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

Subject: Environment

  • Greater Flamingo Sanctuary at Dhanushkodi

    Why in the News?

    The Tamil Nadu government has officially notified a Greater Flamingo Sanctuary at Dhanushkodi in Ramanathapuram district.

    Greater Flamingo Sanctuary at Dhanushkodi

    What is a Bird Sanctuary?

    • India’s bird sanctuaries are established under the Wildlife (Protection) Act, 1972 (WLPA).
    • Section 18 of the WLPA empowers State governments to declare wildlife or bird sanctuaries based on ecological or zoological importance.
    • The law prohibits hunting of protected birds and prescribes penalties for violations, including fines and imprisonment.

    About Greater Flamingo (Phoenicopterus roseus):

    • Overview: It is the largest and most widespread flamingo species, found across Africa, southern Europe, and South and Southeast Asia, including India and Pakistan.
    • Presence in India: India hosts both Greater and Lesser Flamingos. Greater Flamingo is the state bird of Gujarat.
    • Behaviour and Diet: These birds form monogamous pairs and get their pink coloration from a diet rich in brine shrimp and algae. They are omnivores, feeding on invertebrates, small fish, algae, and decaying plant matter.
    • Habitat: They prefer saltwater lagoons, mudflats, and saline lakes, and are important indicators of wetland health.
    • Migration Pattern: Every year, 100,000–150,000 flamingos migrate from Gujarat to Mumbai, typically arriving in November and settling in the Thane Creek Flamingo Sanctuary.
    • Migration Triggers: Their movement depends on food availability, water levels, and colony crowding.
    • Conservation Status:
      • IUCN Red List: Least Concern (LC) (species is widespread and abundant)
      • Wildlife Protection Act, 1972: Schedule II (protected but with lesser penalties than Schedule I)
      • CMS (Convention on Migratory Species): Appendix II (species need international cooperation for conservation)
      • CITES (Convention on International Trade in Endangered Species): Appendix II (trade is regulated to avoid overexploitation)

    About the Flamingo Sanctuary at Dhanushkodi:

    • Location: The sanctuary lies in the Gulf of Mannar Biosphere Reserve, spanning 524.7 hectares in Rameshwaram taluk.
    • Habitat: It includes mangroves, sand dunes, mudflats, and marshes, supporting migratory birds, marine life, and sea turtles.
    • Flyway Connection: The site falls along the Central Asian Flyway, a key route for wetland migratory birds.
    • Bird Census: The 2023–24 wetland bird survey recorded over 10,700 birds, including herons, egrets, sandpipers, and both flamingo species.
    • Ecological Importance: Mangrove species like Avicennia and Rhizophora dominate the area, offering breeding grounds and coastal protection.
    [UPSC 2015] With reference to an organization known as ‘BirdLife International’, which of the following statements is/are correct?

    (1) It is a Global Partnership of Conservation Organizations. (2) The concept of ‘biodiversity hotspots’ originated from this organization. (3) It identifies the sites known/referred to as ‘Important Bird and Biodiversity Areas’.

    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

     

  • [pib] EnviStats India Report, 2025

    Why in the News?

    The Ministry of Statistics and Programme Implementation (MoSPI) has released the 8th edition of EnviStats India: Environment Statistics Report.

    About EnviStats India Report:

    • Launch: It is an annual report released by the Ministry of Statistics and Programme Implementation (MoSPI), first launched in 2018.
    • Global Framework: It follows the UN’s Framework for the Development of Environment Statistics (FDES) 2013.
    • Data Compilation: The report consolidates environmental data from multiple ministries and departments of the Indian government.
    • Policymaking Support: It helps in evidence-based policymaking by identifying environmental challenges, resource needs, and trends.

    Key Highlights of EnviStats India, 2025:

    • Energy and Fisheries:
      • Thermal power generation rose from 7.92 lakh GWh (2013–14) to 13.26 lakh GWh (2023–24).
      • Renewable energy generation increased from 65,520 GWh to 2.26 lakh GWh over the same period.
      • Inland fish production jumped from 61.36 lakh tonnes to 139.07 lakh tonnes.
      • Marine fish production grew from 34.43 lakh tonnes to 44.95 lakh tonnes.
    • Climate and Weather Trends:
      • Annual mean temperature increased from 25.05°C (2001) to 25.74°C (2024).
      • Minimum temperature rose from 19.32°C to 20.24°C; maximum temperature from 30.78°C to 31.25°C.
      • Rainfall patterns showed year-to-year variability, but no clear long-term trend.
    • Biodiversity Statistics:
      • India’s faunal diversity includes 1,04,561 species, contributing to the global count of 16,73,627 species.
      • It includes 20,613 marine, 9,436 freshwater, and 22,404 soil species.
      • Mangrove and estuarine ecosystems show high biodiversity richness.
    • Expenditure Trends:
      • The Environment Sustainability sector had the highest allocation: ₹2,433.24 crore in 2021–22.
      • Spending on Conservation of Natural Resources showed a rising trend.
      • Agro-forestry received the lowest funding among the three major environmental sectors.
    [UPSC 2020] Consider the following statements:

    1. 36% of India’s districts are classified as “overexploited” or “critical” by the Central Ground Water Authority (CGWA).

