Now Available: Middle East & Africa Environmental Consulting Services Market Report 2017

Recently published research from Business Research Company, “Middle East & Africa Environmental Consulting Services Market Report 2017 “, is now available at Fast Market Research

Now Available: Middle East & Africa Environmental Consulting Services Market Report 2017 2017-06-14 14:59:43

Countries in the Middle East are diverse and are at different stages of economic development. The economies of most of the countries in the region are highly reliant on oil production. Currently, most of the Middle Eastern countries are focusing to generating revenues beyond the oil industry. Downstream activities of oil industry, construction are the major opportunity areas for the environmental consulting services.

Africa is the second largest and the second most populous continent in the world. It has about 1.1 billion population and 15% of the world’s human population. It has 54 countries including countries such as Nigeria, South Africa, Ghana, and Sudan. Most African countries are republics that operate under a presidential system, although some are governed by military dictators.

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Middle East and Africa environmental consulting services market is the fifth largest in the world. It currently has about 6% share of the global environmental consulting services market. The market in Middle East and Africa grew at a CAGR of 1.8% in the historic period and is expected to grow at a CAGR of 2.7% in the forecast period. This is mainly due to its large presence of oil industry and its adverse effects on environment, which is driving the demand for environmental consulting services market in the region.

Middle East and some countries have in Africa have large presence of oil based polluting industries. There is also rising demand for environmental consulting services in the region due to various ongoing and future infrastructure, mining and power projects being planned in the region. The demand exists for environmental services such as pollution control, removal of pollutants, waste treatment, energy conservation, clean production, recycling and recovery of waste resource. These services are supported by the government’s focus on water recycling and pollution control and to eradicate instances such as oil spillage and fire explosions.

Major areas where there are significant opportunities for environmental consulting services to grow are waste water treatment, oil industry, chemicals, manufacturing and food processing industries.

In 2016, the overall pollution index in major countries in the Middle East region is registered to be higher. Most of the nations in the region are placed between 60-90 indices . Higher pollution levels in the region can be attributed to the oil exploration and related industrial activities which release harmful effluents into the atmosphere. Environmental consultancy firms can focus on providing services to bring down the air and water pollution levels down in the region.

The Environmental Consulting Services Global Market Briefing provides strategists, marketers and senior management with the critical information they need to assess the environmental consulting services sector.

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Where is the largest and fastest growing market for Environmental Consulting Services? How does the market relate to the overall economy, demography and other similar markets? What forces will shape the market going forward? The environmental consulting services global market report from the Business Research Company answers all these questions and many more.

The report covers market characteristics, size and growth, segmentation, regional and country breakdowns, competitive landscape, market shares, trends and strategies for this market. It traces the market’s historic and forecast market growth by geography. It places the market within the context of the wider environmental consulting services market, and compares it with other markets.

* The market characteristics section of the report defines and explains the market.
* The market size section gives the market size ($b) covering both the historic growth of the market and forecasting the future. Drivers and restraints looks at the external factors supporting and controlling the growth of the market.

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Law Enforcement and Firefighting Protective Clothing Fabrics Market, Ambulance/EMT, and Military) – Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2016 – 2024

LONDON, Jan. 11, 2017 /PRNewswire/ — Law Enforcement Protective Clothing Fabrics Market: Overview

Law Enforcement and firefighting protective clothing fabrics are used to manufacture protective clothing for a variety of end-users. Protective clothing, unlike ordinary clothing, do not ignite when exposed to a source of ignition. Protective clothing is used to provide flame resistance, cut resistance, chemical and biological protection to a wide range of application segments including the police, ambulance/EMT, fire service and military. Developed countries dominates the global law enforcement and firefighting protective clothing fabrics market in terms of production and demand. China, India and other emerging countries are expected to provide lucrative opportunities for growth in this market due to increasing military and firefighting applications.

This report analyzes and forecasts the market for Law Enforcement and Firefighting Protective Clothing Fabrics at the global and regional level. The market has been forecast based on revenue (US$ Mn) from 2016 to 2024, considering 2015 as the base year. The study includes drivers and restraints of the global Law Enforcement and Firefighting Protective Clothing Fabrics market. It also covers impact of these drivers and restraints on demand for Law Enforcement and Firefighting Protective Clothing Fabrics during the forecast period. The report also highlights opportunities in the Law Enforcement and Firefighting Protective Clothing Fabrics market at the global and regional level.

