Environmental issues in India

From Bharatpedia, an open encyclopedia


A satellite picture, taken in 2004, shows thick haze and smog along the Ganges Basin in northern India. More sources of aerosols in this area are believed to be smoke from biomass burning in the northwest part of India, and air pollution from large cities in northern India since the 1980s. Dust from deserts in Pakistan and the Middle East may also contribute to the mix of aerosols.

Template:Pollution sidebar

Solid waste adds to water pollution in India, 2005

There are multiple environmental issues in India. Air pollution, water pollution, garbage, domestically prohibited goods and pollution of the natural environment are all challenges for India. Nature is also causing some drastic effects on India. The situation was worse between 1947 through 1995. According to data collected and environmental assessments studied by World Bank experts, between 1995 through 2010, India has made some of the fastest progress in addressing its environmental issues and improving its environmental quality in the world.[1][2] However, Pollution still remains a major challenge and opportunity for the country.

Environmental issues are one of the primary causes of disease, health issues and long term livelihood impact for India.

Law and policies[edit]

British rule of India saw several laws related to the environment. Amongst the earliest ones were Shore Nuisance (Bombay and Kolkata) Act of 1853 and the Oriental Gas Company Act of 1857. The Indian Penal Code of 1860, imposed a fine on anyone who voluntarily fouls the water of any public spring or reservoir. In addition, the Code penalised negligent acts. British India also enacted laws aimed at controlling air pollution. Prominent amongst these were the Bengal Smoke Nuisance Act of 1905 and the Bombay Smoke Nuisance Act of 1912. Whilst these laws failed in having the intended effect, British-enacted legislations pioneered the growth of environmental regulations in India.

Upon independence from Britain, India adopted a constitution and numerous British-enacted laws, without any specific constitutional provision on protecting the environment. India amended its constitution in 1976. Article 48(A) of Part IV of the amended constitution, read: The State shall endeavour to protect and improve the environment and to safeguard the forests and wildlife of the country. Article 51 A (g) imposed additional environmental mandates on the Indian state.

Other Indian laws from recent history include the Water (Prevention and Control of Pollution) Act of 1974, the Forest (Conservation) Act of 1980, and the Air (Prevention and Control of Pollution) Act of 1981. The Air Act was inspired by the decisions made at Stockholm Conference. The Bhopal gas tragedy triggered the Government of India to enact the Environment (Protection) Act of 1986. India has also enacted a set of Noise Pollution (Regulation & Control) Rules in 2000.

In 1985, the Indian government created the Ministry of Environment and Forests. This ministry is the central administrative organisation in India for regulating and ensuring environmental protection.

Despite the active passage of laws by the central government of India, the reality of environmental quality mostly worsened between 1947 and 1990. Rural poor had no choice, but to sustain life in whatever way possible. Air emissions increased, water pollution worsened, forest cover decreased.

Starting in the 1990s, reforms were introduced. Since then, for the first time in Indian history, major air pollutant concentrations have dropped in every 5-year period. Between 1992 and 2010, satellite data confirms India's forest coverage has increased for the first time by over 4 million hectares, a 7% increase.[3] In August 2019, the Indian government imposed a nationwide ban on single-use plastics that will take effect on 2 Oct.[4]

Possible causes[edit]

Some have cited economic development as the cause regarding the environmental issues. It is suggested that India's growing population is the primary cause of India's environmental degradation. Empirical evidence from countries such as Japan, England and Singapore, each with population density similar to or higher than that of India, yet each enjoying environmental quality vastly superior to India's, suggests population density may not be the only factor affecting India's issues.[5]

Major issues[edit]

Floods are a significant environmental issue for India. It causes soil erosion, destruction of wetlands and wide migration of solid wastes.
Development of carbon dioxide emissions

Major environmental issues are forests and agricultural degradation of land, resource depletion (such as water, mineral, forest, sand, and rocks), environmental degradation, public health, loss of biodiversity, loss of resilience in ecosystems, livelihood security for the poor.[6]

