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Arsenic has been discovered in Pakistan’s groundwater: This will affect India too

Charu Bahri

The testing of wells in the valley of the Indus and its tributaries in Pakistani Punjab has revealed that some 50 to 60 million people living in that area are potentially at risk of arsenic-contamination, according to this August 2017 study published in the global journal Science Advances.

“Since the area of high risk extends directly to the border, it likely passes into Indian Punjab,” said Joel Podgorski, groundwater assessment platform project coordinator at Eawag, the Swiss Federal Institute of Aquatic Science and Technology. He was the lead author of this research.

The study lists these arsenic hotspots in Pakistan in two representative maps — this showing the level of arsenic in groundwater tested and this the probability of increased arsenic concentrations across Pakistan.


Left: The testing of wells in Pakistan revealed which are contaminated with arsenic. This map shows the level of arsenic in groundwater across the valley of the Indus and its tributaries in Pakistani Punjab where some 50 to 60 million people were found to be potentially at risk of arsenic-contamination. Eawag, the Swiss Federal Institute of Aquatic Science and Technology led this study. Right: This map shows the probability of increased arsenic concentrations across Pakistan. Many of the hotspots border India, which highlights the need for the testing of wells in Indian Punjab. Arsenic-contaminated groundwater discovered in Pakistan’s Punjab province during a recent study could affect those living in the bordering areas in India too.

The testing of wells in Pakistan revealed which are contaminated with arsenic. (Right): This map shows the probability of increased arsenic concentrations across Pakistan.


Arsenic is one of the 10 chemicals classified as a public health concern by the World Health Organization (WHO). This is because it can slowly poison the body, potentially causing skin lesions, damage to the peripheral nerves, gastrointestinal ailments, diabetes, renal (kidney) toxicity, cardiovascular disease and cancer.

With this new find, the number of people potentially affected by arsenic-contaminated aquifers globally has increased by roughly one-third, from 150 million people to over 200 million.

At least half of the people who were so far known to be at risk of arsenic contamination live in the Ganges-Brahmaputra basins of Bangladesh and India (West Bengal, Bihar, Jharkhand, Uttar Pradesh, Assam, Manipur and Chhattisgarh).

Punjab’s cancer crisis and arsenic

In recent years, India has also become aware of the contamination of aquifers in Punjab with arsenic and heavy metals such as uranium and mercury. The telltale sign is the alarming increase in cancer cases in southwest Punjab’s fertile Malwa region, comprising Mansa, Faridkot, Moga and other districts.

In a 2007 zonal groundwater study in Punjab, every single sample drawn from aquifers of the aridic southwestern region had an arsenic concentration higher than the WHO-prescribed 10 micrograms per litre (µg/l) cut-off for drinking water.

Arsenic concentrations ranged from 11.4 µg/l to 688 µg/l and averaged 76.8 µg/l, which is 53 percent higher than the upper permissible limit (50 µg/l) for drinking water established by India’s Central Groundwater Board.

Two other zones in other parts of Punjab had lower arsenic concentrations, averaging 23.4µg/l and 24.1µg/l, respectively, but fared hardly better in water quality for drinking purposes. Barely 3 percent and 1 percent of the samples from those zones met the WHO-prescribed safe norm.

But the Central Groundwater Board’s state groundwater profile for Punjab lists only Amritsar, Taran Taran, Kapurthala, Ropar and Mansa as areas of concern for arsenic contamination. So Podgorski’s study is significant because it highlights the pressing need for closer monitoring of groundwater in other parts of the state and the need for safe drinking water campaigns.

Testing water samples from wells is the only way to know which are affected, whether in Pakistan or India, said Podgorski.

Prevention is vital: Chronic poisoning has no cure

Saroj Arora, a professor of botanical and environmental sciences, Guru Nanak Dev University, Amritsar, has studied arsenic contamination in Punjab. Arora said controlling the source of arsenic contamination which happens due to anthropogenic causes or human activity is more important than trying to remedy arsenic contamination in humans or in the environment.