    2. CGWA was’ formed under the Environment (Protection) Act.

    3. India has the largest area under groundwater irrigation in the world

    Which of the statements given above is/are correct?

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

     

  • State of Tigers Prey in India

    Why in the News?

    For the first time, India has conducted a detailed assessment of ungulate species (mammals with hoofs on their foot, like deer, pigs, antelopes, and bison), which are vital prey for tigers and important for forest ecosystems.

    About Status of Tiger Prey in India:

    • The report titled “Status of Ungulates in Tiger Habitats of India” was released by the Wildlife Institute of India (WII) and the National Tiger Conservation Authority (NTCA), using data from the 2022 All-India Tiger Estimation.
    • This is the first national-level assessment of ungulates, the hoofed mammals like chital, sambar, gaur, wild pig, nilgai, which form the core prey base of tigers.
    • Ungulates are essential not only for tiger survival but also for maintaining healthy forest ecosystems, supporting biodiversity, and promoting soil and vegetation health.
    • The study stresses that tiger numbers alone are not enough; prey density and habitat quality must also be monitored to assess ecosystem health.
    • It establishes that 30 ungulates per sq km are needed to support 4 tigers per 100 sq km, but growth is constrained by territoriality, interspecies competition, and habitat fragmentation.

    Key Highlights:

    • Prey Decline in East-Central India: Significant decline in Odisha, Jharkhand, and Chhattisgarh due to habitat loss, deforestation, urbanization, mining, subsistence hunting, civil unrest, and Left Wing Extremism.
    • Thriving Regions: Healthier prey populations in the Shivalik-Gangetic Plains (Uttarakhand, UP, Bihar), Madhya Pradesh, Maharashtra, the Western Ghats, and Northeast India.
    • Species Trends:
      • Chital is the most widespread and adaptable species.
      • Sambar and gaur remain stable in central and southern forests.
      • Hog deer and barasingha show sharp decline due to wetland degradation and habitat isolation.
    • Human-Wildlife Conflict:
      • In low-prey areas like Tadoba and Ratapani, tigers prey on livestock, increasing conflict.
      • Wild pigs and nilgai damage crops, leading to retaliatory killings and local resentment.
    • Conservation Measures:
      • On-site prey breeding in predator-proof enclosures
      • Forest restoration and better habitat connectivity
      • Focused protection of sanctuaries and buffer zones
      • Reducing habitat fragmentation caused by roads, railways, and power lines

    About Tiger Conservation in India

    • Declared National Animal of India in 1972 by the Indian Board for Wildlife (IBWL).
    • Largest population in India; also found in Bangladesh, Nepal, Bhutan, China, and Myanmar. India harbours 75% of the world’s wild tigers.
    • Occupies habitats such as high mountains, mangrove swamps, grasslands, deciduous forests, evergreen, and shola forests.
    • Ecological Significance:
      • Flagship species: Essential for conservation efforts.
      • Umbrella species: Protecting tigers helps conserve other species.
    • Key driver of ecotourism and related industries.
    • Cultural & Spiritual Significance: Symbolizes power and strength.
    • Protection Status:
      • Indian Wildlife (Protection) Act, 1972: Schedule I.
      • IUCN Red List: Endangered.
      • CITES: Listed in Appendix I.
    • Project Tiger is a wildlife conservation initiative in India that was launched in 1973.
    • Tigers are also flagship species listed among the 7 big cats under the International Big Cat Alliance (IBCA).

     

    [UPSC 2001] A pesticide which is a chlorinated hydrocarbon is sprayed on a food crop. The food chain is: Food crop – Rat -Snake – Hawk.

    In this food chain, the highest concentration of the pesticide would accumulate in which one of the following?

    Options: (a) Food crop (b) Rat (c) Snake (d) Hawk*

     

  • [5th June 2025] The Hindu Op-ed: Aiming for an era of ‘biohappiness’ in India

    PYQ Relevance:

    [UPSC 2024] Explain the role of millets for ensuring health and nutritional security in India.

