12 Apr Pollution – Air Biodiversity & its Conservation By LevelUp_Admin1 0 Comments 1832 Views Air Pollution , Biodiversity , Environment , Pollution April 12, 2025 Download PDF < General Studies Home Page Content Pollution and Pollutants Air Pollution CO2 Suspended Particulate Matter (SPM) Carbon monooxide Ozone Nitrogen dioxide SO2
Quantitative Pollutant: These substances are naturally present in environment. They become problematic only when their quantity increase.
Qualitative Pollutant: These are not naturally present in environment and are introduced in environment by human activities. E.g., Fungicide, herbicide etc.
Persistent Pollutant vs Non-Persistent Pollutant
Persistent Pollutants are those pollutants which remain consistent in the environmentfor a long period of time without any change in its original form. (For e.g., nuclear wastes, pesticides, plastics etc.)
Non-Persistent Pollutants are the opposite of persistent pollutants and breakdown in the simple form.
Biodegradable vs non-Biodegradable
Biodegradable pollutants are the pollutants which can be decomposed by micro-organisms.
Non-biodegradable pollutants are those which are not decomposed by microbial action (e.g., plastics, glass, DDT, salts of heavy metals etc.)
Air pollution is contamination of the indoor or outdoor environment by any chemical, physical or biologicalagent that modifies the natural characteristics of the atmosphere: WHO.
Sources of Air pollution:
Vehicular emissions, industrial fuel burning, energy production, forest fires, household combustion etc.
Pollutants of major public health concern include PM, CO, Ozone, NO2, SO2, Smog, Hydrocarbon, CFCs
5 is defined as ambient airborne particulates (including dust, soot, dirt, smoke, and liquiddroplets) that measure upto 2.5 microns in size. These particles include a range of chemical makeupsand come from a range of source.
Main sources include fossil fuel powered vehicles, power generation, Industries, Agriculture andbiomass burning
Chemical reaction between gases can also be a source of PM2.5 This include reactions between: SO2, NO2, Ammonia, Black carbon, Mineral dust, water, volatile organic carbon.
Among criteria pollutants commonly measured in real time, fine particulate matter (PM2.5) is currently understood to be the most harmful to human health. Due to very small size, they can remainsuspended in air for long periods and the microscopicsize allows these particles to be absorbed deep into thebloodstreamupon inhalation.
Exposure to 5 have been linked to negative healtheffects like cardiovascular diseases, respiratory illness, premature mortality, low birth weight, and stroke.
5 can also cause negative environmental impact: Damage to materials and buildings; Acid Deposition; increase ozone levels.
B) PM10
PM10 are suspended coarse particles, either solid or liquid, with a diameter of 10 micrometers or less. For comparison, a human hair is, on average, 50 to 70 micrometers in diameter. They are also sometimes referred to as floating dust or aerosols.
Difference between PM2.5 and PM10
Size: PM2.5 is very fine, and PM 10 is larger and coarser.
Less Harmful: PM10 is less likely to cross from lungs to the bloodstream. Though they can penetrate deep into lungs.
Various sources:
Smoke, Dust, and dirt from unsealed road, construction, landfill and agriculture
Pollen
Mold
Smoke
Industrial sources
Fossil fuel burning
Sea Salt
Health Impact:
Short term – Difficulty breathing; coughing; eye, nose and throat irritation; Chest tightness and pain; Fatigue; General respiratory discomfort.
Long term impact: Heart failure, asthma, heart failure, cancer, adverse birth outcomes etc.
Environmental Impact: Can corrode organic and inorganic material from vegetation to buildings. Painted surfaces, stone, fabrics, metal, and wood can become damaged and discolored.
CO is an odorless, colorless, and tasteless gasproduced by the incomplete combustion of carbon infossil fuelssuch as wood, propane, charcoal, oil, coal or other fuel.
Carbon monoxide Poisoning: It occurs when carbon monoxide builds up in your bloodstream. When too much CO is in the air you’re breathing, your body replaces the oxygen in your RBCs with carbonmonoxide. This prevents oxygen from reaching your tissues and organs.
Science behind this:
Hemoglobin binds carbon monoxide (CO) 200 to 300 times more with oxygen, resulting in the formation of carboxyhemoglobinand preventing the binding of oxygen tohemoglobin due to competition of the same binding sites.
