity and its Global Position.

    [UPSC 2020] With reference to solar water pumps, consider the following statements:

    1. Solar power can be used for running surface pumps and not for submersible pumps.

    2. Solar power can be used for running centrifugal pumps and not the ones with piston.

    Which of the statements given above is/are correct?

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

     

  • [14th May 2025] The Hindu Op-ed: Ecology is the world’s permanent economy

    PYQ Relevance:

    [UPSC 2024] The groundwater potential of the gangetic valley is on a serious decline. How may it affect the food security of India?

    Linkage: The concept that ecological health (groundwater levels) is fundamental to human survival and security (food security). It highlights how the depletion of a natural resource affects a critical aspect of the economy and human well-being, demonstrating the link between ecology and a “permanent economy” that sustains life.

    Mentor’s Comment: The phrase “Ecology is the permanent economy” means much more than just a catchy line. It reminds us of a basic truth: human well-being depends on the health of nature. We cannot grow our economy without using natural resources, and we cannot keep our economy stable without protecting them. Today, as we face big problems like climate change and loss of wildlife, we need to seriously think about whether we truly understand and follow this idea.

    Today’s editorial discusses the idea that “Ecology is the permanent economy”. This topic is useful for GS Paper III in the UPSC Mains Exam, especially for questions related to the economy and environment.

    _

    Let’s learn!

    Why in the News?

    Understanding the idea that “Ecology is the permanent economy” will help us see that a healthy environment is essential for our survival, a strong economy, and protection against climate change.

    What does the phrase “Ecology is the permanent economy” signify in relation to human prosperity and ecological health?

    • Foundation of Human Survival and Economy: Ecology provides essential resources like air, water, food, and fertile soil — the base of all economic activity. Eg: Agriculture depends on healthy soil, pollinators, and water cycles. Degraded ecosystems lead to crop failures and food insecurity.
    • Long-term Economic Stability Requires Ecological Balance: Sustainable use of natural resources ensures continued economic benefits without exhausting the environment. Eg: Overfishing depletes fish stocks, harming both marine biodiversity and the fishing industry. Conservation efforts like fishing quotas help restore balance and maintain livelihoods.
    • Ecological Health Mitigates Climate and Disaster Risks: Ecosystems act as buffers against natural disasters and climate change impacts, protecting both lives and infrastructure. Eg: Mangroves protect coastal areas from storms and floods. Their destruction increases disaster vulnerability and economic loss.

    How has human evolution led to a disconnection from nature?

    • Shift from Nomadic to Settled Life: Early humans lived in close contact with nature, relying on it for daily survival. With agriculture and settlements, dependency became indirect. Eg: Nomads hunted and gathered in forests, while modern societies buy packaged food, unaware of its natural source.
    • Urbanisation and Infrastructure Development: Rapid urban growth has replaced natural landscapes with concrete, isolating people from natural surroundings. Eg: Children growing up in cities often have limited exposure to forests, rivers, or wildlife.
    • Technological Advancements: Machines, internet, and artificial environments have reduced daily interaction with the natural world. Eg: Air conditioning replaces the need to adapt to seasons; virtual reality replaces outdoor experiences.
    • Consumerism and Resource Overuse: The pursuit of material comfort leads to overexploitation of nature without regard for ecological balance. Eg: Excessive mining or deforestation for products like electronics or furniture disrupts ecosystems.
    • Loss of Traditional Knowledge and Practices: Indigenous ecological wisdom is being lost as modern lifestyles dominate, weakening the cultural connection to nature. Eg: Practices like rainwater harvesting or sacred groves are being forgotten in many regions.

    What impact has this had on biodiversity?

    • Habitat Destruction: Expansion of urban areas, agriculture, and infrastructure has led to large-scale loss of natural habitats. Eg: Deforestation in the Amazon rainforest has destroyed habitats for countless species, pushing many toward extinction.
    • Species Extinction: Disruption of ecosystems and overexploitation of species has accelerated extinction rates. Eg: The dodo bird and the western black rhinoceros became extinct due to hunting and habitat loss.
    • Invasive Species Introduction: Human activities have introduced non-native species that outcompete or prey on native species. Eg: Introduction of Nile perch in Lake Victoria led to the decline of hundreds of native fish species.
    • Pollution and Climate Change: Industrial waste, plastic pollution, and greenhouse gas emissions degrade ecosystems and affect species survival. Eg: Coral bleaching caused by ocean warming has severely damaged coral reef biodiversity.
    • Disruption of Natural Cycles: Unsustainable development alters food chains, migration patterns, and breeding cycles. Eg: Light pollution in cities affects nocturnal species like sea turtles, which rely on natural darkness for nesting.