The major sources of pollution in India include the rapid burning of fuelwood and biomass such as dried waste from livestock as the primary source of energy, lack of organised garbage and waste removal services, lack of sewage treatment operations, lack of flood control and monsoon water drainage system, diversion of consumer waste into rivers, using large land area for burial purposes, cremation practices near major rivers, government mandated protection of highly polluting old public transport, and continued operation by Indian government of government-owned, high emission plants built between 1950 and 1980.[7][8][9][10][11]

Air pollution, poor management of waste, growing water scarcity, falling groundwater tables, water pollution, preservation and quality of forests, biodiversity loss, and land/soil degradation are some of the major environmental issues India faces today.[12]

India's population growth adds pressure to environmental issues and its resources. Rapid urbanization has caused a buildup of heavy metals in the soil of the city of Ghaziabad, and these metals are being ingested through contaminated vegetables. Heavy metals are hazardous to people's health and are known carcinogens.[13][14]

Population growth and environmental quality[edit]

Public dumping of garbage alongside a road in Kolkata.

There is a long history of study and debate about the interactions between population growth and the environment. According to a British thinker Malthus, for example, a growing population exerts pressure on agricultural land, causing environmental degradation, and forcing the cultivation of land of higher as well as poorer quality. This environmental degradation ultimately reduces agricultural yields and food availability, famines and diseases and death, thereby reducing the rate of population growth.

Population growth, because it can place increased pressure on the assimilative capacity of the environment, is also seen as a major cause of air, water, and solid-waste pollution. The result, Malthus theorised, is an equilibrium population that enjoys low levels of both income and Environmental quality. Malthus suggested positive and preventative forced control of human population, along with abolition of poor laws.

Malthus theory, published between 1798 and 1826, has been analysed and criticised ever since. The American thinker Henry George, for example, observed with his characteristic piquancy in dismissing Malthus: "Both the jayhawk and the man eat chickens; but the more jayhawks, the fewer chickens, while the more men, the more chickens." Similarly, the American economist Julian Lincoln Simon criticised Malthus's theory.[15] He noted that the facts of human history have proven the predictions of Malthus and of the Neo-Malthusians to be flawed. Massive geometric population growth in the 20th century did not result in a Malthusian catastrophe. The possible reasons include: increase in human knowledge, rapid increases in productivity, innovation and application of knowledge, general improvements in farming methods (industrial agriculture), mechanisation of work (tractors), the introduction of high-yield varieties of rice and wheat among other plants (Green Revolution), the use of pesticides to control crop pests.[16]

More recent scholarly articles concede that whilst there is no question that population growth may contribute to environmental degradation, its effects can be modified by economic growth and modern technology.[17] Research in environmental economics has uncovered a relationship between environmental quality, measured by ambient concentrations of air pollutants and per capita income. This so-called environmental Kuznets curve shows environmental quality worsening up until about $5,000 of per capita income on purchasing parity basis, and improving thereafter.[18] The key requirement, for this to be true, is continued adoption of technology and scientific management of resources, continued increases in productivity in every economic sector, entrepreneurial innovation and economic expansion.

Other data suggest that population density has little correlation to environmental quality and human quality of life. India's population density, in 2011, was about 368 human beings per square kilometre. Many countries with population density similar or higher than India enjoy environmental quality as well as human quality of life far superior than India. For example: Singapore (7148 /km2), Hong Kong (6349 /km2), South Korea (487 /km2), Netherlands (403 /km2), Belgium (355 / km2), England (395 /km2) and Japan (337/ km2).

Water pollution[edit]

The Taj Mahal next to the Yamuna river

India has major water pollution issues. Discharge of untreated sewage is an important cause for pollution of surface and ground water in India, since there is a large gap between the generation and treatment of domestic waste water. The problem is not only that India lacks sufficient treatment capacity but also that the sewage treatment plants that exist do not operate and are not maintained.[19] The majority of government-owned sewage treatment plants remain closed most of the time due to improper design, poor maintenance, or lack of reliable electricity supply, along with severe understaffing. The waste water generated in these areas normally percolates in the soil or evaporates. The uncollected waste accumulates in urban areas, causing unhygienic conditions and releasing pollutants that reach to surface and groundwater.[19]