    Linkage: In this article, discuss how millets, classified as Neglected and Underutilized Species (NUS) and now as “opportunity crops,” are nutritionally dense and climate-resilient. This question directly aligns with the core components of ‘biohappiness’ that emphasize “nutrition security” and bringing “forgotten foods back to the table”.

     

    Mentor’s Comment:  India’s traditional food habits, especially in tribal and rural areas like Arunachal Pradesh, are at risk because many local plants and crops are disappearing. This loss is not just about rare plants but also about losing foods that are nutritious, climate-resilient, and hold cultural importance, along with the traditional knowledge that supports them.

    Today’s editorial will talk about the quick loss of biodiversity and traditional food knowledge in India. It will help with GS Paper II (Policy Making) and GS Paper III (Agriculture & Environment).

    _

    Let’s learn!

    Why in the News?

    The fast loss of biodiversity and food knowledge, caused by cash crops, global diets, and weak policies, urges India to use new science and revive orphan crops (Neglected and Underutilized Species) like millets for better food and environment.

    What are Neglected and Underutilized Species (NUS)?

    • NUS are traditional crops like millets, legumes, tubers, and wild fruits that have been largely ignored or underused in modern agriculture and food systems.
    • These species are nutritionally rich, climate-resilient, and well-adapted to local environments, offering potential to improve food security and support sustainable farming.

    Why are they now referred to as “opportunity crops”?

    • Nutritionally Dense: These crops are rich in essential nutrients, vitamins, and minerals, making them excellent for improving health. Eg: Small millets are high in fiber and micronutrients compared to rice and wheat.
    • Climate-Resilient: They can withstand harsh environmental conditions like drought and poor soils, helping farmers adapt to climate change. Eg: Finger millet (ragi) grows well in dry and marginal lands.
    • Locally Adapted: These crops are naturally suited to local soils and climates, reducing the need for chemical fertilizers and irrigation. Eg: Buckwheat thrives in the hilly regions of Northeast India without intensive inputs.
    • Support Biodiversity: Cultivating these crops preserves agrobiodiversity and traditional farming knowledge, maintaining ecological balance. Eg: Indigenous legumes help fix nitrogen in soil, improving fertility naturally.
    • Economic Potential: Reviving these crops can create new market opportunities, increase farmers’ incomes, and diversify food production. Eg: Millet-based products are gaining popularity in urban markets for their health benefits.

    Why is agrobiodiversity declining in Northeast India?

    • Rapid Disappearance of Traditional Plants: Many native plant species are disappearing quickly due to changing land use and environmental pressures. Eg: Traditional greens and wild fruits once common in Arunachal Pradesh are becoming rare.
    • Loss of Traditional Knowledge: Indigenous knowledge about the nutritional and medicinal properties of local plants is being lost as younger generations move away from traditional lifestyles. Eg: Nyishi and Apatani tribes’ understanding of forest plants is fading.
    • Shift to Commercial Crops: Farmers are moving from diverse local crops to cash crops for better income, reducing crop variety. Eg: In Kolli Hills, many farmers switched from millets to coffee and pepper.
    • Environmental Changes and Species Extinction: Habitat loss and climate change are causing a rise in species extinction, mirroring a global trend. Eg: Forest degradation in Northeast India is threatening native biodiversity.
    • Lack of Awareness and Support: There is limited awareness and institutional support for conserving local agrobiodiversity, leading to neglect. Eg: Many minor millets remain neglected in government schemes despite their benefits.

    Where has millet revival been successfully implemented?

    • Kolli Hills, Tamil Nadu: The M.S. Swaminathan Research Foundation (MSSRF) has worked with local farmers for over 20 years to prevent millet diversity loss. Efforts include documenting traditional knowledge, improving soil health, diversifying crops, and enhancing income, especially among women farmers. Eg: Farmers shifted back from cash crops to locally adapted millets.
    • Koraput District, Odisha: Collaboration with the Odisha Millet Mission has supported a community-led millet revival, focusing on seed conservation to consumption, expanding the range of millets beyond the commonly promoted ragi, jowar, and bajra. Eg: Minor millets are being reintroduced into local diets and markets.

    How does a few crops’ dominance affect global nutrition?