Law Enforcement Protective Clothing Fabrics Market: Research Methodologies

The report includes detailed value chain analysis, which provides a comprehensive view of the global Law Enforcement and Firefighting Protective Clothing Fabrics market. Porter’s Five Forces model for the Law Enforcement and Firefighting Protective Clothing Fabrics market has also been included to help understand the competitive landscape in the market. The study encompasses market attractiveness analysis, wherein end-users are benchmarked based on their market size, growth rate, and general attractiveness.

The study provides a decisive view of the global Law Enforcement and Firefighting Protective Clothing Fabrics market by segmenting it in terms of end-users such as police, ambulance/EMT, fire service and military. These segments have been analyzed based on present and future trends. Regional segmentation includes current and forecast demand for Law Enforcement and Firefighting Protective Clothing Fabrics in North America, Europe, Asia Pacific, Latin America, and Middle East & Africa.

The report provides the actual market size of Law Enforcement and Firefighting Protective Clothing Fabrics for 2015 and estimated market size for 2016 with forecast for the next eight years. The global market size of Law Enforcement and Firefighting Protective Clothing Fabrics has been provided in terms of revenue. Market revenue is given in US$ Mn. Market numbers have been estimated based on key end-users of Law Enforcement and Firefighting Protective Clothing Fabrics. Market size and forecast for numerous end-users have been provided in terms of global, regional, and country level markets.

Law Enforcement Protective Clothing Fabrics Market: Competitive Landscape

In order to compile the research report, we conducted in-depth interviews and discussions with a number of key industry participants and opinion leaders. Primary research represented the bulk of research efforts, supplemented by extensive secondary research. We reviewed key players’ product literature, annual reports, press releases, and relevant documents for competitive analysis and market understanding. Secondary research includes a search of recent trade, technical writing, Internet sources, and statistical data from government websites, trade associations, and agencies. This has proven to be the most reliable, effective, and successful approach for obtaining precise market data, capturing industry participants’ insights, and recognizing business opportunities.

The report comprises profiles of major companies operating in the global Law Enforcement and Firefighting Protective Clothing Fabrics market. Key players in the Law Enforcement and Firefighting Protective Clothing Fabrics market are Koninklijke Ten Cate nv (TenCate), Teijin Aramid B.V., National Safety Apparel, W.L.Gore & Associates, Gunei Chemical Industry Co., Ltd. Milliken & Company & Glen Raven, Inc. PBI Performance Products Inc, Solvay S.A. Market players have been profiled in terms of attributes such as company overview, financial overview, business strategies, and recent developments.

Law Enforcement Protective Clothing Fabrics Market: Scope of the Study

Secondary research sources that are typically referred to include, but are not limited to company websites, annual reports, financial reports, broker reports, investor presentations, SEC filings, internal and external proprietary databases, and relevant patent and regulatory databases such as ICIS, Hoover’s, OneSource, Factiva and Bloomberg, national government documents, statistical databases, trade journals, market reports, news articles, press releases, and webcasts specific to companies operating in the market.

We conduct primary interviews on an ongoing basis with industry participants and commentators to validate data and analysis. These help validate and strengthen secondary research findings. These also help develop the analysis team’s expertise and market understanding.

The global Law Enforcement and Firefighting Protective Clothing Fabrics market has been segmented as follows:

Fire Service
Turnout Gear
Wildlands Gear
Station Wear

Law Enforcement and Firefighting Protective Clothing Fabrics Market: Regional Analysis

North America
Rest of Europe
Asia Pacific
Rest of APAC
Latin America
Rest of LATAM
Middle East & Africa
South Africa
Rest of MEA
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To view the original version on PR Newswire, visit:—global-industry-analysis-size-share-growth-trends-and-forecast-2016—2024-300389578.html

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A year in MSF pictures

What’s ailing Namami Gange programme?