Signs and symptoms of CO Poisoning: Dull headache, weakness, dizziness, nausea or vomiting, shortness of breath, confusion, blurred vision, loss of consciousness etc.
It can particularly be dangerous for people who are sleeping or intoxicated. People may have airreversible brain damage or even die before they realize the problem.
Ozone is a gas composed of three atoms of oxygen (O3).
Key Properties: It is a bluish gas. It is also a major oxidant.
It occurs in both earth’s upper atmosphere and at ground level.
Ozone can be “good” or “bad” for health and the environment depending on where it’s found in atmosphere.
What is Ground Level Ozone Pollution?
Ozone pollution is a secondary pollution and is not emitted by source directly. It is created by chemicalreactions between oxides of Nitrogen (NOx) andVolatile Organic Compounds that are emitted from combustion sources like vehicles, industry, power plants etc. in the presence of sunlight and heat.
It is most likely to reach unhealthy levels on hot sunnydaysin urban environment. It may also reach high level during colder winter months because of high pollution and sunlight.
Since it can also be transported for long distances by wind, it may also impact rural areas.
Unprecedented Ozone Levels have made Delhi Air More Toxic: CSE analysis (June 2022)
Why increasing in Delhi
High level of pollution, with high sunshine and high ambient temperatures.
Negative Impact of Ozone Pollution
Health Impacts -> Breathing problems, chest pain, cough, throat irrigation; Further people with certain genetic conditions, and people who have lower intake of Vitamin C and Vitamin E are at greater risk of Ozone exposure.
Environmental Impact –> impact sensitive vegetation during growing season
Monitoring of Ozone
NAAQS (National Ambient Air Quality Standards) by CPCB measures Ozone
AQI and SAFAR measurements also has listed ozone as a pollutant which is regularly measured.
Physical features: It is a deep red-orange gas and when released into the air, it is seen as a reddish-brown haze. It has a pungent and acrid odour.
NO2 is a major contributor in the formation of Smog and a precursor to many harmful secondarypollutants, including ozone and particulate matter. It is highly reactive with other chemicals and is strong oxidizing agent.
Sources of NO2
Natural Sources:
Lightning Strikes
Volcanoes
Oceans
Biological decay
Manmade sources:
Combustion creates oxides of nitrogen, a major portion of which is nitrogen dioxide. When vehicles emit oxides of nitrogen, 90-95% of the emissions are nitricoxide (NO). However, nitric oxide quickly oxidizes in outdoor air when reacting tooxygen, ozone, and volatile organic carbons (VOCs) to form nitrogen dioxide.
It is both a primary and secondary pollutant.
As primary pollutant, NO2 is emitted in limited amounts through
It is also a secondary pollutant as it can be formed through oxidation. Nitrogen dioxide further oxidizes into Nitric Acid (HNO3), which can enter the environment through the ground as droplets or nitrate containing particles.
SO2 is a colorless gas which has a nasty, sharp smell. It reacts with other substances to form harmfulcompounds, such as sulfuric acid, sulfurous acid, andsulfate particles.
Main Sources – Burning of Fossil fuels and ships, locomotivesusing furnace oil/ heavy oil; Other small sources are – industrial processes like extracting metal from ore; nature sources such as volcanoes.
Why Sulphur dioxide pollution is problematic?
Health Issues: Respiratory diseases; contribute to PM pollution.
Environmental Issues ->
Harm trees and plants -> Damaging foliage and decrease growth of trees and
ACID Rain -> harms sensitive ecosystem
Damage Cultural Heritage
Deposition of sulfur particles may cause discoloration and damage of monuments, statues etc.
The fine particles may reduce visibility (Haze)
India has emerged as the largest SO2 emitter in the world: NASA data.
India has highest number (more than 15%) of all anthropogenic SO2 hotspots in the world detected by the Ozone Monitoring Instrument (OMI) satellite. These include Singaruli, Nevyeli & Chennai, Talcher & Jharsuguda, Korba, Kutch etc.
Key reasons for High Sulphur pollution in India
Nearly all the SO2 emission in India comes from coal burning power plants which are the major source of energy for India.
The vast majority of power plants in India lack flue-gas desulfurization technology to reduce their air pollution.
Note: Flue Gas Desulfurization (FGD) is a set of technologies used to remove SO2 from exhaust gas of fossil fuel based power plants.
