This MCQ module is based on: Pollution — Water, Air, Land, Noise
TOPIC 25 OF 27
Pollution — Water, Air, Land, Noise
🎓 Class 12
Social Science
CBSE
Theory
Chapter 9 — Geographical Perspective on Selected Issues and Problems
⏱ ~28 min
🌐 Language: [gtranslate]
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Geographical Perspective on Selected Issues — Environmental Pollution: Water, Air, Land & Noise
NCERT India: People and Economy — Unit V, Chapter 9 (Part 1)
What Is Environmental Pollution?
Step out into a north Indian city on a cold November morning and you will see a smudge of grey haze blotting out the rising sun. Walk along the bank of the Yamuna near Delhi or the Ganga at Varanasi and you will notice mats of foam, oily slicks and plastic floating downstream. Stand near a busy traffic signal and the noise meter on your phone may cross 90 decibels — the threshold beyond which long exposure damages hearing. These are not isolated experiences; they are everyday reminders that the air we breathe, the water we drink and the land we walk on have been progressively contaminated by our own activities.
Geography asks us to look at this contamination as a spatial problem — where it concentrates, why it concentrates there, and what its consequences are for human and ecological well-being. The NCERT chapter therefore opens with a clear definition that we will use throughout the lesson.
Definition — Environmental Pollution
Environmental pollution is the release of harmful substances and energy from waste products of human activities into the air, water or soil — and the discomfort caused by excessive noise. Pollutants are classified by the medium through which they are transported and diffused, giving us four major types: (i) air pollution, (ii) water pollution, (iii) land pollution and (iv) noise pollution.
The four types do not exist in watertight compartments. Smoke from a factory chimney pollutes the air; the same smoke settles on fields as land pollution; rain washes the deposited residues into rivers as water pollution; and the constant rumble of the factory engine adds to noise pollution in the surrounding settlement. Geographers therefore study them together as a single environmental system under stress.
Fig 9.1 — The Four Types of Environmental Pollution
Table 9.1 — Types and Sources of Pollution
| Pollution Type | Pollutants Involved | Main Sources |
|---|---|---|
| Air | Oxides of sulphur (SO₂, SO₃), oxides of nitrogen, carbon monoxide, hydrocarbons, ammonia, lead, aldehydes, asbestos, beryllium | Combustion of coal, petrol & diesel; industrial processes; solid-waste disposal; sewage disposal |
| Water | Odour, dissolved & suspended solids; ammonia & urea; nitrates & nitrites; chloride, fluoride, carbonates; oil & grease; pesticide residues; bacterial coliforms; heavy metals (lead, arsenic, mercury, manganese); radioactive substances | Sewage disposal; urban run-off; toxic effluents from industries; run-off from cultivated lands; nuclear power plants |
| Land | Human & animal excreta; viruses & bacteria; garbage & vectors; pesticide and fertiliser residues; alkalinity; fluorides; radioactive substances | Improper human activities; disposal of untreated industrial waste; use of pesticides & fertilisers |
| Noise | High level of noise above tolerance level (decibels) | Aircraft, automobiles, trains; industrial processing; advertising media & loudspeakers |
Source: NCERT, India: People and Economy, Class 12, Table 9.1.
Think About It — Pollution as a chain reaction
Pick any one industrial unit you can see, read about, or imagine — a thermal power station, a leather tannery, a sugar mill, a brick kiln. Write a 60-word note showing how this one unit can pollute the air, water, land and generate noise pollution simultaneously.
Worked example — Coal-fired thermal power plant:
The chimney releases SO₂, NOₓ and fly ash into the air. Hot wash-water carrying ash slurry is discharged into a nearby river — water pollution. The dry ash, dumped in low-lying ash ponds, contaminates the surrounding land and groundwater for years. The boiler turbines and coal handling create steady mechanical noise that exceeds tolerance limits in the nearby colony. One unit, four media, one continuous environmental footprint.
9.1 Water Pollution — The Sickness of India’s Rivers
India has more than two dozen major rivers and an extensive web of canals, tanks, lakes and wells. None of these surface-water sources is, by itself, perfectly pure — rainwater always picks up small quantities of suspended particles, dissolved gases and organic matter as it flows over land. The natural water body has its own self-purifying capacity: micro-organisms, sunlight and dilution slowly break down or carry away small loads of contamination. The trouble begins when the load of pollutants becomes so heavy that this self-purifying capacity is overwhelmed. The water then becomes polluted — unfit for human, animal or industrial use.