Saturday 31 December 2016

Winters are extremely hectic for Sushma Patel, a vegetable grower in Uttar Pradesh’s Chunar town. Her farm is in the fertile plains of Ganga where people grow three crops a year. But this is the only season when she can grow vegetables. And before that, she needs to manually dig out shreds of plastic and wrappers from her one-hectare (ha) farm. “This is all because of the nullah,” she says, pointing at an open drain that runs through her field, carrying sewage from the neighbourhood to the Ganga. “Every monsoon, the drain overflows and inundates the field with a thick, black sludge and plastic debris. We cannot even go near the field as the stench of sewage fills the air,” she says. But Patel has no one to complain to as this is the way of life for most people in this ancient town.

About 70 per cent of the people in Chunar depend on toilets that have on-site sanitation, such as septic tanks and pits. In the absence of a proper disposal or management system, people simply dump the faecal sludge and septage in storm water drains running across the town. These 27 drains eventually discharge the untreated sewage into the Ganga and its tributary, the Jargo. On the way, they contaminate the groundwater and farmlands.

Such rampant discharge of untreated sewage into the Ganga prompted the National Green Tribunal (NGT) to issue show cause notices on May 18, 2016, to Chunar and four other municipalities —Mirzapur, Bhadohi, Fatehpur and Hastinapur—in Uttar Pradesh. NGT had asked the municipa lities to submit their plans to prevent untreated sewage flowing into the river.

Officials are since scrambling to abate the flow of sewage into the Ganga. “We have identified 10 ha along the Ganga to set up a sewage treatment plant (STP) with a capacity of treating 8 million litres of sewage a day (MLD). At present, Chunar generates 6 MLD of domestic sewage which goes directly into the river untreated,” says Shamsher Singh, sanitation inspector of Chunar Municipal Corporation. “We also plan to set up pumping stations at four places. These will intercept the drains and send the sewage to the proposed STP,” Singh says. But there is a problem. The town is surrounded by hills, which makes transportation of sewage to the proposed STP difficult. For instance, a huge drain passes through Aawas Colony, located at the foot of a hill. The municipal council plans to set up a pumping station along the drain. But it is not sure whether the station will be able to pump the sewage across the hill to the proposed STP.

Chunar, Mirzapur, Bhadohi, Fatehpur and Hastinapur are not the only towns along the Ganga struggling to manage their faecal load. Researchers with Delhi-based non-profit Centre for Science and Environment (CSE) say a major portion of the sewage generated by all the settlements along the 2,500-km-long bank of the Ganga ends up in the river—without any treatment.

The sheer volume of the untreated sewage flowing into the Ganga can be gauged from the fact that 25 per cent of the 400 million people living along it depend on on-site sanitation; there are at least 18 million septic tanks and 10 million pit latrines around the main stream of the Ganga, according to the Census 2011. More often than not people dispose of faecal sludge from these tanks and pits without any treatment.

A report on the pollution load in the Ganga, prepared by the Central Pollution Control Board (CPCB) in 2013, states that more than 6,087 MLD of wastewater flows into the Ganga from 138 drains. Experts say domestic sewage is a major constituent of this wastewater. The five states through which the main stream of the Ganga flows— Uttarakhand, Uttar Pradesh, Bihar, Jharkhand and West Bengal—have the capacity to treat only 1,208 MLD of sewage. Not to mention the Ganga is also a receptacle of 501 MLD of industrial wastewater.

The situation is only going to get worse with the implementation of Swachh Bharat Mission, the flagship programme of the Union government that aims to achieve an open defecation-free India by October 2, 2019. Under the mission, the government plans to construct 1.52 million toilets in rural areas along the Ganga and 1.45 million toilets (this includes private and public toilets) in cities that dot the river banks. These toilets will be built with four on-site sanitation technologies—septic tank, twin pits, biotoilet or biodigester.

Infographics: Raj Kumar Singh; Analysis: CSE Water Team (Data source: Various sources)

This means by 2019, over 30 million tanks or pits would have been dug along the Ganga.

A back-of-the-envelope calculation by CSE shows these tanks and pits will produce 180 MLD of faecal sludge and septage. In the absence of a proper management system, this waste will eventually find its way into the Ganga (see ‘Ganga in peril’). Pollution concentration in 180 MLD of septage is equivalent to that of 6,000 MLD of sewage.