Benzene (C6H6) is an aromatic, organic compoundwith a single six-member unsaturated carbonring. It is clear, colorless, volatile, highly inflammable liquid with a characteristic order and a density of 874/m3.
Benzene in air mostly occurs in vapor phase, with residence times varying between 1 day to twoweeks, depending on the environment, the climate and the concentration of other pollutants.
It is an air pollutant emitted from gasoline stations, motor vehicle exhausts and fuelevaporation, the burning of coal and oil, and various other sources. Urban areas generally have higher ambient air concentration of benzene than other areas.
Indoor sources of benzene pollution are material used in construction, remodeling, anddecorating. Benzene is also present in particle board, furniture, plywood, fiberglass, flooring adhesives, paints, wood paneling, paint removers etc. Therefore, new buildings or recently decorated indoor environments have been associated with high concentration of benzene frommaterials and furnitures. Use of fuel for space heating like coal, wood, gas, Kerosene, LPG etc. also produce benzene.
Negative Health Impacts of Benzene
Cancer, damage to immune system, neurological, reproductive or developmental issues.
In addition of being an air pollutant, it may also pollute water.
Key recommendations
Installation of vapor recovery systems at the fueling stations
Retrofitting of diesel vehicles with particulate filters to improve air quality.
Stringent action against industrial units that don’t comply with emission norms.
Retrofitting of emission control devices of generators and replacing diesel generators with gas- based ones.
Promoting battery operated vehicles and banning old diesel vehicles in a phased manner, greening of open areas, and creation of green buffers along traffic corridors.
Ammonia is a colorless gas with characteristics pungent odor.
Natural sources include decaying organic matter and animal waste.
Manmade sources include fertilizer manufacturing, waste disposal sites, industrial processes etc.
It doesn’t last long in environment and thus doesn’t bio-accumulate.
Applications
80-90% of ammonia all over the world is used for making fertilizer (ammonium nitrate is an important nitrogen fertilizer)
It is a precursor of various nitrogenous compounds. Virtually, all synthetic nitrogen compoundsare derived from ammonia.
It is also used in making household cleaners, plastics, dyes, pharmaceuticals etc.
It is an anti-septic and is used in food preservation industry.
Scientists are also experimenting with using ammonia as a storage of renewable energy. (Nitrogen gas and water use energy to convert into Ammonia). Later Ammonia can be used a fuel in the fuel cell.
Ammonia Pollution
Majority of airborne ammonia comes from fertilizers.
Ammonia can also contribute to formation of PM2.5 (ammonia combines with VOC, NOx, SO2 etc. to form PM2.5)
Health Impacts:
At higher concentration ammonia is toxic, caustic, and hazardous. Exposures at high levels of ammonia can be irritating to a person’s skin, eyes, throat,lungs, and cause coughing and burns.
Long term health concerns associated with Ammonia exposure include – severe cardiovascularand respiratory effects, decreased lung function, asthma aggravation, premature death etc.
Environmental Impacts -> Eutrophication, Soil Acidification; biodiversity loss -> promote species which prefer nutrient fueled growth to outcompete other species.
Indo-Gangetic Plain Global Hotspot of atmospheric Ammonia: Study by IIT KGP (Dec 2020)
The Indo-Gangetic Plain is a global hotspot of atmospheric ammonia.
Reason: Intense agri activity and a lot of fertilizer use and production
Atmospheric Ammonia has a positive correlation with Fertilizer use, hot weather (hightemperature supports volatilization) and fires.
It has a negative correlation with total precipitation as wet deposits helps in the removal of ammonia.
Water Pollution
An ammonia concentration of upto 5 ppm (BIS) is maximum limit for drinking water. But, if the ammonia concentration is more than 1 ppm, it would negatively impact our health in long run. Similarly, ammonia concentration of more than 1 ppm in water bodies is dangerous for fishpopulation.
High Ammonia Concentration in Yamuna River is regularly disrupting water supply in
For g., in July 2020, the ammonia concentration in Yamuna River reached 3 ppm. This led to reduction of water supply from Yamuna for Delhi, as Delhi Jal Board doesn’t havetechnology to treat this high concentration of water.
Why ammonia pollution is so high?
Industrial units of Sonipat and other drains joining the river along the way may be contributing to this.
Way Forward – Precision agriculture; Regulation of discharge; Reducing Nitrogen feed to animals; Improving water treatment technology; maintaining ecological flow of water.
