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

Subject: Conservation & Mitigation

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

  • Gallbladder Cancer in the Gangetic Belt 

    Why in the News

    • New analysis calls gallbladder cancer (GBC) an “invisible epidemic” in India’s Gangetic belt, especially among women.
    • Despite high prevalence, GBC is not a national health priority, poorly monitored, and driven by environmental pollution.

    Key Highlights

    1. High-Burden Geography

    • India accounts for ~10% of global GBC cases.
    • Highest incidence in Uttar Pradesh, Bihar, West Bengal, Assam.

    2. Environmental Drivers

    • Arsenic, cadmium, lead contamination in groundwater.
    • Industrial effluent discharge into rivers.
    • Pesticide residues, adulterated oils, contaminated fish.
    • Chronic exposure through water, food, soil.

    3. Gendered Impact

    • ~70% of GBC patients are women.
    • Factors contributing:
      • Reuse of cooking oil
      • Consumption of unrefrigerated food
      • High exposure to contaminated water during domestic chores
    • 80%+ diagnosed at Stage III/IV, when surgery is not viable.

    4. Socio-Economic Burden

    • Treatment costs â‚č8–12 lakh → debt, treatment abandonment.
    • Hotspots overlap with districts having high poverty and poor sanitation.

    5. Governance Failures

    • Cancer registries cover only 10% of the population → clusters remain invisible.
    • Weak enforcement of pollution laws.
    • No mandatory cancer reporting.
    Which of the following can be found as pollutants in the drinking water in some parts of India? (2013)

    (1). Arsenic 

    (2). Sorbitol 

    (3). Fluoride 

    (4). Formaldehyde 

    (5). Uranium 

    Select the correct answer using the codes given below. 

    (a) 1 and 3 only (b) 2, 4 and 5 only (c) 1, 3 and 5 only (d) 1, 2, 3, 4 and 5

  • Predation by Horn-Eyed Ghost Crab: New Ecological Observation on India’s East Coast

    Why in the news?

    Researchers from GITAM School of Science, Visakhapatnam, have documented the first confirmed instance of a horn-eyed ghost crab preying on a mottled lightfoot crab at Rushikonda Beach, Andhra Pradesh.
    Published in: Journal of Threatened Taxa (November edition).

    Significance of the Finding

    ‱ Demonstrates unusual predator-prey interaction not recorded earlier in India
    ‱ Indicates behavioural extension of the horn-eyed ghost crab into rocky intertidal zones
    ‱ Suggests flexible foraging strategies in shifting coastal environments

    About Horn-Eyed Ghost Crab

    ‱ Belongs to genus Ocypode and IUCN Red List Status: Least Concern (LC) on the IUCN Red List
    ‱ Keystone species and ecological indicator of coastal health
    ‱ Known for sandy intertidal habitat
    ‱ Roles in ecosystem: Regulates populations of smaller fauna and Burrowing influences sand structure and aeration
    ‱ Known predators of clams, snails, worms, insects, shrimps and even turtle/bird hatchlings
    ‱ India records six ghost crab species; Rushikonda hosts at least three (O. brevicornis, O. macrocera, O. cordimanus)

    With reference to ‘dugong’ a mammal found in India, which of the following statements is/are correct? (2015)

    (1) It is a herbivorous marine animal.

    (2) It is found along the entire coast of India.

    (3) It is given legal protection under Schedule I of the Wildlife (Protection) Act 1972.

    Select the correct answer using the code given below.

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

  • Humpback Whale Population Recovery

    Why in the News

    The Humpback whale population has seen a major recovery from about 10,000 to nearly 80,000, due to successful conservation measures and their ability to adapt their food sources.

    Humpback Whale 

    • Scientific Name: Megaptera novaeangliae
      ‱ Family: Balaenopteridae (Rorqual whales)
      ‱ Type: Baleen whale

    Distribution and Migration

    • Found in all major oceans from sub polar waters to equatorial regions
      ‱ Known for long distance migrations: Polar regions in summer for feeding and Tropical/subtropical seas in winter for breeding

    Physical Characteristics

    • A prominent hump in front of the dorsal fin
      ‱ Extra long pectoral fins (inspiration for the name Megaptera meaning big winged)
      ‱ Females larger than males