The NCERT chapter is explicit on the cause: indiscriminate use of water by the increasing population and the expansion of industry has degraded the quality of India’s rivers, lakes and groundwater. Although natural sources such as erosion, landslides, decay and decomposition of plants and animals do contribute pollutants, the real worry is pollution from human activities — industrial, agricultural and cultural.
Sources of Water Pollution
Industrial Effluents
The single biggest contributor. Industries release poisonous gases, heavy metals, chemical residuals, dyes and untreated wash-water into rivers and lakes. Major water-polluting sectors are leather, pulp & paper, textiles and chemicals; sugar, distillery and dairy plants add high-BOD organic load.
Agricultural Run-off
Modern farming uses inorganic fertilisers, pesticides and herbicides in large quantities. Rain washes them into rivers, tanks and lakes. They also infiltrate the soil to reach groundwater. Fertiliser run-off raises the nitrate content of surface waters, leading to eutrophication.
Urban Sewage
Untreated domestic waste, kitchen drainage and storm-water carry coliform bacteria, soaps, detergents and decaying organic matter into the nearest river. Most Indian cities still discharge a large fraction of their sewage untreated.
Cultural Activities
Pilgrimage, religious fairs and tourism add a particularly Indian source. Floral offerings, idol immersion, ash and the sheer crowd density at sites such as the Ganga at Varanasi, the Yamuna at Delhi, the Cooum at Chennai and the Sabarmati at Ahmedabad turn the water unfit for human consumption.
Among these sources, the NCERT text underlines that industry is the most significant contributor. Most industrial wastes are disposed of in running water or lakes; the poisonous elements then reach reservoirs and rivers, destroying the bio-system of those waters.
Fig 9.2 — India: Major Polluted River Stretches
Polluted Stretches of the Ganga and the Yamuna
The NCERT chapter highlights two of India’s most-revered and most-abused rivers. The Ganga? turns visibly polluted downstream of Kanpur, gets worse downstream of Varanasi, and reaches its dirtiest stretch at the Farakka Barrage in West Bengal. The Yamuna’s short Delhi-to-confluence-with-Chambal section, and again near Mathura and Agra, are so degraded that the river is biologically dead in places.
| River & State | Polluted Stretches | Nature of Pollution | Main Polluters |
|---|---|---|---|
| Ganga (UP, Bihar & West Bengal) | (a) Downstream of Kanpur (b) Downstream of Varanasi (c) Farakka Barrage | Industrial pollution from towns like Kanpur; domestic wastes from urban centres; dumping of carcasses | Cities of Kanpur, Prayagraj, Varanasi, Patna and Kolkata release domestic waste into the river |
| Yamuna (Delhi & UP) | (a) Delhi to Chambal confluence (b) Mathura and Agra | Extraction of water by Haryana and UP for irrigation; agricultural run-off (high micro-pollutants); domestic and industrial waste of Delhi | Delhi dumping its domestic waste; agricultural fertilisers from upstream |
Source: NCERT Table 9.2 — Sources of Pollution in the Ganga and the Yamuna Rivers.
Groundwater Contamination — Arsenic and Fluoride
Surface water is not the only victim. Two specific groundwater problems threaten Indian villages today:
- Arsenic contamination in the alluvial aquifers of West Bengal and Bihar. More than 38 million people across the Ganga-Brahmaputra delta are exposed to arsenic above the WHO limit, leading to skin lesions and cancers.
- Fluoride contamination in the hard-rock and arid belts of Rajasthan, Andhra Pradesh, Karnataka, Gujarat and Tamil Nadu, causing dental and skeletal fluorosis.
Water-Borne Diseases
Water pollution is a direct source of water-borne diseases. The diseases most commonly caused by contaminated water are diarrhoea, intestinal worms and hepatitis. The World Health Organization estimates that about one-fourth of all communicable diseases in India are water-borne — a number that translates into millions of preventable illnesses each year and a heavy load on the public health system.
Namami Gange Programme
To revive the Ganga, the Union Government launched the National Mission for Clean Ganga and the Namami Gange Programme. Its objectives include — developing sewerage treatment systems in towns; monitoring industrial effluents; developing river fronts; afforestation along the banks to increase biodiversity; cleaning the river surface; developing ‘Ganga Grams’ in Uttarakhand, UP, Bihar, Jharkhand and West Bengal; and creating public awareness so that pollutants are not added even in the form of religious rituals.