    Why is balancing environmental protection and economic development crucial for long-term sustainability?

    • Ensures Resource Availability for Future Generations: Overexploitation today can lead to resource depletion, affecting future livelihoods. Eg: Sustainable forestry in countries like Sweden ensures timber is harvested without degrading forests.
    • Prevents Environmental Degradation: Economic development without ecological concern leads to pollution, soil erosion, and climate change. Eg: Unchecked industrialisation along the Ganga River caused severe water pollution, harming both people and biodiversity.
    • Supports Climate Resilience: Ecosystem protection helps buffer against climate impacts like floods, droughts, and heatwaves. Eg: Mangrove conservation in the Sundarbans protects coastal areas from cyclones and sea-level rise.
    • Boosts Green Economic Opportunities: Investing in renewables and green technology creates jobs while reducing emissions. Eg: India’s solar energy mission has generated employment and reduced dependency on fossil fuels.
    • Promotes Health and Well-being: A clean environment ensures access to clean air, water, and food, essential for human health. Eg: Delhi’s vehicular emission controls aim to reduce air pollution, improving public health outcomes.

    What paradox arises from relying on nature-based solutions while continuing to exploit natural resources?

    • Dual Dependence Creates Contradiction: We expect ecosystems to mitigate climate change while simultaneously degrading them through deforestation and pollution. Eg: Planting trees for carbon offset while clearing rainforests for agriculture defeats the purpose.
    • Undermines Long-Term Effectiveness: Continuous exploitation weakens the very systems relied upon for climate resilience and biodiversity restoration. Eg: Wetlands restoration projects fail when nearby urban expansion continues to encroach on wetland areas.
    • Ecological Imbalance Intensifies: The more we harm natural systems, the less capable they become in acting as buffers against environmental crises. Eg: Overfishing damages marine ecosystems, reducing their ability to regulate carbon and support livelihoods.

    What are the steps taken by the Indian government? 

    Way forward: 

    • Integrate Ecology into Economic Planning: Make environmental sustainability a core part of all development policies to ensure long-term resource security and resilience.
    • Promote Community-Led Conservation: Empower local communities with incentives and rights to manage natural resources, ensuring inclusive and effective environmental protection.
  • [13th May 2025] The Hindu Op-ed: How is shipping industry tackling emissions?

    PYQ Relevance:

     [UPSC 2022] Discuss global warming and mention its effects on the global climate. Explain the control measures to bring down the level of greenhouse gases which cause global warming, in the light of the Kyoto Protocol, 1997.

    Linkage: The shipping industry’s contribution to GHG emissions (approximately 1 billion metric tonnes annually, about 2.8% of total global emissions) and the IMO’s efforts to reduce these emissions to align with goals like the Paris Agreement. The question’s focus on international climate agreements (Kyoto Protocol) is relevant to the IMO’s regulatory efforts.

     

    Mentor’s Comment: The adoption of the Net Zero Framework, which is based on Market-Based Measure (MBM) by the International Maritime Organization (IMO) to regulate and reduce greenhouse gas (GHG) emissions from international shipping, marking a historic shift in global climate governance. It highlights the geopolitical negotiations, competing national interests, and the struggle to balance environmental effectiveness with economic fairness in formulating a global carbon levy on shipping emissions.

    Today’s editorial talks about regulation of greenhouse gas (GHG) emissions from international shipping.  This topic is useful for GS Paper II (International Relations and Policy Making) and GS Paper III (Environment).

    _

    Let’s learn!

    Why in the News?

    At the Marine Environment Protection Committee (MEPC-83) session of the IMO, a major step was taken by approving a new system to cut shipping emissions.

    What is the International Maritime Organisation (IMO)? 

    The International Maritime Organization (IMO) is a United Nations specialized agency responsible for regulating international shipping, promoting maritime safety, environmental protection, legal matters, and technical cooperation among member states.

    Why is it a landmark step? 