    • Over-Reliance on Few Crops: Global food systems mainly depend on rice, wheat, and maize, which provide over 50% of plant-based calories. This limits dietary diversity. Eg: Many populations rely heavily on rice, leading to monotonous diets.
    • Loss of Biodiversity: Dominance of a few crops causes a decline in agricultural biodiversity, reducing availability of diverse nutrients. Eg: Traditional millets and legumes are neglected, despite being nutrient-rich.
    • Nutritional Imbalances: Diets based on a limited number of staple crops can cause deficiencies in vitamins, minerals, and proteins. Eg: Populations depending mainly on wheat may face iron and zinc deficiencies.
    • Vulnerability to Climate Shocks: Dependence on few crops makes food systems more susceptible to climate change impacts, threatening food security. Eg: Droughts affecting maize crops can lead to widespread shortages.
    • Rise in Non-Communicable Diseases: Limited crop diversity correlates with an increase in diseases like diabetes and obesity, due to poor diet quality. Eg: High consumption of refined wheat and maize products contributes to obesity trends.

    What are the steps taken by the Indian government? 

    • International Year of Millets & Shree Anna Yojana: Launched focused strategies to enhance millet production, productivity, consumption, and export, while raising awareness about health benefits.
    • State Millet Missions: Several states have started their own Millet Missions to support local cultivation, value chain strengthening, and branding of millets.
    • Inclusion in Public Distribution System (PDS): Efforts are underway to include minor millets in the PDS to promote wider access and consumption among the population.

    Way forward: 

    • Expand Millet Coverage and Integration: Broaden the focus beyond major millets (ragi, jowar, bajra) to include minor millets and other neglected crops in state missions and the Public Distribution System (PDS) for greater reach and impact.
    • Strengthen Farmer Empowerment and Research: Support community-led conservation, improve value addition technologies, and invest in interdisciplinary researchto enhance crop resilience, nutritional value, and market opportunities.
  • Rising ‘Black Carbon’ heating Himalayan Snow: Study

    Why in the News?

    A recent study by the think-tank Climate Trends has revealed that levels of black carbon in the Himalayas have been rising steadily over the past two decades.

    About Black Carbon (BC):

    • What is it: Black carbon is a fine particulate pollutant formed from the incomplete combustion of biomass and fossil fuels.
    • Impact: It is a short-lived climate pollutant and the second-largest contributor to global warming after carbon dioxide.
    • Lifespan: Unlike CO₂, black carbon stays in the atmosphere for short periods and can be quickly reduced if emissions stop.
    • Warming Mechanism: As an aerosol, it absorbs sunlight, heats the atmosphere, and reduces albedo when deposited on snow and ice, leading to faster melting.
    • Health Effects: Exposure increases the risk of heart disease, birth complications, and premature death.
    • Major Sources in India:
      • Residential Biomass Burning: Accounts for 47% of BC emissions, including cow dung and straw burning.
      • Industries and Vehicles: Industries contribute 22%, while diesel vehicles add 17%.
      • Other Sources: Open burning contributes 12%, and other minor sources 2%.
      • High-Emission States: Madhya Pradesh and Maharashtra are major emitters due to agricultural and forest fires.
      • Biofuel Usage: Alone contributes nearly 42% of India’s total BC emissions.

    Key Findings from the Study (2000–2023):

    • Snow Temperature Rise: Himalayan snow surface temperature rose from -11.27°C to -7.13°C over two decades.
    • Regional Trends: The Eastern Himalayas were warmest, followed by the Central and Western regions.
    • BC Influence: Deposits of black carbon lower snow reflectivity, increase heat absorption, and accelerate glacier melt.
    • Population Risk: Glacier loss threatens the freshwater supply for nearly 2 billion people downstream.
    • Increase in Snow Depth: Despite warming, average snow depth rose from 0.059 m to 0.117 m.
    • Reasons: This is due to more snowfall, changing precipitation, and wind redistribution.
    • Regional Comparison: The Western Himalayas showed highest snow depth, linked to elevation and winter storms, while the Eastern and Central Himalayas had less snow due to proximity to BC sources.
    [UPSC 2017] Consider the following statements:

    1. Climate and Clean Air Coalition (CCAC) to Reduce Short-Lived Climate Pollutants is a unique initiative of G20 group of countries;

    2. The CCAC focuses on methane, black carbon and hydrofluorocarbons.

    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

     

  • Two New Ramsar Sites in Rajasthan

    Why in the News?

    India has added two new wetlands—Khichan in Phalodi and Menar in Udaipur, both located in Rajasthan—to the Ramsar List of Wetlands of International Importance. With these additions, India’s total number of Ramsar sites has reached 91.

    Khichan and Menar Wetlands:  

    • Khichan (Phalodi District):
      • It is internationally famous for hosting thousands of migratory Demoiselle cranes, making it a major birdwatching destination.
      • The wetland supports biodiversity, acting as a crucial habitat for migratory birds and maintaining ecological balance.
    • Menar (near Udaipur):
      • It is known as Rajasthan’s “Bird Village”, celebrated for its community-led conservation efforts.
      • It hosts rare birds like the cinereous vulture, Himalayan griffon, Dalmatian pelican, and black-tailed godwit.