9.2 Air Pollution — The Smog of Modern India
Air pollution? is defined by NCERT as the addition of contaminants — dust, fumes, gas, fog, odour, smoke or vapour — to the air in substantial proportion and duration that may be harmful to flora, fauna and property. With increasing use of varieties of fuels as a source of energy, there is a marked increase in emission of toxic gases into the atmosphere. The three big sources are combustion of fossil fuels, mining and industries.
Major Air Pollutants & Their Sources
The combustion process releases several pollutants together. Each has its own pathway and its own health impact.
| Pollutant | Major Sources | Principal Health / Environmental Effect |
|---|---|---|
| SO₂ — Sulphur dioxide | Coal-fired power plants, oil refineries, smelters | Respiratory irritation; combines with water vapour to form acid rain |
| NOₓ — Oxides of nitrogen | Vehicle exhaust, fossil-fuel burning at high temperature | Smog formation; lung tissue damage; acid rain |
| CO — Carbon monoxide | Incomplete combustion in vehicles, biomass stoves | Reduces oxygen-carrying capacity of blood |
| Hydrocarbons | Petrol and diesel evaporation, oil spills | Photochemical smog; some are carcinogens |
| PM₁₀ / PM₂.₅ — Particulate matter | Road dust, construction, brick kilns, stubble burning | Penetrates deep into lungs; cardiovascular and respiratory disease |
| Lead | Earlier from petrol; now industrial smelters | Neurological damage, especially in children |
| Asbestos & Beryllium | Specific industrial processes | Lung fibrosis and cancer |
NCERT emphasises that air pollution causes various diseases related to the respiratory, nervous and circulatory systems. Smoky fog over cities — commonly called urban smog? — is the visible form of this pollution. It is especially harmful to children, the elderly and people already suffering from asthma and bronchitis.
From the NCERT chapter
Air pollution can also cause acid rains. Rainwater analysis of the urban environment has indicated that the pH value of the first rain after summer is always lower than that of the subsequent rains — the first rain washes out the accumulated acidic deposits from the air.
— NCERT, Class 12, Ch.9
The Indian Air Pollution Story — In Numbers
35%
Delhi PM2.5 from transport (winter)
21 of 30
Most polluted cities globally are Indian (typical year)
>400
Delhi peak winter AQI (severe-plus)
100μg/m³
Indian PM10 24-hr standard (CPCB)
The Indian Air Quality Index (AQI?) translates concentrations of eight pollutants into a single number from 0 to 500. The bands are: Good (0-50), Satisfactory (51-100), Moderate (101-200), Poor (201-300), Very Poor (301-400) and Severe (401-500). Cities like Delhi, Lucknow, Kanpur and Patna routinely cross 300 in winter; on the worst nights, the index touches the ‘severe-plus’ band when farm-stubble burning in Punjab and Haryana, lower wind speeds and temperature inversion combine.
Chart 9.1 — Delhi PM2.5 Monthly Average (Indicative µg/m³)
Indicative monthly mean PM2.5 concentration in Delhi NCR. WHO 24-hour guideline is 15 µg/m³ and Indian CPCB annual standard is 40 µg/m³. Note the steep winter peak (Nov-Jan) due to stubble burning, vehicular load, low wind and inversion.
Why Delhi’s Winter Smog Is So Bad — A Geographer’s Reading
Why does north India choke every November? Geography supplies the answer. (i) The Indo-Gangetic Plain is a flat, enclosed basin between the Himalaya and the Vindhya, so pollutants get trapped. (ii) In late October the upper-air winds slow down and a temperature inversion forms — a layer of warm air sits above cooler surface air, preventing vertical mixing. (iii) Punjab and Haryana farmers burn paddy stubble in October-November, releasing large plumes of PM2.5 carried by north-westerly winds towards Delhi. (iv) Diwali firecrackers and the cold-season switch to space-heating add a final spike. The sum of climate, topography and human activity is a public-health emergency every winter.
Explore — The smog of your city
Visit the CPCB ‘Sameer’ mobile app or the IQAir website. Record the daily AQI of your city for one full week. Note the dominant pollutant each day (PM2.5, PM10, ozone or NO₂). Then write a 70-word note relating the daily ups-and-downs to (i) wind, (ii) traffic peaks, (iii) any local construction or stubble fires.
Hint: Most students will see a morning peak (school/office traffic), a dip in the afternoon (when the boundary layer rises and disperses pollution), and a second evening peak (return traffic + cooking-stove emissions). On windy days the AQI usually drops by 30-50 points. After rain, AQI can fall dramatically because raindrops scavenge particulate matter from the air.