    • First Legally Binding Global Emission Levy: Shipping is the first industry with a mandatory, global emissions levy under the MARPOL treaty—unlike aviation (ICAO) or manufacturing, which follow voluntary or regional norms.
    • Equity Through CBDR-RC: The mechanism incorporates equity—ZNZ fuel users are rewarded, while underperformers bear the financial burden, aligning with developing countries’ interests.
    • Clear, Time-Bound Targets: IMO sets concrete milestones: 40% cut in carbon intensity by 2030, 70% by 2040, and net-zero by 2050—unlike ICAO’s vague goals.

    What were the challenges while taking this step?

    • Resisted by the Oil-Exporting Nations: Countries like Saudi Arabia, which depend heavily on fossil fuel exports, opposed stringent carbon levies, fearing these would harm their economies. They resisted the transition to green fuels, advocating for minimal changes.
    • Developed vs. Developing Countries: Developed nations like the EU supported aggressive emission reductions, while developing countries like China pushed for a market-driven approach to preserve competitiveness and avoid excessive financial burdens.

    How is the shipping industry tackling emissions as per the IMO?

    • Reduction of GHG emissions: The International Maritime Organization (IMO) has implemented measures like the Energy Efficiency Design Index and the Ship Energy Efficiency Management Plan to reduce carbon emissions from ships.
    • Targets for carbon intensity: The IMO has set a goal to reduce carbon intensity by at least 40% by 2030 (compared to 2008 levels) and 70% by 2040, with the ultimate aim of achieving net-zero emissions by 2050.
    • Green technologies and fuel alternatives: The IMO is pushing for cleaner fuels and innovative technologies for emissions reduction, including efforts in alternative fuels such as green hydrogen.

    What is the Net Zero Framework adopted by the IMO?

    The Net Zero Framework is a Market-Based Measure (MBM) to reduce emissions in the shipping industry. It aims to implement a mandatory emissions levy on global shipping to ensure that the sector meets net-zero targets by 2050.

    How would it work? 

    • Emission-Based Levy with Incentives: Ships emitting high greenhouse gases must pay a carbon levy, while those using Zero or Near-Zero (ZNZ) fuels receive financial rewards or credits. Eg: A ship using green hydrogen below the IMO’s emission threshold earns surplus credits, reducing its future levy.
    • Tiered Compliance via GHG Fuel Standard (GFS): Ships are classified based on fuel efficiency and emission levels. Underperformers must purchase remedial units, while high performers gain tradable surplus units. Eg: A vessel exceeding emission targets must buy units from a cleaner ship, creating a carbon market within global shipping.

    What is the limit on carbon emissions?

    • As per IMO reward thresholds:
      • Until 2034: The carbon limit is 19.0 g CO₂e/MJ
      • From 2035 onwards: It tightens to 14.0 g CO₂e/MJ

    How will the Market-Based Measure (MBM) framework impact India’s maritime sector and trade costs by 2030 and 2050?

    • Trade Costs: The MBM framework is likely to increase shipping costs due to carbon pricing and fuel surcharges, making Indian exports less competitive. Eg: Textile and agricultural exports from India to Europe may become costlier by 2030 due to EU’s Emission Trading System (ETS) expansion to maritime transport.
    • Equity Concerns: Uniform carbon levies do not consider developmental disparities, placing a higher burden on countries like India with limited historical emissions. Eg: India has argued at the IMO that MBMs should reflect Common But Differentiated Responsibilities (CBDR), as it is still building infrastructure and trade capacity.
    • Green Shipping Transition: To comply with decarbonization norms by 2050, India must shift to alternative fuels (e.g., green hydrogen, ammonia) and upgrade port infrastructure, requiring massive investments. Eg: Jawaharlal Nehru Port Trust may need to install green bunkering facilities and electrified cargo handling systems.
    • Technological and Financial Gaps: Lack of access to clean technology and climate finance may hinder India’s ability to transition smoothly, increasing dependence on foreign solutions. Eg: Advanced nations may dominate green shipbuilding, while Indian shipyards lag due to lack of R&D support and capital.
    • Opportunity for Green Growth: If supported with international finance and technology transfer, MBMs can stimulate domestic innovation and green job creation in maritime sectors. Eg: India’s “Green Ports” initiative could align with MBM goals and boost employment in clean energy, retrofitting, and logistics.