The finding of CSE is alarming because the impact of the increasing number of toilets with- out any provision to treat the sludge is palpable across the Ganga. The level of faecal coliform, which indicates the extent of excreta in water, is increasing in the Ganga, and goes beyond the acceptable limit as the river crosses Kanpur in Uttar Pradesh, states the CPCB report. “High coliform levels make the water unsuitable for bathing and drinking,” says Javier Mateo Sagasta, senior researcher with the International Water Management Institute (IWMI), India.

“Unfortunately, faecal sludge and septage management do not find a mention in sanitation programmes like Swachh Bharat Mission,” says Suresh Kumar Rohilla, programme director of urban water management unit at CSE.

The load of faecal sludge and septage from millions of toilets, which are being installed along the Ganga under Swachh Bharat Mission, may defeat the government’s ambitious Namami Gange (National Mission for Clean Ganga). Though the mission has identified varied projects, right from modernisation of ghats to construction of toilets and STPs in 118 target towns and cities, to arrest pollution in the river, it too gives faecal sludge and septage management a miss. “We plan to set up STPs to take care of sewage as well as faecal sludge,” says Shashi Shekhar, secretary with the Union Ministry of Water Resources, River Development and Ganga Rejuvenation. As of now, Namami Gange focuses on treatment of sewage, that too only from class-1 cities (that have over 100,000 population).

So far, the Atal Mission for Rejuvenation and Urban Transformation (AMRUT) is the only programme that requires cities to submit sewage and septage management plan. But it fails on two counts. First, AMRUT is restricted to class-1 cities. Second, it monitors urban local bodies’ perfo rmance based on their sewerage coverage. This discourages the authorities to prepare septage management plan.

“All Central, state and local programmes should recognise faecal waste management as a priority action area along the ongoing efforts to achieve healthy and clean cities in the Ganga basin,” says Rohilla. This is particularly important because a survey of cities along the Ganga shows that the authorities have miserably failed to manage their faecal waste.

Between October and November, CSE resea rchers visited 10 small- and medium-sized cities in Uttar Pradesh, Bihar and West Bengal that provide a snapshot of settlements across the Ganga basin. And the findings are startling. Of the 10 town and cities surveyed, only two (Ramnagar and Bijnor) have sewer lines. But they defeat the purpose as the authorities are yet to set up STPs. At least 60 per cent households in all the 10 towns and cities have toilets with on-site sanitation. But faecal sludge from these facilities are randomly dumped in vacant land, open drains, landfills and near water bodies. In West Bengal’s Bansberia and Bongaon cities, the authorities are in a fix. Almost all households in these cities have built toilets under Swachh Bharat Mission. “We have no idea how to dispose of the enormous volume of sludge these tanks and pits will produce in the coming years,” says Jagabandhu Saha, an official with Bongaon municipality.

Every day, more than 6,000 million litres of wastewater flows into the Ganga from 138 drains. Faecal sludge, with an equal pollution load, will flow into the river after settlements on its banks achieve open defecation-free status (Photo: Vikas Choudhary)

Lose-lose situation

In Uttar Pradesh’s Ramnagar town, 60-70 per cent households are connected to the sewer lines. Between November and June, when people in the region grow wheat, the irrigation department diverts the untreated sewage to farmers after diluting it. In fact, the irrigation department has set up a sewage pumping station and laid pipelines for this purpose. The urban local body has a vacuum tanker for cleaning out the septic tanks and pits. But it has been used only five to six times in two years as most septic tanks are inaccessible and emptied manually. More often than not, the faecal sludge is dumped in nearby fields and low-lying areas, from where it finds its way into the Ganga.

The situation is similar in the state’s Gangaghat town. Since the only vacuum tanker owned by the urban local body is too big to enter the narrow lanes, people contact private septage haulers from Kanpur. Residents say the tankers on their way back dump the untreated sewage at Railway Khanti, a low-lying area, or in the Chamak Ganga, a tributary of the Ganga whose flow has now been blocked due to construction activities. Years of dumping of faecal sludge has turned Railway Khanti and the Chamak Ganga into sewage pools.

Census 2011 states that some parts of Chunar are connected to sewer lines, but CSE researchers could not find any.

In Bijnor, people depend on five private septage haulers for emptying the tanks. Farmers have tied up with these tankers to provide them sludge, which they use as manure. The town is now shifting towards managing faecal waste in a centralised manner. The authorities have laid sewer lines and are setting up an STP. “Pollution in the Ganga can be fixed only through effective management of STPs,” says I P Singh, executive officer of Bijnor urban local body, adding that small STPs are cost-effective and efficient.