    About the Ramsar Convention:

    • It is an international treaty for the conservation and sustainable use of wetlands.
    • It was established on February 2, 1971, in the city of Ramsar, Iran.
    • The convention focuses on:
      • Identifying and designating wetlands of global importance.
      • Ensuring effective management of these wetlands.
      • Promoting international cooperation for wetland protection.
    • India and the Ramsar Convention:
      • India became a signatory in 1982.
      • The first Site in India was Chilika Lake in Odisha, designated in 1981.
      • As of now, India has 91 Ramsar sites, covering around 13.58 lakh hectares.
      • Wetlands listed under Ramsar make up about 10% of India’s total wetland area.
      • Tamil Nadu has the highest number of Ramsar sites (20), followed by Uttar Pradesh (10).

    9 Criteria for Declaring Ramsar Sites:

    A wetland can be declared a Ramsar Site by a signatory country if it meets one or more of the following criteria:

    1. It has unique, rare, or representative wetland types.
    2. It supports vulnerable, endangered, or endemic species.
    3. It is a habitat for waterfowl, especially during migration.
    4. It holds significant ecological, botanical, zoological, limnological, or hydrological features.
    5. It supports scientific research and promotes biodiversity conservation.
    6. It provides ecosystem services like flood control, water purification, and groundwater recharge.
    7. It has cultural, spiritual, or recreational value.
    8. It supports sustainable livelihoods for local communities.
    9. It faces threats requiring international cooperation for conservation.

    Other Key Facts:

    • 171 countries are currently part of the Ramsar Convention.
    • The United Kingdom has the highest number of Ramsar sites (175); Mexico follows with 142 sites.
    • Bolivia has the largest wetland area under protection, covering 148,000 sq. km.
    • World Wetlands Day is celebrated every year on February 2, to commemorate the signing of the Ramsar Convention and raise awareness about the importance of wetlands.
    • The Montreux Record is a list of Ramsar sites that require urgent conservation attention due to human-induced threats.

     

    [UPSC 2022] Consider the following pairs:

    Wetland/Lake Location

    1. Hokera Wetland — Punjab

    2. Renuka Wetland — Himachal Pradesh

    3. Rudrasagar Lake — Tripura

    4. Sasthamkotta Lake — Tamil Nadu

    How many pairs given above are correctly matched?

    Options: (a) Only one pair (b) Only two pairs* (c) Only three pairs (d) All four pairs.

     

  • Building-Integrated Photovoltaics: converting buildings into solar assets 

    Why in the News?

    India’s rooftop solar (RTS) capacity has gone beyond 17 GW, showing good progress in using clean energy in cities. But in crowded urban areas, there isn’t enough space for more rooftop solar panels.

    What is Building-Integrated Photovoltaics (BIPV)?

    BIPV refers to the integration of photovoltaic materials directly into the building envelope (e.g., façades, roofs, windows). It serves both as a building material and a solar power generator. Eg: Façades, curtain walls, glass windows, skylights, tiles, railings, balconies, canopies, atriums, and shading devices.

    How does it differ from traditional rooftop solar systems?

    Traditional Rooftop Solar (RTS) Building-Integrated Photovoltaics (BIPV)
    Installation Added onto rooftops Embedded into building structure
    Space Use Limited to rooftop area Uses entire building envelope (walls, windows etc.)
    Aesthetic Usually visible, can affect aesthetics Customisable, aesthetically integrated
    Function Only generates electricity Generates electricity + serves as a building material
    Retrofitting Often retrofitted Typically integrated during design/build phase

    Why is BIPV particularly important for densely populated urban areas in India?

    • Limited Rooftop Space in High-Rises: In densely populated cities, tall buildings with small rooftops cannot accommodate large rooftop solar (RTS) systems. Eg: A 16-storey building with a 4,000 sq. ft rooftop can install only a 40 kWp RTS system, but its south-facing façade can support 150 kWp BIPV panels.
    • Efficient Use of Building Surfaces: BIPV allows power generation from vertical and horizontal surfaces like façades, windows, and balconies, thus using more surface area. Eg: Façade areas of buildings are often 3–4 times larger than rooftop areas, offering greater solar potential.
    • Supports Sustainable Urban Growth: With India’s urban population projected to reach 850 million by 2051, BIPV enables renewable energy adoption in future infrastructure. Eg: Integration of BIPV in new public infrastructure (e.g., metro stations, airports) can reduce carbon footprint.
    • Energy Access for Non-Rooftop Households: Residents in multi-storey apartments without rooftop access can still benefit from solar energy via BIPV on balconies, railings, or windows. Eg: In Germany, 15 lakh households use balcony solar panels, reducing electricity bills by up to 30%.
    • Aesthetic and Space-Neutral Design: BIPVs blend into building designs without occupying extra space or affecting aesthetics, which is ideal for space-constrained urban settings. Eg: The Renewable Energy Museum in Kolkata has a solar-powered dome with over 2,000 integrated panels, combining function with form.