    Way forward: 

    • Differentiated Levy Design: IMO should adopt a flexible carbon pricing model that reflects Common But Differentiated Responsibilities (CBDR), allowing developing countries like India room to grow while contributing to climate goals. Eg: Tiered levy based on national capacities and emission intensity.
    • Technology Transfer & Climate Finance: Establish dedicated funding mechanisms for green shipping innovation, infrastructure upgrades, and capacity building in developing nations. Eg: An IMO-led global Green Maritime Fund supported by developed countries.
  • India’s rising e-waste, the need to recast its management

    Why in the News?

    India has overhauled its e-waste governance through the E-Waste (Management) Rules, 2022, which came into force on April 1, 2023, replacing the 2016 version. These rules mark a major policy shift to tackle India’s rapidly growing e-waste crisis.

    How Does the New EPR Framework Work?

    • Mandatory Registration: All manufacturers, producers, refurbishers, and recyclers must register with the Central Pollution Control Board (CPCB) through an online portal.
    • EPR Targets: These entities must meet specific collection and recycling targets, as set by the CPCB.
    • Liability for Non-compliance: Failure to meet targets invokes environmental compensation and penalties.

    What is the role of EPR floor pricing in e-waste management?

    • Ensures Fair Returns to Formal Recyclers: EPR floor pricing guarantees minimum compensation for authorized recyclers, making formal recycling economically viable and discouraging unsafe informal practices. Eg: A certified recycler adopting advanced e-waste extraction technologies is assured stable earnings, promoting compliance and expansion.
    • Reduces Informal Sector Dominance: By offsetting the cost advantage of informal recyclers, floor pricing shifts e-waste processing to the formal sector, where health and environmental standards are enforced. Eg: In India, 95% of e-waste is handled informally; floor pricing helps shift this to regulated channels.
    • Boosts Circular Economy and Material Recovery: Stable pricing encourages recyclers to focus on resource recovery—such as copper, gold, and rare metals—rather than mere disposal. Eg: Proper recycling of circuit boards in formal facilities helps recover precious metals worth crores, reducing raw material imports.

    What are the economic and social consequences of poor e-waste management?

    • Economic loss from pollution: Over $10 billion lost annually due to pollution from toxic e-waste processing.
    • Social cost: Informal processing results in $20 billion in social loss, affecting women and children, whose average lifespan is under 27 years.
    • Lost revenue and metals: India forfeits â‚č80,000 crore annually in metal value and $20 billion in tax revenue due to untracked, cash-based operations.
    • Health impacts: Open incineration and use of cyanide and sulphuric acid cause air, water, and soil pollution, compounding public health crises.

    How does stable pricing support formal recycling?

    • Ensures Financial Viability for Formal Recyclers: A minimum (floor) price for EPR certificates guarantees fair compensation, encouraging recyclers to invest in safe, modern technologies. Eg: Certified recyclers can recover precious metals like gold and copper efficiently with advanced equipment, making operations economically viable.
    • Discourages Hazardous Informal Practices: Stable pricing removes the informal sector’s cost advantage, shifting recycling away from unsafe, illegal methods. Eg: With assured returns, recyclers prefer compliance over risky open burning and acid-leaching methods that dominate 95% of the sector.
    • Drives Compliance and Investment: Predictable prices create trust in the system, helping producers meet EPR obligations and promoting infrastructure development.

    What are the challenges? 

    • Dominance of the Informal Sector: A large share of e-waste in India is processed by the informal sector using hazardous and unsafe methods like acid baths and open burning. Eg: In Seelampur (Delhi), a major informal e-waste hub, workers dismantle electronics without protection, exposing themselves to toxic substances like lead and mercury.
    • Low Consumer Awareness and Participation: Many consumers are unaware of proper e-waste disposal methods, leading to hoarding, landfilling, or selling to unregulated recyclers. Eg: In cities like Bengaluru and Mumbai, residents often discard electronics with household waste or sell them to local kabadiwalas despite having formal collection centers.

    Way forward: 

    • Strengthen Awareness and Consumer Participation: Promote widespread consumer education on e-waste disposal through campaigns and incentives for responsible recycling, ensuring more e-waste is directed to formal, safe channels.
    • Enhance Infrastructure and Enforcement of EPR: Develop advanced e-waste recycling infrastructure and strictly enforce EPR compliance to ensure producers meet recycling targets and transition e-waste processing to the formal sector.

    Mains PYQ:

    [UPSC 2023] What is the status of digitalization in the Indian economy? Examine the problems faced in this regard and suggest improvements.