In Bihar’s Katihar and Buxar cities, municipal corporations provide vacuum tankers to clean out the septic tanks, but their responsibility ends there. The vacuum tanker of Katihar dumps the faecal sludge in a landfill at Udama Rakha. Since the landfill does not have a protective lining to check percolation of leachate, septage increases the risk of groundwater contamination. In Buxar, the vacuum tanker dumps the faecal sludge in open drains or on vacant land in nearby Darapur and Ahrauli villages.

When CSE researchers visited Bodhgaya, sewer lines were being laid in the town. But since households are yet to be connected to the network, its urban local body continues to clean the septic tanks and dump the septage on agricultural fields, often without the consent of the farmer.

Though Bongaon is likely to achieve open defecation-free status by the end of December 2016, people here have constructed large pits instead of septic tanks. This increases the risk of groundwater contamination with faecal matter. The municipa lity dumps septage in landfills, located next to a pond. This heightens the contamination risk of both groundwater and surface water.

In Bihar's Muzaffarpur city most households have toilets with septic tanks. The municipal corporation collects faecal sludge and releases it in open drains (Photo: Bhitush Luthra)

Cashing in on shit

In two of the cities surveyed, efforts are under way to manage the faecal sludge. Consider Bihar’s Muzaffarpur city. Most households here have toilets with on-site sanitation, and a fertiliser company is cashing in on it. Sona Ganga Fertilizers procures about 8 per cent of the septage from Muzaffarpur. It then dries and composts the waste and sells the biocompost to farmers.

A similar initiative is under way in Bansberia in partnership with the municipality. The municipality collects septage from 47 per cent of its households and transports it to the faecal sludge treatment plant (FSTP), set up under public-private partnership in 2006. A private company, Greenery Biocompost and Animal Farming, which runs the FSTP, recycles the sludge and converts it into biocompost. The company sells 50 kg of the biocompost for Rs 850.

These initiatives show the economic value of faecal sludge and septage, which can be converted into soil conditioners, unlike sewage. In the process, they create employment and encourage resource recovery and recycle. But in the absence of funding, guidelines and expertise, most urban local bodies turn a blind eye to the potential of faecal sludge and septage.

Faecal sludge treatment plant at Bansberia in West Bengal. The company operating the plant recycles faecal sludge and sells the biocompost at Rs 750/50 kg (Photo: Anil Yadav)

Future lies in septage

There is enough evidence to show that faecal sludge and septage management (FSSM) is not only economical as compared to centralised sewerage system but can also be implemented quickly to make cities clean and healthy.

IWMI’s recent study analyses the cost of faecal waste management in all 2,367 cities in the five states along the Ganga. It says effective management of faecal sludge and septage generated in these cities will cost US $2.8 billion (about Rs 18,900 crore), whereas laying sewerage networks and STPs will cost six times more—a whopping $17.4 billion (about Rs 117,400 crore). Besides, installing the sewerage system takes seven to eight years, whereas setting up an FSTP takes one to two years.

Sewerage system is also resource intensive. Unlike septic tanks, sewer networks involve large amounts of water. It can be laid by only those cities that supply 135 litres per capita a day—a dream for even most class-1 cities. “Using water to flush faecal matter is just a waste of precious resource,” says Rohilla. Since sewerage systems require electricity for pumping sewage to running STPs, they are not reliable in small towns and cities that face frequent power outages. On the contrary, FSTPs require little electricity as most are based on natural systems (see ‘Triple bonanza’).

Triple bonanza

Faecal sludge management is not only cost-effective but also generates livelihood opportunities. Some technologies do not even require electricity

Black soldier fly larvae: The technology uses larvae of a benign fly species, Hermetia illucens, to feed on the faecal matter. As the larvae grow and proliferate, they drastically reduce the volume of the waste within a couple of days and convert the dangerous pit material into a potentially useful soil conditioner or fertiliser. Once the larvae attain the prepupae stage, they can be harvested, processed to remove any possible pathogens and sold as animal feed. Because of high fat and protein content, there is an increasing demand for these animal feed.