    What challenges are limiting the adoption of BIPVs in India?

    • High Initial Costs: BIPV systems are more expensive than traditional rooftop solar due to integration with building materials and use of advanced technology.
    • Policy and Regulatory Gaps: Lack of clear policies, mandates, and incentives specific to BIPV hinders its integration into mainstream construction practices. Eg: Unlike Europe’s Energy Performance of Buildings Directive, India’s National Building Code does not yet mandate or promote BIPV use.
    • Low Awareness and Technical Capacity: Architects, builders, and homeowners are often unaware of BIPV’s benefits or how to incorporate it effectively in design.
    • Dependence on Imports and Limited Domestic Manufacturing: India relies heavily on imported BIPV components, increasing costs and reducing supply reliability. Eg: Specialised BIPV glass panels or semi-transparent modules are often imported from China or Europe due to lack of local alternatives.
    • Absence of Standardisation and Performance Guidelines: There are no clear standards, benchmarks, or guidelines for BIPV performance, quality, and installation, causing hesitation among developers. Eg: Without defined safety and efficiency norms, urban local bodies may delay approvals or avoid BIPV in building plans.

    What measures can India take to scale up the uptake of BIPVs effectively? (Way forward)

    • Introduce Targeted Policy Incentives and Subsidies: India should extend solar subsidy schemes to specifically support BIPV adoption, especially in space-constrained urban areas. Eg: Under the PM Surya Ghar Muft Bijli Yojana (2024), BIPV was included with subsidies up to ₹78,000 for a 3-kW residential system. Similar support is needed for commercial and industrial sectors.
    • Embed BIPV in Building and Energy Codes: Integrating BIPV requirements into the National Building Code, Energy Conservation Building Code, and Eco Niwas Samhita can make its use more widespread and standardized. Eg: Europe’s Energy Performance of Buildings Directive mandates solar use in new constructions and promotes BIPV with clear regulations—India can adopt a similar model.
    • Promote Domestic Manufacturing and Demonstration Projects: Boosting indigenous production through PLI schemes, along with pilot projects in public infrastructure (e.g., schools, airports), can improve visibility and reduce costs. Eg: The CtrlS Datacenters in Navi Mumbai and Kolkata’s Renewable Energy Museum show how BIPV can be scaled in real-world infrastructure.

    Mains PYQ:

    [UPSC 2020] India has immense potential of solar energy though there are regional variations in its development. Elaborate.

    Linkage: Building-Integrated Photovoltaics (BIPV) is a key solution for boosting solar adoption, especially in densely populated urban areas where traditional rooftop solar (RTS) is constrained by limited shadow-free space. BIPV transforms entire buildings into power generators by integrating solar elements directly into architectural elements, using available surfaces more efficiently and contributing significantly to India’s solar capacity goals.

  • Expert Committee recommends ending mandatory Flue Gas Desulphurisation (FGD) 

    Why in the News?

    A high-powered committee chaired by Principal Scientific Advisor (PSA) Ajay Sood has proposed that India should discontinue the mandatory use of Flue Gas Desulphurisation (FGD) units in most coal-fired Thermal Power Plants (TPPs).

    Why mandatory FGDs are opposed?

    • Low SO Levels: India’s SO₂ levels (10–20 µg/m³) are already below the permissible limit of 80 µg/m³.
    • Low Sulphur Coal: Indian coal naturally has low sulphur content.
    • Minimal Impact: Studies show no major air quality difference between plants with and without FGDs.
    • Limited PM Reduction: FGDs have minimal effect on particulate matter levels.
    • Environmental Trade-Offs:
      • CO Increase: Installing FGDs would add 69 million tonnes of CO₂ emissions (2025–2030).
      • SO Reduction: Emissions would fall by 17 million tonnes, but the climate cost outweighs the benefit.