According to a World Health Organization study,[20] out of India's 3,119 towns and cities, just 209 had partial sewage treatment facilities, and only 8 have full wastewater treatment facilities (1992). Over 100 Indian cities dump untreated sewage directly into the Ganges River.[21] Investment is needed to bridge the gap between 29,000 million litre per day of sewage India generates, and a treatment capacity of mere 6000 million litre per day.[22]

Other sources of water pollution include agriculture runoff and small scale factories along the rivers and lakes of India. Fertilizers and pesticides used in agriculture in northwestern India have been found in rivers, lakes and ground water.[23] Flooding during monsoons worsens India's water pollution problem, as it washes and moves all sorts of solid garbage and contaminated soils into its rivers and wetlands.

Sewage and polluted solid waste mix up with Bidyadhari River, Guma, India 2022

Water resources[edit]

According to NASA groundwater declines are highest on Earth between 2002 and 2008 in northern India. Agricultural productivity is dependent on irrigation. A collapse of agricultural output and severe shortages of potable water may influence 114 million residents in India. In July 2012, about 670 million people or 10% of the world’s population lost power blame on the severe drought restricting the power delivered by hydroelectric dams.[24]

Air pollution[edit]

A rural stove using biomass cakes, fuelwood and trash as cooking fuel. Surveys suggest over 100 million households in India use such stoves (chullahs) every day, 2–3 times a day. It is a major source of air pollution in India, and produces smoke and numerous indoor air pollutants at concentrations 5 times higher than coal. Clean burning fuels and electricity are unavailable in rural parts and small towns of India because of limited and deteriorating infrastructure.

Air pollution in India is a serious issue, with the major sources being biomass burning, fuel adulteration, vehicle emission, and traffic congestion. Air pollution is also the main cause of the Asian brown cloud, which has been causing the monsoon season to be delayed. India is the world's largest consumer of fuelwood, agricultural waste, and biomass for energy purposes. Traditional fuel (fuelwood, crop residue and dung cake) dominates domestic energy use in rural India and account for about 90% of the total. In urban areas, traditional fuel constitutes about 24% of the total. Fuel wood, agricultural waste and biomass cake burning release over 165 million tonnes of combustion products every year.[25][26] These biomass-based household stoves in India are also a leading source of greenhouse emissions, which contribute to climate change.[27]

The annual crop burning practice in northwest India, north India and eastern Pakistan, before and after monsoons, from April and May to October to November, are a major seasonal source of air pollution since the 1980s. Approximately 500 million tons of crop residue are burnt in the open, releasing NOx, SOx, PAHs and particulate matter into the air. This burning has been found to be a leading cause of smog and haze problems through the winter over Punjab, cities such as Delhi, and major population centers along the rivers through West Bengal.[28][29][30] In other states of India, rice and wheat crop residue straw burning in open is a major source of air pollution.[31]

Vehicle emissions are another source of air pollution. Vehicle emissions are worsened by fuel adulteration and poor fuel combustion efficiencies from traffic congestion and low density of quality, high speed road network per 1000 people.[32][33][34] In order to reduce air pollution effects India is introducing hybrid and electric vehicles as per the Faster Adoption and Manufacturing of Electric vehicles in India scheme. While challenges are slowing down the development cleaner combustion fuels are being use in motor vehicles. As of now Delhi Transport Corporation is the world's largest operator of CNG bus fleet. Many Indian cities are testing out with cleaner fossil fuels mostly CNG fuel and renewable biofuels such as biodiesel and E85 blended petroleum. In June 2020, the supreme court promised that in order to improve emissions from vehicles all BS4 vehicles will be upgraded to BS6 standards.