    Feeding and Behaviour

    • Unique feeding strategy: Bubble Net Feeding
    • Whales exhale bubbles while spiraling upward to trap prey
    • Diet: Krill and various schooling fish like anchovies, sardines, mackerel, cod, capelin

    Lifespan and Reproduction

    • Sexual maturity: 4 to 10 years
      ‱ One calf every 2 to 3 years

    Conservation Status

    • IUCN Red List: Least Concern
      ‱ Population recovery highlights the success of global marine conservation policies and sustainable whaling bans
    With reference to ‘dugong’ a mammal found in India, which of the following statements is/are correct? (2015)

    (1) It is a herbivorous marine animal

    (2) It is found along the entire coast of India

    (3) It is given legal protection under Schedule I of the Wildlife (Protection) Act 1972. 

    Select the correct answer using the code given below. 

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

  • Dudhwa Tiger Reserve and Rainbow Water Snake 

    Why in the News

    A Rainbow Water Snake (Enhydris enhydris) was documented for the first time in Uttar Pradesh with photographic evidence from the buffer zone of Dudhwa Tiger Reserve.

    Dudhwa Tiger Reserve 

    • Location: Indo Nepal border, Lakhimpur Kheri district, Uttar Pradesh
      ‱ Established: 1988
      ‱ Area: 1,284 sq km
      ‱ Constituents:
    • Dudhwa National Park
    • Kishanpur Wildlife Sanctuary
    • Katerniaghat Wildlife Sanctuary
    • Buffer includes North Kheri, South Kheri, and parts of Shahjahanpur forest divisions
    • Habitat Type: Typical Tarai Bhabar ecosystem of Upper Gangetic Plains
      ‱ Rivers:
    • Sharda (near Kishanpur)
    • Geruwa (through Katerniaghat)
    • Suheli and Mohana (in Dudhwa NP)
    • All are tributaries of the Ghagra River
    • Vegetation: North Indian Moist Deciduous forests, noted for Sal
      ‱ Flora Examples: Sal, Asna, Asidha, Haldu, Faldu, Gahmhar, Kanju

    Rainbow Water Snake 

    • Scientific Name: Enhydris enhydris
      ‱ Conservation Status: IUCN: Least Concern
      ‱ Nature: Slightly venomous, fish eating freshwater snake
      ‱ Distribution: South and Southeast Asia including India, Nepal, Bangladesh, Myanmar, Sri Lanka, Thailand etc.
      ‱ Habitat: Marshlands, ponds, rice fields freshwater zones
      ‱ Distinctive Features:
    • Up to 130 cm long
    • Two pale stripes along body converging near crown
    • Brown to greenish brown body with pale belly
    In India, if a species of tortoise is declared protected under Schedule I of the Wildlife (Protection) Act, 1972, what does it imply? (2017)

    (a) It enjoys the same level of protection as the tiger

    (b) It no longer exists in the wild, a few individuals are under captive protection; and how it is impossible to prevent its extinction

    (c) It is endemic to a particular region of India. 

    (d) Both (b) and (c) stated above are correct in this context.

  • Saving Rock Eagle Owl Eggs at a Telangana Quarry 

    Why in the News?

    A rare conservation incident unfolded at Yenakathala village, Vikarabad district (Telangana) where operations in a stone quarry were halted for 30+ days to protect five eggs of the endangered Rock Eagle Owl found in a rock crevice. The quarry is incurring â‚č1.2 lakh loss per day (â‚č35 lakh total) to ensure safe hatching. This has been hailed as a “miracle” rescue and an example of community-led wildlife protection.

    About the Rock Eagle Owl (Indian Eagle-Owl) – Bubo bengalensis

    • Also called Bengal Eagle-Owl
    • Large horned owl species
    • Habitat: Hilly scrub forests, cliffs, rock crevices
    • Camouflage: Brown & grey plumage with a white throat patch
    • Distribution: Throughout India
    • IUCN Status: Least Concern globally, but population decreasing
    • In India:
      • Protected under Schedule I, Wildlife Protection Act, 1972
      • This places it at par with species like tigers and elephants in terms of legal protection
    • Threats: 
      • Habitat loss
      • Quarrying and mining
      • Poaching (â‚č35–40 lakh per bird in black market)
      • Superstitious killings

    Important:

    • Nesting sites are difficult to locate; nests are usually in rock niches and cliffs, not trees.
      The species abandons the nest if touched by humans.
    In India, if a species of tortoise is declared protected under Schedule I of the Wildlife (Protection) Act, 1972, what does it imply ? (2017)

    (a) It enjoys the same level of protection as the tiger. 