    About Flue Gas Desulphurisation (FGD):

    • Purpose: FGD is a technology used to remove sulphur dioxide (SO) from flue gases produced by burning coal and oil, especially in thermal power plants.
    • Environmental Benefit: It helps prevent acid rain, which harms crops, buildings, soils, and aquatic ecosystems.
    • Chemicals Used: Common absorbents include limestone (CaCO), lime (CaO), and ammonia (NH).
    • Types of Systems:
      1. Dry Sorbent Injection: Cost-effective, but less efficient.
      2. Wet Limestone-Based: Effective and used in large plants, produces gypsum.
      3. Seawater-Based: Uses alkaline seawater, ideal for coastal areas.

    FGD Mandate in India:

    • Current Status: FGD units are being installed in 537 coal-based thermal power units, but 92% of India’s 600 plants still lack them.
    • Committee Recommendation: An expert panel advised exempting 80% of plants from FGD requirements due to feasibility issues.
    • Implementation Barriers: Limited vendors available; High costs and risk of increased electricity tariffs.
    [UPSC 2023] Consider the following:

    1. Carbon monoxide 2. Nitrogen oxide 3. Ozone 4. Sulphur dioxide Excess of which of the above in the environment is/are cause(s) of acid rain?

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

     

  • PM to launch Aravalli Green Wall Project

    Why in the News?

    On June 5, World Environment Day, Prime Minister Narendra Modi is expected to launch the Aravalli Green Wall Project.

    PM to launch Aravalli Green Wall Project

    About the Aravallis:

    • Geology: The Aravalli Range is one of the oldest fold mountain ranges in the world, formed during the Proterozoic era.
    • Spread: It stretches for about 692 km, from Gujarat to Delhi, passing through Rajasthan and Haryana.
    • State-Wise Coverage: Around 80% of the range lies in Rajasthan, with the rest spread across Haryana, Delhi, and Gujarat.
    • Highest Peak: The tallest point is Guru Shikhar in Mount Abu, Rajasthan, with an elevation of 1,722 meters.
    • Natural Barrier Function: Acts as a green wall, preventing the spread of the Thar Desert into eastern Rajasthan and the Gangetic plains.
    • River Origins: Important rivers such as the Banas, Sahibi and Luni originate from the Aravallis.
    • Minerals: Rich in minerals like copper, zinc, lead, and marble.
    • Biodiversity: Home to 300+ bird species and key wildlife such as leopards, hyenas, jackals, wolves, civets, and Nilgai.
    • Prehistoric Significance: Contains cave art and tools from the Lower Palaeolithic period.

    What is the Aravalli Green Wall Project?

    • Project Goal: To build a green corridor from Delhi to Gujarat combating desertification and ecological degradation.
    • States Involved: Includes Delhi, Rajasthan, Haryana, and Gujarat, focusing on restoring degraded landscapes.
    • Vegetation Strategy: Focus on removing Prosopis juliflora (invasive species) and planting native trees like:
      • Khair (Indian Gum Arabic)
      • Ronjh (White-barked Acacia)
      • Dhau (Axlewood)
      • Salai (Indian Frankincense)
      • Pilkhan, Neem, Amaltas, Goolar, Peepal
    • Buffer Zone Creation: A 6.45 million hectare buffer zone will be established around the Aravallis.
    • Phase 1 Focus:
      • Delhi: 3,010 ha in South Delhi
      • Haryana: 25,000 ha in Gurugram, Faridabad, Mahendragarh
    • Global Commitments supported:
      • Paris Agreement: Target to create 2.5–3 billion tonnes CO sink
      • Bonn Challenge: Restore 26 million hectares of land by 2030
    [UPSC 2001] The approximate age of the Aravallis range is.

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

     

  • ​Monsoon woes: On the southwest monsoon and the northeast

    Why in the News?

    In 2025, the Southwest Monsoon, which plays a vital role in India’s farming economy, brought heavy and destructive rains. Instead of simply starting the farming season, it has caused widespread damage across the northeastern states.

    Why is the northeastern region particularly vulnerable to monsoon-related disasters?

    • Geographical Terrain and River Systems: The Northeast has a complex topography of steep hills and fast-flowing rivers like the Brahmaputra and Barak. These rivers often overflow during monsoon, causing floods and erosion. Eg: In Assam, over 10 major rivers flowed above danger level in June 2025, affecting over 3 lakh people across 19 districts.
    • High and Prolonged Rainfall: The region receives one of the highest average monsoon rainfalls in India, making even a “below normal” monsoondestructive. Eg: Despite IMD predicting lower-than-normal rainfall, Assam, Tripura, and Sikkim faced flash floods and landslidesin May–June 2025.
    • Dual Monsoon Exposure and Fragile Ecology: The region experiences both the southwest monsoon (June–September) and a retreating monsoon (October–December), increasing disaster exposure. The fragile ecology, including deforestation and slope instability, worsens risks. Eg: In North Sikkim, landslides in early June 2025 marooned 1,500 tourists and blocked arterial roads due to incessant rain.