Smog is a kind of air pollution, originally named for the mixture of smoke and fog in the air.
Classical smog results from the large amount of coal burning in the area and is caused by mixture of Sulphur dioxide and smoke.
Today, most of the smog that we see is Photochemical Smog (or ground level Ozone). It is produced when Nitrogenoxides in presence of sunlight react with Volatile Organic Compounds (VOCs) in the atmosphere.
Nitrogen oxides come from car exhaust, coal power plants, and factory emissions.
VOCs are released from petrol, paints, and many cleaning
When sunlight hits these chemicals, they form airborne particles and ground-level Ozone or Smog.
Harmful impacts of SMOG
Health Impacts: Ground level ozone, SO2, NO2, CO are especially harmful for senior citizens,children, and people with heart and lung conditions such as bronchitis and Asthama.
By decreasing visibility, it slows down traffic and increases the chance of
Smog also negatively affects the aesthetics of the city by making sky brown and gray.
Supreme Court verdict:
The Supreme Court in Nov 2019 asked the CPCB and the Delhi government to come up with aroad map on installing smog towers in the NCR to combat air pollution. In Jan 2020, the SC directed that the two towers should be installed by April as a pilot project.
Components of Delhi’s first Smog tower by Government of Delhi:
The tower uses a ‘down draft air cleaning system‘ developed by University of Minnesota.
Polluted air is sucked in at a height of 24 meters, and filtered air is released at the bottom of thetower, at a height of about 10 meters from the ground.
When the fan at the bottom layer operates, the negative pressure created sucks in the air fromthe top. The ‘macro layer’ in the filter traps particles of 10 microns and larger, while the ‘microlayer’ filters smaller particles of around 0.3 microns.
This method is different from the ‘Updraft system‘ – in which air is sucked in from the ground and is propelled upwards by heating and Filter air is released at the top of the tower.
Expected Impacts
Computational fluid dynamics modelling by IIT Bombay suggest that towers could have animpact on air quality of upto 1 KM.
Criticism
Experts say that there isn’t enough evidence to show that Smog towers work.
An aerosol is a mixture of tiny particles suspended in a gas, typically air. This particle can be solid, liquid, or a combination of both. These particles can range in size from a few nanometers to several tens of micrometers and can be produced naturally or by human activities.
Examples of natural aerosols include dust, pollen, sea salt, and volcanic ash.
Examples of Human made aerosols include smoke, soot, exhaust fumes from vehicles, and particles generated by industrial processes like mining and manufacturing. They include PM2.5 and PM10.
Impacts that aerosols can have:
On Human Health: they may cause respiratory problems and exacerbating heart disease.
On Environment: They can contribute to climate change by altering the balance of radiation in the atmosphere and affecting cloud formation.
Aerosol Optical Depth (AOD):
It is a measure of how much atmospheric aerosols, such as smoke, dust, and pollution, are scattering and absorbing sunlight.
It is typically measured using specialized instruments that detect the amount of light thatis scattered or absorbed by aerosols in the atmosphere.
It is the quantitative estimate of the aerosol present in the atmosphere, and it can be proxy measurement of PM2.5.
The value of AOD range from 0 and 1.0 indicatingcrystal-clear sky with maximum visibility whereas a value of 1 indicates very hazy conditions.
AOD value less than 0.3 falls under green zone (safe), 0.3-0.4 is the blue zone (less vulnerable), 0.4-0.5 is orange zone (vulnerable) while over 0.5 is the red zone (highly vulnerable)
Aerosol Pollution in West Bengal and Bihar (Nov 2022)
A study by Bose Institute in Kolkata as revealed that aerosol pollution in WB is anticipated torise by 8% and continue to remain in the “highly vulnerable” red zone for aerosol pollution. This is the second highest forecasted aerosol pollution level in the country after Bihar.
India’s regional weather patterns and topography makes the country highly vulnerable toaerosol pollution.
Why?
West Bengal receives Indo-Gangetic Plain air pollution outflows and its local emissions have put WB in the highly vulnerable zone.
Fly ash is a coal combustion byproduct produced in coal based thermal power plants. It refers to ash that is driven out of coal fired boilers together with the flue gases.
In modern coal fired power plants, fly ash is captured by electrostatic precipitatorsor otherparticle filtration equipment before the flue gas reaches the chimney.