9.3 Land Pollution — The Hidden Mountain
Land pollution happens when solids, liquids and gaseous pollutants are added to the soil. The NCERT chapter lists the chief pollutants as human and animal excreta, viruses and bacteria, garbage and the vectors that breed in it, pesticide and fertiliser residues, alkalinity, fluorides and radioactive substances. The sources are improper human activities, disposal of untreated industrial waste, and the over-use of pesticides and fertilisers in agriculture.
Three new categories of land pollutants have grown rapidly over the last two decades:
E-waste
Discarded computers, mobile phones and household electronics. India generated about 3.2 million tonnes of e-waste in 2019, making it the 4th largest e-waste producer in the world. Heavy metals such as lead, mercury and cadmium leach into soil from informal recycling yards.
Plastic Waste
Single-use carry bags, bottles and packaging films. Plastic does not biodegrade for 400+ years; it chokes drains, blocks sewer lines and breaks down into microplastics that enter the food chain.
Hazardous Industrial Waste
Acids, solvents, paint sludge, hospital biomedical waste. Often dumped in low-lying areas or unlined landfills — the toxic leachate contaminates the groundwater for decades.
Chart 9.2 — India E-Waste Generation, 2010-2024 (Million Tonnes, Indicative)
India is now the 4th largest generator of e-waste globally. Less than 25% of this is collected through formal recycling channels — the rest is dismantled in informal yards in Seelampur (Delhi), Moradabad (UP) and Bhiwandi (Maharashtra), exposing workers to lead and mercury.
9.4 Noise Pollution — The Pollution You Can Hear
Noise pollution is ‘the state of unbearable and uncomfortable noise to human beings caused by sound from different sources’. The matter has become a serious concern only in recent years, due to a variety of technological innovations. The NCERT chapter identifies the main sources as factories, mechanised construction and demolition works, automobiles and aircraft. To these are added the periodic but polluting noise of sirens, loudspeakers used in festivals and community programmes.
The level of steady noise is measured by sound level expressed in decibels (dB). Of all the sources, the biggest nuisance is the noise produced by traffic, because its intensity and nature depend on the type of aircraft, vehicle, train, the condition of the road and the condition of the vehicle itself. In sea traffic, the noise is confined to the harbour due to loading and unloading activities. Industries cause noise pollution with varying intensity depending on the type of industry.
Indian Noise-Pollution Standards (CPCB)
| Area Category | Day Limit (06:00-22:00) dB(A) | Night Limit (22:00-06:00) dB(A) |
|---|---|---|
| Industrial | 75 | 70 |
| Commercial | 65 | 55 |
| Residential | 55 | 45 |
| Silence Zone (around hospitals, schools) | 50 | 40 |
Source: CPCB Noise Pollution (Regulation and Control) Rules, 2000.
Noise pollution is location-specific. Its intensity declines with distance from the source — an industrial estate, an arterial road or an airport. It is therefore particularly hazardous in the metropolitan and big cities of India where land-use is mixed and residential colonies often abut highways or factories.
Discuss — Loud festivals or quiet nights?
India is a country of festivals. Loudspeakers, fire-crackers and live music are part of every neighbourhood’s celebrations. At the same time, hospital silence zones, exam-going children and the elderly need quiet nights. As a class, debate the proposition: “The right to celebrate cannot override the right to a peaceful environment.” Frame your argument using the CPCB decibel limits and one Indian Supreme Court ruling you have read about.
Pointers for discussion:
For the proposition: Sleep deprivation, hearing damage and stress on the elderly are well-documented health costs. The Supreme Court in Noise Pollution (V) v. Union of India (2005) banned loudspeakers between 10 pm and 6 am except in ‘auditoriums, conference rooms, community halls and banquet halls’.
Against: Festivals carry cultural and emotional value. A blanket ban on loudspeakers may push them indoors but cannot end celebration; better enforcement of decibel limits and time windows is more practical than prohibition.
Competency-Based Questions — Air, Water, Land & Noise Pollution
Case Study: A high-school geography club from Lucknow visits Kanpur as part of a field trip. They notice three things: (i) the Ganga downstream of the city carries an unpleasant smell and a brown colour; (ii) the air over the leather-tannery cluster has a sharp acrid odour that triggers the asthma of one of their classmates; (iii) the trucks coming out of the tannery yard rumble at over 80 dB measured on the teacher’s phone-app. The students decide to file a small report combining what they have learnt about water, air and noise pollution.
1. According to NCERT Table 9.1, which of the following is NOT a typical source of water pollution?
L1 Remember
Answer: (c) Aircraft engines at high altitude. Aircraft are sources of noise and air pollution, not water pollution. The other three are listed in Table 9.1.