On per capita basis, India is a small emitter of carbon dioxide greenhouse. In 2009, IEA estimates that it emitted about 1.4 tons of gas per person, in comparison to the United States’ 17 tons per person, and a world average of 5.3 tons per person. However, India was the third largest emitter of total carbon dioxide in 2009 at 1.65 Gt per year, after China (6.9 Gt per year) and the United States (5.2 Gt per year). With 17 percent of world population, India contributed some 5 percent of human-sourced carbon dioxide emission; compared to China's 24 percent share.[35][36]

The Air (Prevention and Control of Pollution) Act was passed in 1981 to regulate air pollution and there have been some measurable improvements.[37] However, the 2012 Environmental Performance Index ranked India at 177th position out of 180 countries in 2018,as having the poorest relative air quality out of 132countries.[38] Of the world's 30 most polluted cities, India is home to 21 as of 2020.[39]

Solid waste pollution[edit]

Trash and garbage disposal services, responsibility of local government workers in India, are ineffective. Solid waste is routinely seen along India's streets and shopping plazas. Image shows solid waste pollution along a Jaipur street, a 2011 image.

Trash and garbage are a common sight in urban and rural areas of India. It is a major source of pollution. Indian cities alone generate more than 100 million tons of solid waste a year. Street corners are piled with trash. Public places and sidewalks are despoiled with filth and litter, rivers and canals act as garbage dumps. In part, India's garbage crisis is from rising congestion. India's waste problem also points to a stunning failure of governance.[8] The tourism regions in the country mainly hill stations are also facing this issue in the recent years.[40]

In 2000, India's Supreme Court directed all Indian cities to implement a comprehensive waste-management programme that would include household collection of segregated waste, recycling and composting. These directions have simply been ignored. No major city runs a comprehensive programme of the kind envisioned by the Supreme Court.

Indeed, forget waste segregation and recycling directive of the India's Supreme Court, the Organisation for Economic Cooperation and Development estimates that up to 40 percent of municipal waste in India remains simply uncollected. Even medical waste, theoretically controlled by stringent rules that require hospitals to operate incinerators, is routinely dumped with regular municipal garbage. A recent study found that about half of India's medical waste is improperly disposed of.

Municipalities in Indian cities and towns have waste collection employees. However, these are unionised government workers and their work performance is neither measured nor monitored.

Some of the few solid waste landfills India has, near its major cities, are overflowing and poorly managed. They have become significant sources of greenhouse emissions and breeding sites for disease vectors such as flies, mosquitoes, cockroaches, rats, and other pests.[41]

Waste collection truck in Ahmedabad, Gujarat

In 2011, several Indian cities embarked on waste-to-energy projects of the type in use in Germany, Switzerland and Japan.[42] For example, New Delhi is implementing two incinerator projects aimed at turning the city’s trash problem into electricity resource. These plants are being welcomed for addressing the city’s chronic problems of excess untreated waste and a shortage of electric power. They are also being welcomed by those who seek to prevent water pollution, hygiene problems, and eliminate rotting trash that produces potent greenhouse gas methane. The projects are being opposed by waste collection workers & local unions who fear changing technology may deprive them of their livelihood and way of life.[43]

Noise pollution[edit]

Noise pollution or noise disturbance is the most efficiently changing and disturbing or excessive noise that may harm the activity or balance of human or animal life. The source of most outdoor noise worldwide is mainly caused by machines and transportation systems, motor vehicles, aircraft, and trains.[1][2] In India the outdoor noise is also caused by loud music during festival seasons.Outdoor noise is summarized by the word environmental noise. Poor urban planning may give rise to noise pollution, since side-by-side industrial and residential buildings can result in noise pollution in the residential areas.

Indoor noise can be caused by machines, building activities, and music performances, especially in some workplaces. Noise-induced hearing loss can be caused by outside (e.g. trains) or inside (e.g. music) noise.

High noise levels can contribute to cardiovascular effects in humans and an increased incidence of coronary artery disease.[44] In animals, noise can increase the risk of death by altering predator or prey detection and avoidance, interfere with reproduction and navigation, and contribute to permanent hearing loss.

The Supreme Court of India which is in New Delhi gave a significant verdict on noise pollution in 2005.[45] Unnecessary honking of vehicles makes for a high decibel level of noise in cities. The use of loudspeakers for political purposes and for sermons by temples and mosques makes noise pollution in residential areas worse.

In January 2010, Government of India published norms of permissible noise levels in urban and rural areas.[46]

A Greater adjutant perched on a pile of trash and solid waste in Assam.