    (b) It no longer exists in the wild, a few individuals are under captive protection; and how it is impossible to prevent its extinction. 

    (c) It is endemic to a particular region of India. 

    (d) Both (b) and (c) stated above are correct in this context.

  • Why pollution affects north Indian cities more than south and west

    Introduction

    Over 2015-2025, no northern Indian city recorded “safe” air quality even once, with Delhi emerging as the most polluted city. In contrast, cities in the south and west maintained comparatively better AQI levels. This consistent divergence reflects entrenched geographical, meteorological, and structural constraints that trap pollutants in the Indo-Gangetic Plain while aiding dispersion along the coasts.

    Why in the news

    A new assessment titled Air Quality Assessment of Major Indian Cities (2015-2025) reported that Delhi continues to be the most polluted city, with AQI stagnating at unhealthy levels. The study shows sharp regional contrasts, revealing that only southern and western cities showed sustained air quality improvements, making this a significant environmental governance concern.

    Persistent Regional Air Quality Divide

    Why northern cities remain severely polluted

    1. Consistent high pollution: Northern cities experienced prolonged severe pollution episodes across the decade.
    2. Limited “healthy days”: None recorded AQI within safe thresholds in 2025.
    3. Stagnant improvement: Even when AQI dipped (e.g., 2019), levels remained far above healthy limits.

    How southern and western cities compare

    1. Cleaner AQI bands: Chennai, Chandigarh, Visakhapatnam, and Mumbai maintained AQI between 80-140.
    2. Steady progress: These cities displayed clear improvements between 2015-2025.
    3. Best performer: Bengaluru recorded the best AQI among all 11 cities.

    Why Delhi Emerges as the Worst Performer

    Data trends

    1. Peak AQI: Delhi saw its worst AQI in 2016 (over 250).
    2. Temporary dips: AQI improved in 2019 but did not meet healthy standards.
    3. Current status: AQI stagnated at 180.5 in 2025, indicating persistent failure to achieve safe limits.

    Structural challenges

    1. Urban surface roughness: Dense built-up surfaces inhibit wind flows and pollutant dispersion.
    2. Trapping effect: Reduced ventilation leads to prolonged retention of pollutants.

    Why Secondary Northern Cities Remain Highly Polluted

    Cities in focus: Lucknow, Varanasi, Ahmedabad, and Pune showed:

    1. Prolonged elevated AQI: Frequent high pollution days with slow improvement.
    2. Mixed progress: Improvements after 2019, but still above healthy limits.
    3. Heavy pollutant load: Emissions + weak dispersion exacerbate poor quality.

    Why Southern & Western Cities Perform Better

    1. Favourable winds: Sea breezes in coastal cities aid pollutant dispersal.
    2. Better atmospheric ventilation: Stronger monsoon winds and less winter stagnation.
    3. Urban characteristics: Less surface roughness compared to Delhi’s dense built-up terrain.

    Outcome

    1. Improved AQI stability
    2. Lower incidence of sharp pollution spikes

    Geography and Winter Inversion: The Deciding Factors

    Geographical lock-in

    1. Indo-Gangetic Basin: Landlocked region bounded by the Himalayas prevents outflow of pollutants.
    2. Pollutant entrapment: Cold northern boundary and flat terrain acts like a “pollution bowl”.

    Winter inversion

    1. Temperature inversion effect: Warm air traps cold, dense air near the surface and this leads to pollutants settling close to ground level.
    2. Seasonal peak: December-February shows intensified pollution due to reduced boundary layer height.

    Built environment factor

    1. Surface roughness: Urban canyons in Delhi slow wind speed, increasing stagnation.

    Seasonal Wind Patterns and Air Dispersion

    Why southern/western cities improve during monsoon

    1. Strong monsoon flows disperse pollutants effectively.
    2. Regular ventilation cycles prevent accumulation.

    Why northern cities worsen in winter

    1. Weak westerly winds
    2. Lower atmospheric mixing height
    3. Persistent fog, cold air trapping, and stagnation

    Conclusion

    The decade-long air quality analysis underscores a structural, region-specific pollution challenge rooted in geography, climate, and urban form. Northern cities, especially those in the Indo-Gangetic Basin, remain trapped in severe winter pollution cycles, while southern and western cities benefit from favourable winds and dispersion conditions. Any meaningful pollution mitigation strategy must therefore be region-sensitive and climatologically informed.