2. Why does the Ganga show its dirtiest stretch downstream of cities like Kanpur and Varanasi rather than upstream of them?
L4 Analyse
Answer: Cities concentrate three pollution loads into a short river stretch: industrial effluents (Kanpur leather tanneries dump heavy-metal-laden water), domestic sewage (millions of household drains discharge raw waste), and cultural waste (offerings, ash and sometimes carcasses). Upstream, the river enters the urban tract carrying its hill-fed dilution capacity intact. After the city, this capacity is exhausted because pollutant inflow exceeds the river’s self-purifying capacity, so chemical and biological indicators worsen sharply.
3. Compare arsenic contamination of West Bengal’s groundwater with fluoride contamination of Rajasthan’s groundwater on (i) source, (ii) population at risk, and (iii) health effect.
L5 Evaluate
Answer: Source: Arsenic in WB-Bihar is naturally released from the alluvial sediments of the Ganga delta when water tables fluctuate; fluoride in Rajasthan comes from hard-rock aquifers and is amplified by over-extraction. Population at risk: Over 38 million in WB-Bihar; tens of millions in Rajasthan and other dry-belt states. Health effect: Arsenic causes skin lesions, peripheral neuropathy and cancers; fluoride causes dental fluorosis and crippling skeletal fluorosis. Both are geogenic rather than industrial — their solution lies in safe alternative sources, deeper-aquifer wells or treatment plants, not factory closures.
4. As an environmental policy advisor, propose a three-step plan to bring the AQI of an Indian metropolitan city below 100 within five years.
L6 Create
Model answer: Step 1 — Combustion control: Phase out 10-year-old diesel vehicles, shift the public bus fleet to electric/CNG, mandate retrofit emission controls in coal plants within a 300-km radius. Step 2 — Combat dust and biomass: Cover all construction sites with mesh, mechanise road sweeping, finance machine harvesters across Punjab and Haryana so that paddy stubble is mulched rather than burnt. Step 3 — Build green buffers: Plant urban forests on every degraded municipal plot, expand metro-rail to choke vehicular demand, and run a real-time AQI alert system that automatically triggers stage-wise restrictions. Co-funded by central, state and city governments, with monthly public dashboards for accountability.
HOT — A factory owner argues that since his unit is ‘just one’ among many polluters, shutting it down will not improve air quality. Argue for or against this position.
L5 Evaluate
Answer: The argument is the classic tragedy of the commons. First, while one factory’s closure may be a small reduction, environmental policy works on the principle of polluter pays — every unit must internalise its own external cost regardless of others. Second, regulators enforce the same emission norms on all factories simultaneously; there is no carve-out for ‘small individual’ polluters. Third, the cumulative effect of thousands of factories is precisely why each one must comply. The honest position would be to install scrubbers and effluent treatment plants — meeting the standard is cheaper than the long-term cost of public health damage and litigation under the Air Act 1981 and Water Act 1974.
Assertion & Reason — Pollution & the Environment
Assertion (A): The Yamuna in Delhi is one of the most polluted river stretches in India.
Reason (R): Delhi extracts large quantities of water upstream and discharges domestic and industrial wastes into the river.
Reason (R): Delhi extracts large quantities of water upstream and discharges domestic and industrial wastes into the river.
Correct: (A) — The Yamuna’s flow is depleted by Haryana and UP for irrigation; the remaining trickle receives a heavy load of Delhi’s sewage and industrial waste. R is the precise explanation of A, captured in NCERT Table 9.2.
Assertion (A): Air pollution can lead to the formation of acid rain.
Reason (R): Oxides of sulphur and nitrogen released by burning fossil fuels combine with atmospheric water vapour to form sulphuric and nitric acid.
Reason (R): Oxides of sulphur and nitrogen released by burning fossil fuels combine with atmospheric water vapour to form sulphuric and nitric acid.
Correct: (A) — The pH of the first rain after summer is consistently lower than subsequent rains, because accumulated SO₂ and NOₓ dissolve in falling raindrops. R explains A precisely.
Assertion (A): Noise pollution is location-specific and its intensity falls with distance from the source.
Reason (R): Aircraft noise is much higher than industrial noise.
Reason (R): Aircraft noise is much higher than industrial noise.
Correct: (B) — Both statements are individually true: noise does decline with distance, and aircraft noise is one of the loudest. But the second statement does not explain the first — the distance-decay property holds for every noise source, not because of aircraft specifically.
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Class 12 Geography — India: People and Economy
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