Erosion of sands[edit]

In March 2009, the issue of Punjab attracted press coverage. It was alleged to be caused by flying ash ponds of thermal power stations, which reportedly lead to severe birth defects in children in the Faridkot and Bhatinda districts of Punjab. The news reports claimed the uranium levels were more than 60 times the maximum safe limit.[47][48] In 2012, the Government of India confirmed[49] that the ground water in Malwa belt of Punjab has uranium metal that is 50% above the trace limits set by the United Nations' World Health Organization. Scientific studies, based on over 1000 samples from various sampling points, could not trace the source to fly ash and any sources from thermal power plants or industry as originally alleged. The study also revealed that the uranium concentration in ground water of Malwa district is not 60 times the WHO limits, but only 50% above the WHO limit in 3 locations. This highest concentration found in samples was less than those found naturally in ground waters currently used for human purposes elsewhere, such as Finland.[50] Research is underway to identify natural or other sources for the uranium.

Greenhouse gas emissions[edit]

India was the third largest emitter of carbon dioxide, a major greenhouse gas, in 2009 at 1.65 Gt per year, after China and the United States . With 17 percent of world population, India contributed some 5 percent of human-sourced carbon dioxide emission; compared to China's 24 percent share. On per capita basis, India emitted about 1.4 tons of carbon dioxide per person, in comparison to the United States’ 17 tons per person, and a world average of 5.3 tons per person.

Forests[edit]

India had a 2018 Forest Landscape Integrity Index mean score of 7.09/10, ranking it 58th globally out of 172 countries.[51]

See also[edit]

References[edit]