    Linkage: India’s growing e-waste problem is linked to its fast digital growth and greater use of electronic gadgets. This issue mainly relates to the economy but also highlights how digitalisation is a key reason behind the rise in e-waste.

  • Species in news: Indian Grey Wolf

    Why in the News?

    Indian Grey Wolves in the Kadbanwadi Grasslands in Pune District are exposed to threats from local dog populations, such as Canine Distemper Virus (CDV), rabies, and canine parvovirus.

    Indian Grey Wolf

    About the Indian Grey Wolf (Canis lupus pallipes):

    • The Indian Grey Wolf is a subspecies of the Grey Wolf, found in India, Southwest Asia, and parts of the Middle East.
    • It has a brownish-grey coat with black and white markings and is less vocal, living in small packs of 2 to 6 members.
    • This wolf is nocturnal, meaning it hunts mainly at night, preying on small animals like chinkaras (gazelles), rodents, and sometimes livestock.
    • It lives in scrublands, grasslands, and semi-arid regions, and prefers warm climates.
    • As an apex predator of the grasslands, it plays a vital role in the ecosystem by controlling the population of herbivores and smaller predators.
    • The species is under threat due to habitat loss, disease from stray dogs, crossbreeding, and human conflict.
    • Its conservation status is critical:
      • IUCN: Endangered
      • CITES: Appendix I (highest international protection)
      • Wildlife Protection Act, 1972: Schedule I (maximum legal protection)

    Do you know?

    • The only protected area specifically dedicated to Indian grey wolves in India is the Mahuadanr Wolf Sanctuary in Latehar district, Jharkhand.
    • This sanctuary was established in 1976 to protect the wolf population and is part of the Palamau Tiger Reserve.

     

    [UPSC 2002] Which one of the following is monogamous?

    Options: (a) Wolf* (b) Walrus (c) Seal (d) Deer* (Answer is disputed)

     

  • Delhi Morphological Ridge

    Why in the News?

    The Supreme Court notified civic officials of allegedly violating its 1996 directive in the M.C. Mehta vs Union of India case (1996) by approving a private housing project in Delhi’s ecologically sensitive Morphological Ridge area.

    Delhi Morphological Ridge

    About Delhi Morphological Ridge:

    • The Delhi Ridge is the northern extension of the ancient Aravalli Range, stretching approximately 35 km from Tughlaqabad to Wazirabad, along the Yamuna River.
    • It is composed mainly of quartzite rock, is over 1.5 billion years old, and significantly older than the Himalayas.
    • It functions as Delhi’s green lungs, aiding in carbon sequestration, temperature regulation, and air pollution reduction.
    • It acts as a natural barrier against desert winds from Rajasthan and supports rich biodiversity, making Delhi one of the world’s most bird-rich capitals.
    • It is divided into four zones: Northern Ridge, Central Ridge, South-Central Ridge, and Southern Ridge.
    • Key conservation areas include the Northern Ridge Biodiversity Park and the Asola Bhatti Wildlife Sanctuary.

    Land Use Regulation in the Ridge:

    • Although the area shares ecological features with the Delhi Ridge, it is NOT officially notified as forest land, but it enjoys judicial protection.
    • A 1966 directive prohibits any NON-forest use or encroachment without court approval.
    • Any change in land use must be cleared by the Ridge Management Board (RMB) and the Supreme Court-appointed Central Empowered Committee (CEC).
    • The area is mapped using data from the Delhi Forest Department and the 2006 Seismic Zonation Map.
    • Formal notification as a Reserved Forest under the Indian Forest Act, 1927, is pending due to the absence of ground-truthing.
    • In revenue records, it is often marked as “gair mumkin pahad”, meaning uncultivable rocky hill.
    • The terrain is ecologically fragile, with shallow soil and rocky outcrops, making it unsuitable for construction.
    [UPSC 2001] The approximate age of the Aravalli range is-

    Options: (a) 370 million years (b) 470 million years (c) 570 million years (d) 670 million years

     

  • World’s Longest Banana Infructescence Found in Andaman

    World’s Longest Banana Infructescence Found in Andaman

    Why in the News?

    A species of wild banana, Musa indandamanensis, endemic to the Andaman and Nicobar Islands, has set a world record with an infructescence (fruit bunch axis) measuring 4.2 metres — the longest ever recorded among banana species globally.