The composition of fly ash varies considerably, but all fly ash includes substantial amount of Silicon di oxide (SiO2), Aluminium oxide (Al2O3) and Calcium oxide(CaO), the main mineral compounds in coal-bearing rock strata.
Note: The ash that falls to the bottom of the boiler is called bottom ash.
Key characteristics of fly ash
Harmful for human health: Fly ash contains toxic constituents like lead, cadmium, chromium,arsenic which can be very dangerous for human health. They contribute heavily to particulate matters in air and cause lung problems.
Bad for environment
Toxic content results in both soil pollution and water pollution (toxic leaching)
Affects large land area.
If fly ash is not captured at the power plant itself, it spreads easily through air and affects large land area.
It is a pozzolan, a substance containing aluminous and siliceous material thatforms cement in the presence of water. Hence it can be used in construction process.
Reducing Fly Ash pollution
Washing the coal at its place of origin is an important step which ultimately reduces the amount of ash being produced.
Increasing R&D, for enhancing the efficiency of power plants, would also help in reducing the ash content.
Capturing fly ash before it is released in air by Chimney using various types of precipitators.
Where can the captured fly Ash be used?
Cement industry uses Fly Ash in the manufacturing of Portland Pozzolana Cement.
Recently, scientists at IIT-Hyderabad have found ways to turn fly ash into products likepaints, textile coatings
It can also be used fly ash bricks/blocks/ and tiles manufacturing, road embankments construction etc.
Fly ash may also be utilized in agriculture as soil conditioners.
It is also used as a substitute of soil/sand for reclamation of low-lying areas.
In mining it can be used for backfilling of mines.
Steps taken to promote the use of Fly Ash?
Various notification for fly ash utilization since 1999
The 2016 notification calls for every agency engaged in construction activity within a radius of 300 km of coal-based thermal power plant to use ash-based products for
It also mandates the use of ash-based bricks or products in all government schemes andprograms.
Maharashtra is the first state to have a Fly Ash Utilization Policy. It is also looking to export flyash to countries like Singapore and Dubai where it is in demand.
GST rates on fly ash and its products have been reduced to 5%.
Launching of ASHTrack Mobile App for better management of fly ash produced by thermal power plant in Feb 2018.
It will act as an interface between fly ash producers (thermal power plants) and potential ash users such as road contractors, cement plants etc and thus will help in increasing theutilization of fly ash being produced at coal based thermal power plants.
Indoor Air Pollution or Household Pollution is the air pollution whose source lies within the household. Various recent studies have found that indoor PM2.5 level in most Indian households is much higher than the outdoor PM2.5 concentration of the respective geographic area.
Causes:
Use of the traditional biomass (Cow dung cake, firewood, coal etc.) for cooking is the leadingcause of air pollution.
Burning fuels such as dung, wood, coal in inefficient open hearth produce a variety of health-damaging pollutants, including particulate matter, methane, CO, polyaromatic hydrocarbon andVOCs.
These pollutants may further accumulate in the indoor environment if the indoor air is not wellventilated.
Products for household cleaning and maintenance, personal care, or hobbies.
Broken CFLs, Tubelights etc.
Increased penetration of closed ventilation due to Air-conditioners etc. makes situation worst.
Outdoor sources such as Radon, Pesticides, outdoor air pollution.
Health Impacts
Household air pollution is responsible for 3.2 million deaths per year in 2020.
Household air pollution leads to non-communicable diseases including stroke, ischaemic heartdisease, chronic obstructive pulmonary disease (COPD) and lung cancer.
The most common effect of IAP is called sick building syndrome, in which people experienceuncomfortable or acute health effects such as irritation of nose, eyes and throats, skin ailments,allergies and so on.
Key steps being taken by government.
RAISE initiative.
Unnat Chulha Abhiyan – By Ministry of New and Renewable Energy for providing a clean cooking energy solution with a view to reduce consumption of fuel wood with higher efficiency and low emissions.
PM Ujjwala Yojna
A) RADON (Rn222)
It is an odorless, invisible, radioactive gas, naturally released from rocks, soil, and water.
It is a noble gas and thus doesn’t react chemically with other substances.
It is formed by decay of uranium and thorium in the earth’s crust.
It can seepintobuildings and accumulate to dangerouslevels, especially in areas with poorventilation.
Harmful Impacts:
Carcinogen: It can cause lung cancer.