  1. The Little Green Data Book, The World Bank, 2010
  2. Environment Assessment, Country Data: India, The World Bank, 2011
  3. "Global Forest Resources Assessment 2010" (PDF). FAO. 2011.
  4. "Exclusive: India set to outlaw six single-use plastic products on..." Reuters. Retrieved 29 August 2019.
  5. Henrik Urdal. "People vs. Malthus: Population Pressure, Environmental Degradation, and Armed Conflict Revisited". Journal of Peace Research. 42 (4): 417–434. doi:10.1177/0022343305054089. S2CID 145266515.
  6. Environmental Issues, Law and Technology – An Indian Perspective. Ramesha Chandrappa and Ravi.D.R, Research India Publication, Delhi, 2009, ISBN 978-81-904362-5-0
  7. Milind Kandlikar, Gurumurthy Ramachandran (2000). "2000: India: THE CAUSES AND CONSEQUENCES OF PARTICULATE AIR POLLUTION IN URBAN INDIA: A Synthesis of the Science". Annual Review of Energy and the Environment. 25: 629–684. doi:10.1146/annurev.energy.25.1.629.
  8. 8.0 8.1 "Drowning in a Sea of Garbage". The New York Times.
  9. Steve karthik kjournal=International Journal of Environmental Health Research; Tripathi, Anshuman; Mishra, Rajesh Kumar; Bouskill, Nik; Broadaway, Susan C.; Pyle, Barry H.; Ford, Timothy E.; et al. (2006). "The role of water use patterns and sewage pollution in incidence of water-borne/enteric diseases along the Ganges river in Varanasi, India". International Journal of Environmental Health Research. 16 (2): 113–132. doi:10.1080/09603120500538226. PMID 16546805. S2CID 23264273.
  10. Klement Tockner and Jack A. Stanford (2002). "Riverine flood plains: present state and future trends" (PDF). Environmental Conservation. 29 (3): 308–330. doi:10.1017/S037689290200022X. S2CID 18937837.
  11. Sushil and Batra; Batra, V. "Analysis of fly ash heavy metal content and disposal in three thermal power plants in India". Fuel. 85 (17–18): 2676–2679. doi:10.1016/j.fuel.2006.04.031.
  12. "India: Country Strategy paper, 2007–2013" (PDF). European External Action Service, European Union. 2007.
  13. Chabukdhara, Mayuri; Munjal, Amit; Nema, Arvind K.; Gupta, Sanjay K.; Kaushal, Rajendra Kumar. "Heavy metal contamination in vegetables grown around peri-urban and urban-industrial clusters in Ghaziabad, India". Human and Ecological Risk Assessment. 22 (3): 736–752. doi:10.1080/10807039.2015.1105723. ISSN 1080-7039. S2CID 86942832.
  14. Chabukdhara, Mayuri; Nema, Arvind K. "Heavy metals assessment in urban soil around industrial clusters in Ghaziabad, India: probabilistic health risk approach". Ecotoxicology and Environmental Safety. 87: 57–64. doi:10.1016/j.ecoenv.2012.08.032. ISSN 1090-2414. PMID 23116622.
  15. Simon J.L. 1981. The ultimate resource; and 1992 The ultimate resource II.
  16. Antony Trewavas: "Malthus foiled again and again", in Nature 418, 668–670 (8 August 2002), retrieved 28 December 2008
  17. Maureen Cropper; Charles Griffiths. "The Interaction of Population Growth and Environmental Quality" (PDF). The American Economic Review. 84 (2): 250–254. Archived from the original (PDF) on 24 April 2012.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  18. Selden Thomas M. and Song Daqing (1994). "Environmental Quality and Development: Is There a Kuznets Curve for Air Pollution Emissions?" (PDF). Journal of Environmental Economics and Management. 27 (2): 147–162. doi:10.1006/jeem.1994.1031. hdl:10983/22670.
  19. 19.0 19.1 "Evaluation Of Operation And Maintenance Of Sewage Treatment Plants In India-2007" (PDF). CENTRAL POLLUTION CONTROL BOARD, Ministry of Environment & Forests. 2008.
  20. World Health Organization (1992), Our Planet, our Health: Report of the WHO Commission on Health and Environment, Geneva
  21. National Geographic Society. 1995. Water: A Story of Hope. Washington (DC): National Geographic Society
  22. "Status of Sewage Treatment in India" (PDF). Central Pollution Control Board, Ministry of Environment & Forests, Govt of India. 2005.
  23. "Buddha Nullah the toxic vein of Malwa". Indian Express. Archived from the original on 5 October 2012.
  24. Decade of drought: a global tour of seven recent water crises Guardian 12 June 2015
  25. Ganguly; et al. (2001). "Indoor Air Pollution in India – A Major Environmental and Public Health Concern" (PDF). Indian Council of Medical Research, New Delhi. Archived from the original (PDF) on 23 January 2013. Retrieved 25 December 2011.
  26. David Pennise and Kirk Smith. "Biomass Pollution Basics" (PDF). The World Health Organisation. Archived from the original (PDF) on 9 July 2012.
  27. Smith, Kirk R.; Uma, R.; Kishore, V.V.N.; Zhang, Junfeng; Joshi, V.; Khalil, M.A.K. (2000). "Greenhouse Implications of Household Stoves: An Analysis for India". Annual Review of Energy and the Environment. 25: 741–763. doi:10.1146/annurev.energy.25.1.741.