    PYQ Relevance

    [UPSC 2021] Describe the key points of the revised Global Air Quality Guidelines (AQGs) released by the World Health Organisation (WHO). How are these different from its last update in 2005? What changes in India’s National Clean Air Programme are required to achieve these revised standards?

    Linkage: This topic is important for UPSC as it highlights India’s deep regional air-quality disparities and the structural limits of current pollution-control policies. It links directly to GS-3 themes of air pollution, WHO AQGs, NCAP reforms, and the recurring winter inversion-driven smog episodes in north Indian cities.

  • Why does India need bioremidiation

    Introduction

    Bioremediation uses microorganisms such as bacteria, fungi, algae, and plants to break down toxic pollutants like pesticides, plastics, heavy metals, and industrial chemicals into harmless by-products. With India experiencing severe air, water, and soil contamination, bioremediation provides a scalable and sustainable pathway to clean ecosystems. At the same time it will  generate opportunities in biotechnology and environmental consulting.

    What Is Driving India Toward Bioremediation?

    1. Rapid industrialisation: Intensifies contamination of air, water, and land, increasing demand for cost-effective clean-up solutions.
    2. High pollution load: Rivers continue to receive sewage and industrial effluents daily, causing persistent ecological and health risks.
    3. Limitations of traditional clean-up: Conventional methods are expensive, energy-intensive, and often shift pollutants to secondary waste streams.
    4. Biological advantage: Indigenous and extremophile microbes adapted to local temperatures, salinity, and soil conditions perform better than imported strains.

    How Do Different Types of Bioremediation Work?

    1. In situ bioremediation: Direct treatment at the contaminated site (e.g., bacteria sprayed on oil spills or contaminated soil treated on location).
    2. Ex situ bioremediation: Removal and controlled treatment of polluted soil or water in bioreactors or treatment facilities before returning it.
    3. Combination with biotechnology: Genetically modified microbes designed to degrade complex pollutants like plastics or toxins offer enhanced efficiency.

    How Is India Using Bioremediation Today?

    1. Government-supported pilot projects: DBT supports several programmes through its Clean Technology Programme, linking universities, research institutions, and industries.
    2. CSIR-National Environmental Engineering Research Institute initiatives: Mandate to develop and implement bioremediation solutions; contributes to policymaking.
    3. Indian Institute of Technology experiments: Development of microbial synthesised compounds to mop up oil spills and identify bacteria suitable for soil restoration.
    4. Emerging startups: Firms like Biotech Consortium India Limited (BCIL) and Ecominr India offer soil and water microbial solutions.

    What Are Other Countries Doing?

    1. Japan: Integrates microbial and plant-based systems into municipal solid waste strategy.
    2. European Union: Funds cross-country projects to remove toxins, clean up oil spills, and restore mining sites.
    3. China: Makes bioremediation a priority under soil pollution control frameworks and uses genetically improved bacteria for industrial waste.

    What Are the Risks and Challenges?

    1. Environmental risks: Introduction of genetically modified organisms must be strictly monitored to prevent unintended ecological effects.
    2. Lack of unified standards: Absence of national bioremediation protocols, biosafety guidelines, certification systems.
    3. Knowledge and skill gaps: Limited trained personnel, weak microbial testing frameworks, and poor site assessment capacity.
    4. Public scepticism: Low awareness about microbes as environmental allies may slow adoption.

    What Should India Do Next?

    1. Standard-development: Develop national protocols for microbial applications and bioremediation safety.
    2. Regional bioremediation hubs: Link universities, startups, and industries for field testing and faster scale-up.
    3. Government integration: Align bioremediation with Namami Gange, Swachh Bharat Mission, and industrial clean-up mandates.
    4. Public engagement: Raise awareness about biological solutions to restore trust in microbial technologies.

    Conclusion

    Bioremediation presents India with a scalable, sustainable, and scientifically grounded pathway to address its massive environmental burdens. While global examples offer templates for success, India must create strong regulatory frameworks, biosafety standards, and capacity-building ecosystems. Integrating microbes with national missions and industrial compliances can transform bioremediation from pilot projects into mainstream environmental governance.