    What is the Dual Monsoon Pattern? 

    Dual Monsoon Pattern refers to the occurrence of two distinct monsoon phases in a year that affect a region, particularly the Northeastern States of India. These are:

    • Southwest Monsoon (June to September):
      This is the primary monsoon season for most of India. The Bay of Bengal branch of the southwest monsoon brings heavy rainfall to the Northeastern States like Assam, Meghalaya, and Arunachal Pradesh.
    • Retreating/Post-Monsoon (October to December):
      This secondary phase brings additional rainfall, especially to Nagaland, Manipur, Mizoram, and Tripura (NMMT region). This is often accompanied by cyclonic storms originating from the Bay of Bengal.

    How does the dual monsoon pattern affect the disaster preparedness of northeastern States?

    • Extended Vulnerability Period: The presence of both the southwest monsoon (June–September) and the retreating/post-monsoon (October–December) leads to a prolonged rainy season, increasing the duration for which states must stay alert and prepared. Eg: In 2023, flash floods affected parts of Meghalaya in both July and November, stretching disaster response capacities.
    • Recurring Strain on Resources: The back-to-back monsoon cycles put continuous pressure on relief infrastructure, emergency services, and budgetary resources, often without adequate recovery time between events. Eg: In Assam, flood shelters and boats used during June floods had to be reactivated again during October rains, delaying repairs and replenishment.
    • Challenges in Long-term Planning: The dual monsoon system makes it harder to plan and execute infrastructure repair, agricultural recovery, and resettlement efforts, as damage may recur within months. Eg: In Arunachal Pradesh, roads repaired after July landslides were again washed away during October rains in 2022, disrupting connectivity repeatedly.

    Why has infrastructure development lagged in the northeastern States compared to the rest of India?

    • Challenging Geographical Terrain: The region is dominated by mountainous landscapes, dense forests, and seismic zones, which make construction of roads, bridges, and railways technically difficult and cost-intensive. Eg: In Sikkim, frequent landslides and narrow mountain roads delay road-widening and highway projects.
    • Security and Strategic Concerns: The presence of international borders with countries like China, Myanmar, and Bangladesh and historical instances of insurgency have led to delays in project execution due to security concerns and administrative restrictions. Eg: The construction of the India-Myanmar-Thailand Trilateral Highway through Manipur has faced repeated delays due to local unrest and law-and-order issues.
    • Low Political and Economic Prioritisation: Compared to other regions, the Northeast has received less investment in infrastructure due to lower population density, limited industrial base, and less political influence at the national level. Eg: States like Nagaland and Mizoram have limited railway connectivity even today, unlike the rapid expansion seen in western and southern India.

    What are the steps taken by the Indian government? 

    • Strengthened Disaster Response and Early Warnings: The government has deployed NDRF units across the Northeast and enhanced IMD’s region-specific alerts for floods and landslides in states like Assam, Sikkim, and Arunachal Pradesh.
    • Infrastructure Development in Vulnerable Areas: Schemes like NESIDS support critical infrastructure such as flood protection embankments and all-weather roads in remote regions of Manipur and Mizoram.
    • Integration into National Disaster Management Frameworks: NDMA conducts capacity building, mock drills, and implements region-specific guidelines for urban flooding and landslide risk in cities like Gangtok and Guwahati.

    What long-term measures are needed to ensure sustainable disaster management in the Northeast? (Way forward)

    • Region-Specific Infrastructure Planning and Investment: Develop climate-resilient infrastructure suited to the region’s fragile ecology, such as landslide-resistant roads, flood-resistant housing, and robust early warning systems. Eg: The installation of a real-time flood monitoring system in the Brahmaputra basin has improved early evacuation in parts of Assam.
    • Integrated Inter-State and Central Coordination Mechanism: Establish a permanent regional disaster coordination body with participation from all Northeast states and the Centre to plan, share resources, and respond collectively to disasters. Eg: A joint task force involving Assam, Arunachal Pradesh, and Meghalaya could improve flood response across shared river systems like the Barak and Brahmaputra.

    Mains PYQ:

    [UPSC 2024] Flooding in urban areas is an emerging climate-induced disaster. Discuss the causes of this disaster. Mention the features of two such major floods in the last two decades in India. Describe the policies and frameworks in India that aim at tackling such floods.

    Linkage: The Bay of Bengal branch of the monsoon reaches the northeastern States first. These areas usually get a lot of rain during the monsoon, even in years when rainfall is lower than normal. Because of this, the region is naturally more prone to problems like flooding, which often comes with such heavy rain.