In USA, radon is the leading cause of lung cancer after
The risk of developing lung cancer from radon exposure depends on the level of radon in air, theduration of exposure, and whether or not the person is smoker.
Note: For smokers the risk is higher as smoking can damage the lungs and make them moresusceptible to the harmful effects of radon.
Detection of Radon:
Since, radon is colorless, odorless gas, the only way to know if the building has higher levels ofradon is to test for it.
The test is relatively easy and inexpensive, and it can be done by homeowners andprofessionals.
It is a type of coke derived from oil refining process. It is the final carbon-rich solid material fromthe bottom of the barrel after refining of heavy oils.
Coking Process: In petroleum coker units, residual oils from other distillation processes used in petroleum refining are treated at high temperature and pressure leaving petcock after driving off gases and volatiles and separating off remaining light and heavy oils.
Properties
Petcoke is 90% carbon and emits 5-10% more carbon dioxide (CO2) than coal on a per- unit-energy basis when it is burned.
As they have higher energy content, they emit between 30-80% more CO2 than coal per unit weight.
It also contains higher sulfur contentwhich makes it burning more polluting.
It is cheaper and burns hotter than coal.
Used less in western countries.
It’s higher sulfur content makes it a less attractive fuel in US and thus power hungry India becomes an easy export destination.
Impact of use of petcock in India
India is the largest user of the Pet coke.
It is making a bad situation worse in India due to its higher CO2 and Sulfur emissions.
Ban on Pet Coke Import as fuel (Aug 2018)
DGFT has banned import of Pet-Coke as fuel.
Import is allowed for only Cement, Lime Kiln, Calcium carbide and gasification industries, when used as feedstock or in the manufacturing process of actual condition.
Fuel oil/ Heavy Oil/ Furnace Oil is the heavier fraction obtained from petroleum distillation.
Note: Fractional Distillation
Crude oil is separated into fractions by fractional distillation. The fractions at the top have lower boiling points than the fractions at the bottom.
All the fractions are processed further in refining units.
Bunker Fuel is the fuel used aboard vessels (heavy ships). Generally the heaviest variety of oil i.e. fuel oil is used there. It is also known as marine fuel oil.
Some features of heavy fuel oil:
Heavy fuel combustion products remain high inNOx, Sox, Particulate matter and CO2.
It has high viscosity when compared to Diesel, Kerosene and Petrol. To be used as fuel it’s viscosity should be less and therefore it needs to be kept at higher temperature. It is also mixed with lighter fuel (e.g. diesel) to reduce itsviscosity.
In case of oil spills heavy oil is more aggravating in nature because:
Marine fuel is hazardous and very toxic to marine life.
It evaporates at a slower pace when compared to other fuel (petrol, Kerosene, diesel etc) and thus remain in water for longer period impacting marine diversity more.
Despite the above limitations the use continues because of the cheap price and large availability (as it keeps getting produced in oil refineries)
In Sep 2021, WHO revised the air quality This was the first major update to the standards in 15 years.
Why was there a need of update?
New studies have found that even smaller quantity of pollutants was harmful for human beings.
Therefore, WHO has strengthened nearly all pollutant standards in comparison to the quality guidelines established in 2005 (published in 2006)
Expected Impact: If the target levels are implemented and achieved by governments, it would lead to saving of lakhs of lives.
The new guidelines recommend air quality levels for 6 pollutants, where evidence has advanced themost on health effects from exposure.
Recommended 2021 AQG levels compared to 2005 air quality guidelines
Pollutant
Averaging Time
2005 AQGs
2021 AQGs
PM2.5, µg/m³
Annual
10
5
24-hour^a
25
15
PM10, µg/m³
Annual
20
15
24-hour^a
50
45
Ο3, µg/m³
Peak season^b
-
60
8-hour^a
100
100
ΝΟ2, µg/m³
Annual
40
10
24-hour^a
-
25
SO2, µg/m³
24-hour^a
20
40
CO, mg/m³
24-hour^a
-
4
Expected impact of the new guidelines:
Spur greater global reactions in pollution emissions.
Contribute to fight against climate.
Note: These guidelines are not legally binding on any But, countries and legislative bodiesregularly refer to WHO guidelines when setting airborne pollutant control legal policy.
Implications for India
As per the new WHO guidelines, almost the entire India, specially the Urban areas would nowbe considered polluted for entire year.