    PYQ Relevance

    [UPSC 2018] What are the impediments in disposing of the huge quantities of discarded solid wastes which are continuously being generated? How do we remove safely the toxic wastes that have been accumulating in our habitable environment?

    Linkage: This PYQ is highly relevant as it falls under GS3 pollution, waste management, and sustainable clean-up. The article links directly by showing how microbial systems overcome traditional waste-disposal barriers and safely break down toxic, accumulated solid waste.

  • Svalbard

     Why in the News?

    • Scientists recently observed an unexpected large gathering of walruses on the remote shores of Svalbard, indicating shifting wildlife behaviour in the Arctic due to changing climatic conditions.

    About Svalbard 

    Location

    • A Norwegian archipelago in the Arctic Ocean.
    • Lies between mainland Norway and the North Pole (about halfway).
    • Northernmost permanent human settlement in the world.

    Discovery & Status

    • Discovered by Willem Barentsz (Dutch explorer) in 1596.
    • Svalbard Treaty (1920) → established Norwegian sovereignty.

    Geography

    • ~60% glacier-covered; marked by mountains, fjords.
    • Surrounding seas:
      • Arctic Ocean, Greenland Sea, Norwegian Sea.
    Consider the following countries: (2014)

    1. Denmark 

    2. Japan 

    3. Russian Federation 

    4. United Kingdom 

    5. United States of America 

    Which of the above are the members of the ‘Arctic Council’? 

    (a) 1, 2 and 3 only (b) 2, 3 and 4 only (c) 1, 4 and 5 only (d) 1, 3 and 5 only

  • Khiamniungan Tribe

    Why in the News?

    • The Prime Minister of India recently mentioned the Khiamniungan tribe of Nagaland in his Mann Ki Baat episode, highlighting their traditional practice of cliff-honey hunting and rich cultural heritage.

    About the Khiamniungan Tribe

    • One of the major Naga tribes inhabiting both:
      • Eastern Nagaland (India)
      • North-Western Myanmar
    • Their homeland lies along the Indo-Myanmar border.
    • The term “Khiamniungan” means “source of great water/river”.
    • Language: Khiamniugan, a Sino-Tibetan Naga language.
    • Social Structure: Traditionally based on a clan system.

    Festivals

    • Tsokum Sumai: Celebrated in September–early October.
      • Purpose: Invoke blessings for a rich harvest.
    • Khaotzao Sey Hok-ah Sumai: Marks the end of agricultural activities for the year.

    Economy & Livelihood

    • Agriculture is the primary occupation.
    • Traditionally practiced jhum cultivation.
    • Renowned for cliff-honey hunting, practiced for centuries.
    Consider the following pairs: Tribe State (2013)

    (1). Limboo (Limbu) : Sikkim 

    (2). Karbi : Himachal Pradesh 

    (3). Dongaria Kondh : Odisha 

    (4). Bonda : Tamil Nadu 

    Which of the above pairs are correctly matched? 

    (a) 1 and 3 only 

    (b) 2 and 4 only 

    (c) 1, 3 and 4 only 

    (d) 1, 2, 3 and 4

  • New Species of ‘Shadow’ Damselfly Discovered in Kodagu’s Western Ghats 

    Why in the News?

    A new damselfly species, Protosticta sooryaprakashi, commonly called the Kodagu Shadowdamsel, has been discovered in the Western Ghats, Karnataka. The finding underscores the rich but still understudied biodiversity of the region.

    Species Details

    • Common Name: Kodagu Shadowdamsel
    • Scientific Name: Protosticta sooryaprakashi
    • Family: Platystictidae (Shadowdamsels)

    Discovery Location

    • Found along the Sampaje River banks (Kodagu District)
    • Also observed in Agumbe high-altitude forests
    • Habitat: Shaded, riparian vegetation in the Western Ghats

    Distinctive Features

    • Males show a sky-blue marking on the prothorax (behind the head).
    • Body: Dark brown to black, unlike the crimson thorax of the related Protosticta sanguinostigma.
    • Unique genital ligula: Tip shaped like a duck’s head (important taxonomic marker).
    • Smaller, more delicate, with weak fluttering flight.
    In which of the following states is the lion-tailed macaque found in its natural habitat? (2013)

    1. Tamil Nadu 

    2. Kerala 

    3. Karnataka 

    4. Andhra Pradesh 

    Select the correct answer using the codes given below. 

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