    About the Musa indandamanensis:

    • Musa indandamanensis is a wild banana species that is endemic to the Andaman and Nicobar Islands.
    • It was first discovered in 2012 near the Krishna Nala reserve forest in Little Andaman and officially described in 2014.
    • The species was later rediscovered in Campbell Bay, located in the Nicobar Islands.
    • The discovery was led by Dr. Lal Ji Singh, Head of the Botanical Survey of India’s Andaman and Nicobar Regional Centre.
    • Due to its limited natural range and habitat vulnerability, it is listed as Critically Endangered by IUCN.

    Notable Features:

    • The species holds the world record for the longest banana infructescence, measuring 4.2 metres.
    • The plant typically reaches a height of about 11 metres, with stem girth varying by location: under 100 cm in Little Andaman and around 110 cm in Campbell Bay.
    • It bears golden yellow to orange fruits, which ripen into a golden-orange pulp containing many irregular-shaped seeds.
    • The plant thrives in moist tropical forests, typically near waterfalls and streams.
    • It is considered a valuable genetic resource for developing drought-resistant, disease-tolerant, and high-yielding banana varieties.
    • Specimens are showcased in botanical institutions such as the Indian Museum in Kolkata and the Andaman and Nicobar Regional Centre.
    • For ex-situ conservation, saplings have been planted in botanical gardens in Howrah, Prayagraj, and Port Blair.
    [UPSC 2016] Recently, our scientists have discovered a new and distinct species of banana plant which attains a height of about 11 metres and has orange-coloured fruit pulp. In which part of India has it been discovered?

    Options: (a) Andaman Islands* (b) Anaimalai Forests (c) Maikala Hills (d) Tropical rain forests of northeast

     

  • It is time to protect India’s workers from the heat

    Why in the News?

    Millions of informal workers in Indian cities are still suffering the most because Heat Action Plans are poorly designed.

    What are the key gaps in current Heat Action Plans for informal workers?

    • Lack of Specific Focus on Informal Workers: Most Heat Action Plans do not explicitly identify or address the unique needs of informal workers. Eg: NDMA’s 2019 heatwave guidelines mention “outdoor workers” broadly, without specific measures for vendors, construction workers, or waste pickers.
    • Absence of Occupational Safety Protocols: There are no provisions for safe working hours, rest breaks, hydration, or emergency response for heat stress. Eg: State-level HAPs often do not mandate rest periods or shaded areas for those working under the sun, unlike Odisha which mandates halts in outdoor work during peak heat hours.
    • Short-term and Crisis-oriented Planning: Most HAPs are activated only during summer months and lack long-term strategies to tackle recurring heatwaves. Eg: City-level HAPs like those in Delhi focus on public awareness during heat alerts but don’t invest in permanent cooling infrastructure.
    • Inadequate Coordination Between Departments: Ministries and departments (Labour, Urban Affairs, Health) work in silos, leading to disjointed efforts. Eg: Urban development plans rarely consult labour departments, leaving out worker welfare components like cooling shelters at work sites.
    • No Budgetary Provision or Worker Participation: Most HAPs are underfunded and formulated without involving worker collectives or unions. Eg: Unlike Ahmedabad’s more inclusive model that adjusted work hours and created shaded rest areas, many cities fail to allocate funds or consult informal worker groups.

    Why are informal workers most vulnerable to heatwaves?

    • Prolonged Exposure to Outdoor Heat: Informal workers often work in open, unshaded environments without protective infrastructure. Eg: Street vendors and construction workers spend long hours on roads or open sites under direct sunlight, increasing the risk of heatstroke and dehydration.
    • Lack of Social and Health Protection: Most informal workers are not covered under formal health insurance or welfare schemes. Eg: Waste pickers or rickshaw pullers facing heat exhaustion rarely get access to medical care or income support during extreme weather conditions.
    • No Control Over Work Conditions: Informal work lacks regulated hours, rest breaks, or heat safety norms. Eg: Gig workers or daily wage labourers often continue working during peak heat hours to avoid income loss, further risking their health.

    Who should be included in drafting worker-focused HAPs?

    • Informal Worker Collectives and Unions: These groups bring first-hand knowledge of occupational challenges and practical needs. Eg: Street vendor associations can guide the placement of shaded stalls or cooling zones in high-traffic market areas.
    • Local Civil Society and NGOs: They have ground-level experience working with vulnerable communities and can ensure inclusive planning. Eg: NGOs working with waste pickers can help identify priority locations for hydration points and rest shelters.
    • Urban Local Bodies and Municipal Officials: City planners and officials must coordinate resources and integrate worker needs into official frameworks. Eg: Municipal corporations can designate public spaces like bus depots or community halls as cooling centers for workers.