  28. Fires in Northwest India NASA, US Government (2008)
  29. Tina Adler, RESPIRATORY HEALTH: Measuring the Health Effects of Crop Burning, Environ Health Perspect. 2010 November; 118(11), A475
  30. Streets et al. (2003), Biomass burning in Asia: Annual and seasonal estimates and atmospheric emissions, Global Biogeochemical Cycles, 17(4)
  31. Gadde et al., Air pollutant emissions from rice straw open field burning in India, Thailand and the Philippines, Environmental Pollution, Volume 157, Issue 5, May 2009, Pages 1554–1558
  32. "The Asian Brown Cloud: Climate and Other Environmental Impacts" (PDF). United Nations Environmental Programme. 2002. Archived from the original (PDF) on 26 May 2012.
  33. "Urban Air Pollution, Catching gasoline ad diesel adulteration" (PDF). The World Bank. 2002.
  34. "Gridlocked Delhi: six years of career lost in traffic jams". India Today.
  35. "CO2 EMISSIONS FROM FUEL COMBUSTION HIGHLIGHTS, 2011 Edition" (PDF). International Energy Agency, France. 2011. Archived from the original (PDF) on 2 February 2012. Retrieved 19 January 2012.
  36. "Country Analysis Brief: India". U.S. Energy Information Administration. 2011.
  37. "Emissions and Pollution in South Asia". The World Bank. 2010. Archived from the original on 12 April 2011.
  38. "Data Explorer :: Indicator Profiles – Environmental Performance Index". Yale University. 2012. Archived from the original on 12 December 2012. Retrieved 5 September 2012.
  39. Regan, Helen. "21 of the world's 30 cities with the worst air pollution are in India". CNN. Retrieved 26 February 2020.
  40. Kumar, S., Dhar, H, Nair, V. V., Bhattacharya, J. K., Vaidya, A. N. and Akolkar, A. B. (2016). Characterization of municipal solid waste in high altitude sub-tropical regions. Environmental Technology 37 (20), 2627 – 2637. doi: 10.1080/09593330.2016.1158322
  41. "India: Urbanisation, sustainable development and poverty alleviation, INTL 442" (PDF). University of Oregon, USA. Archived from the original (PDF) on 8 May 2013.
  42. "What is waste to energy?". Confederation of European Waste-to-Energy Plants. 2010. Archived from the original on 22 January 2012.
  43. "Indian waste workers fear loss of income from trash-to-electricity projects". The Washington Post.
  44. "Freedom from noise pollution will be true independence (Comment: Special to IANS)". Business Standard India. 29 August 2016.
  45. "Noise Pollution Restricting use of loudspeakers, Court: Supreme Court of India, Justices: Lahoti and Bhan". ECOLEX.
  46. "AMENDMENT To NOISE POLLUTION REGULATION AND CONTROL RULES, 2000 AND SETTING UP OF A NATIONAL NOISE MONITORING NETWORK" (PDF). Ministry of Environment & Forests, Govt of India. Archived from the original (PDF) on 22 December 2018. Retrieved 10 March 2010.
  47. Yadav, Priya. "Uranium deforms kids in Faridkot". The Times of India.
  48. Jolly, Asit. "Punjab disability 'uranium link'". BBC News.
  49. Uranium in Ground Water Ministry of Drinking Water and Sanitation, Government of India (2012)
  50. Atomic Energy Report - Malwa Punjab Uranium Q&A Lok Sabha, Government of India (2012)
  51. Grantham, H. S.; Duncan, A.; Evans, T. D.; Jones, K. R.; Beyer, H. L.; Schuster, R.; Walston, J.; Ray, J. C.; Robinson, J. G.; Callow, M.; Clements, T.; Costa, H. M.; DeGemmis, A.; Elsen, P. R.; Ervin, J.; Franco, P.; Goldman, E.; Goetz, S.; Hansen, A.; Hofsvang, E.; Jantz, P.; Jupiter, S.; Kang, A.; Langhammer, P.; Laurance, W. F.; Lieberman, S.; Linkie, M.; Malhi, Y.; Maxwell, S.; Mendez, M.; Mittermeier, R.; Murray, N. J.; Possingham, H.; Radachowsky, J.; Saatchi, S.; Samper, C.; Silverman, J.; Shapiro, A.; Strassburg, B.; Stevens, T.; Stokes, E.; Taylor, R.; Tear, T.; Tizard, R.; Venter, O.; Visconti, P.; Wang, S.; Watson, J. E. M. (2020). "Anthropogenic modification of forests means only 40% of remaining forests have high ecosystem integrity - Supplementary Material". Nature Communications. 11 (1): 5978. doi:10.1038/s41467-020-19493-3. ISSN 2041-1723. PMC 7723057. PMID 33293507.

Further reading[edit]

External links[edit]

Template:Pollution

Information red.svg
Scan the QR code to donate via UPI
Dear reader, We kindly request your support in maintaining the independence of Bharatpedia. As a non-profit organization, we rely heavily on small donations to sustain our operations and provide free access to reliable information to the world. We would greatly appreciate it if you could take a moment to consider donating to our cause, as it would greatly aid us in our mission. Your contribution would demonstrate the importance of reliable and trustworthy knowledge to you and the world. Thank you.

Please select an option below or scan the QR code to donate
₹150 ₹500 ₹1,000 ₹2,000 ₹5,000 ₹10,000 Other