The technology is gaining ground in South Africa’s Ethekwini municipality. The country, which launched a sanitation programme similar to Swachh Bharat Mission in the 1990s, is innovating ways to dispose of the huge loads of faecal sludge and septage.

Planted and unplanted drying bed: At a faecal sludge treatment plant, sludge is dried naturally in a sealed shallow pond with several layers of fliters and with evaporation facility. While this simple method can produce soil conditioners, one can plant wetland plants on the bed for efficient drying-up. It has an added advantage: the filters do not need to be desludged after each drying cycle. Fresh sludge can be directly applied onto the previous layer as the plants and their root systems maintain the porosity of the filter. Compared to unplanted drying beds, planted drying beds (also called humification beds), require desludging only once every five to 10 years and the removed sludge is a nutrient-rich soil conditioner.

While Ghana has experimented with unplanted drying bed, planted drying bed is popular in Bangkok.

Small wonder, several developing countries in Asia are taking steps to strengthen septage management. Consider the Philippines. About 40 per cent of the country’s population (including 85 per cent of the people in capital city Manila) use toilets that have septic tanks. Septage management is a main component in its Clean Water Act of 2004. The health department has also issued a manual guiding implementation of septage management programmes. Cities, such as Marikina and Dumaguete, have issued ordinances requiring regular desludging of septic tanks and have set up new FSTPs. In Malaysia, desludging at regular intervals is a must under federal law.

While India can follow in on the footsteps of these countries, it must ensure that people install on-site sanitation technologies suitable to the region’s geology. For example, people in Goa say none of the four sanitation technologies promoted under Swachh Bharat Mission is suitable for the region. The state receives heavy rainfall, has riverine areas, a high water table and a long sandy coastline. This makes it easy for faecal matter to seep through these twin pits and contaminate the groundwater. Septic tanks with soak pits also do not work as the partially treated effluent leaches through the soak pits. Biodigesters and biotoilets maybe suitable for the region, but they are expensive and people lack skills to construct, operate and maintain these toilets.

“We have received reports from Agra, West Bengal and various other places that biotoilets fail to perform. People who had built toilets based on the technology are now abandoning them. The technology is now under scanner,” says Rohilla. He says a septic tank designed as per standards in itself provides primary treatment to sewage. Care needs to be taken to ensure that manual scavenging is not promoted, he adds.

Connecting health issues with pollution in river


FSSM has its advantages. It is effective in unplanned areas—a common phenomenon in all towns in the Ganga basin. It can work seamlessly with sewers. For example, local urban bodies can include faecal sludge management alongside sewerage plan in Master Plans, City Development Plans and Swachh City or City Sanitation Plans.

All they need is guidance to upgrade on-site sanitation systems as per prescribed standards and bye-laws, to regularise private vacuum tankers and to operate and maintain FSTP. They should also be encouraged to tie up with private companies in managing faecal sludge. In Bangladesh, non-profit WaterAid Bangladesh and its partners the Bangladesh Association for Social Advancement are working with the Shakipur municipality to run a co-compost plant that uses both faecal sludge and organic waste to make compost.

Researchers with the IWMI say cities that have sewerage systems in place should set up a plant that can treat both sewage and faecal sludge.

Cities that do not have a sewerage system and have a water supply level above 80 litres per capita a day (lpcd) should have a simplified sewer system to convey effluents from septic tanks, which can then be treated in a decentralised manner. The faecal sludge can be treated at FSTP. Co-composting can also be considered. Cities that have less than 80 lpcd water supply can treat faecal sludge by using microphytes in wetlands. They can also consider co-composting if the municipality collects solid waste.

“More than anything else, public awareness should be created,” says Nagendra Kumar, an official with Gangaghat Nagar Palika Parishad. “We cannot achieve anything without the cooperation of people,” he says. Agrees Rohilla. Ganga can be cleaned and city-wide sanitation can be achieved only if the government, civil society and people recognise faecal sludge management as a complementary solution along with the sewerage system. The need of the day is to connect water, sanitation and public health issues with abatement of pollution in river.

With inputs from Nikita Lamba and Vaishnavi Rathore

Research: Bhitush Luthra, Shantanu Kumar Padhi, Anil Yadav, Amrita Bhatnagar, Bhavik Gupta and Aishwarya Varadharajan

The story has been taken from the print edition of Down To Earth (December 16-31 issue)

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