    Where should cooling zones be set up for maximum worker benefit?

    • High-Density Work Areas: Install cooling zones where informal workers are concentrated and exposed to heat. Eg: Labour chowks, construction sites, and industrial zones where daily wage workers gather and work outdoors.
    • Public Transport Hubs and Markets: Busy areas with long waiting times or heavy footfall offer strategic relief points. Eg: Bus stations, metro exits, and wholesale markets where street vendors and rickshaw pullers operate.
    • Slum Clusters and Informal Settlements: Set up community cooling centres where workers live in poorly ventilated, heat-trapping environments. Eg: Urban slums lacking trees or open spaces, where indoor heat stress is high during nights and afternoons.

    How can cities integrate heat resilience into governance and planning? (Way forward)

    • Embed Heat-Safety Norms in Urban Planning Frameworks: Include heat adaptation measures in master plans, building bye-laws, and zoning regulations. Eg: Mandating cool roofs, passive ventilation, and shaded pathways in all new public infrastructure projects.
    • Retrofit Informal Workspaces for Thermal Comfort: Upgrade existing markets, labour hubs, and waste collection zones with heat-resilient designs. Eg: Installing reflective roofing, shade nets, and drinking water stations in street vendor zones.
    • Establish Interdepartmental Coordination and Accountability: Create dedicated roles (like a heat officer) and inter-ministerial task forces for climate and labour. Eg: A city-level heat officer coordinating between health, labour, and urban departments to ensure timely responses during heatwaves.

    Mains PYQ:

    [UPSC 2013] Bring out the causes for the formation of heat islands in the urban habitat of the world.

    Linkage: It is time to protect India’s workers from the heat” discusses the growing crisis of extreme heat in Indian cities and its severe impact on urban informal workers.

  • [pib] 20th Session of UN Forum on Forests (UNFF20)

    Why in the News?

    India participated in the 20th session of the United Nations Forum on Forests (UNFF20) held at the UN Headquarters, New York, reaffirming its commitment to the United Nations Strategic Plan for Forests (UNSPF) 2017–2030.

    About United Nations Forum on Forests (UNFF):

    • UNFF was established in 2000 by the UN Economic and Social Council (ECOSOC).
    • It aims to promote sustainable forest management and global forest policy coordination.
    • It holds annual sessions at UN Headquarters:
      • Technical discussions in odd years
      • Policy-level dialogues in even years
    • It has universal membership — includes all UN Member States and relevant forest-related agencies.
    • India is a founding member and plays an active role in shaping forest policies.
    • The UN Strategic Plan for Forests (UNSPF) is the guiding framework for achieving global forest goals by 2030.
    • The 19th UNFF Declaration secured high-level political commitment for forest conservation.

    Key Highlights of UNFF20:

    • India reaffirmed its commitment to Voluntary National Contributions (VNCs) under the UNSPF (2017–2030).
    • It reported an increase in forest and tree cover to 25.17% of its geographical area.
    • National efforts included the Aravalli Green Wall, a 7.86% rise in mangrove cover, 1.55 lakh hectares afforested under the Green India Mission, and 1.4 billion seedlings planted under the Ek Ped Maa Ke Naam campaign.
    • India invited countries to join the International Big Cat Alliance (IBCA) for big cat conservation.
    • It urged support for outcomes of the Country-Led Initiative (CLI) on forest fire management held in Dehradun (2023).
    • In a high-level panel, India presented findings on carbon sequestration, water services, biodiversity, and tools like System of Environmental Economic Accounting (SEEA) and Millennium Ecosystem Assessment (MEA).
    • It stressed the need to mainstream ecosystem valuation in forest policy.
    [UPSC 2021] With reference to the ‘New York Declaration on Forests’, which of the following statements are correct?

    1. It was first endorsed at the United Nations Climate Summit in 2014.

    2. It endorses a global timeline to end the loss of forests.

    3. It is a legally binding international declaration.

    4. It is endorsed by governments, big companies, and indigenous communities.

    5. India was one of the signatories at its inception.

    Select the correct answer using the code given below:

    Options: (a) 1, 2, and 4* (b) 1, 3, and 5 (c) 3 and 4 (d) 2 and 5