Chronic arsenicosis or arsenic poisoning has no cure per se. Although switching to clean water can improve arsenic-induced skin lesions, said Debendranath Guha Mazumder, a member of the core committee of the task force on arsenic for the government of West Bengal.

Take the example of Tofijul Ali, 39, a small contractor, tea grower and member of the panchayat of Kachari, a village in Jorhat district, Assam.

Ali had been suffering from frequent bouts of gastric pain: An early symptom of arsenic contamination. And he wasn’t the only one in his village. His daughter and many other children studying at the Melamati Government School were similarly afflicted.

When headmaster Anant Khanikar investigated the matter —  with the help of a local engineer and member of Arsenic Knowledge and Action Network — he learnt that the tubewell water his pupils and many villagers were drinking was contaminated with arsenic.


Tofijul Ali. Image courtesy: Tofijul Ali

“A doctor treated us for the pain but it did not work,” Ali told IndiaSpend.

Ali and his daughter switched to drinking harvested rainwater in 2012. Soon after, they made a full recovery.

Jorhat is one of many districts across India where the people simply do not know that they are being slowly poisoned.

A high protein diet and selenium, vitamin (A, B complex, C, E) and antioxidant supplementation can speed up recovery from arsenic-induced skin lesions, according to Arora.

Arsenic seeps into the food chain

In the 1970s, Bangladesh, suffering from bacteria-laden surface water, installed tubewells to obtain drinking water.

A similar move in West Bengal eventually led to India’s first-known case of arsenic poisoning: A patient who developed skin lesions, in 1983 in Kolkata.

But even if you purify drinking water, arsenic in groundwater used to irrigate crops could make its way into the food chain, Arora pointed out.

In Punjab, agricultural inputs such as pesticides, fertilisers and agro-chemicals and effluents from thermal plants have also been blamed for the arsenic in the groundwater. Awareness campaigns to educate farmers about safe agro-chemicals and stringent control on industrial effluents are badly needed, Arora said.

Drilling deeper wells is not the solution

In the Ganges-Brahmaputra basins, two separate studies have found high concentrations of arsenic in water samples drawn from shallow aquifers, roughly 12 metres to 35 metres below ground. “[Usually], the values from deeper points are less,” the Frontiers of Environmental Science study said.

Essentially, deeper wells in those basins may yield cleaner, safer water but drilling deeper is not advisable from an environmental perspective.

“Groundwater systems are best not tampered with because unlike water in shallow aquifers, the water does not get replenished directly from rainfall due to the formation of different sedimentary layers,” said Guru Balamurugan, chairperson of the Centre for Geoinformatics, Jamsetji Tata School of Disaster Studies, Tata Institute of Social Sciences, Mumbai. Balamurugan co-authored the Frontiers of Environmental Sciences study.

Drilling deeper wells is not even a temporary solution in Pakistan. “

The arsenic problem in Pakistan occurs in a differing geochemical environment so, for example, drilling to access arsenic-free water may not necessarily work. But this would need to be investigated further,” said Podgorski.


Purifying arsenic-laden water: Easier in Punjab than Bengal basin

In Assam and Bihar, a few communities use traditional filters made of layers of charcoal, brick and sand to purify water.

“We found this interesting because the charcoal in the filter would absorb some arsenic,” said Balamurugan of his study experience in west Champaran, Bihar. “So the efficacy of the filter to remove arsenic would depend on the charcoal being periodically changed.”

Safeguarding entire communities would necessitate technology to filter a large quantity of water.

Several technologies can be applied in community plants attached to hand pump tubewells or large diameter tubewells, to remove arsenic from groundwater, said Guha Mazumder. “Domestic filters based on these technologies can also be developed.”

A positive for Punjab is that “the arsenic species likely present throughout much of the Indus Plain (As+5) is significantly easier to filter out than the more reduced species (As+3), which is predominant in the Bengal Basin,” said Podgorski.

So, he reckons low-cost filters such as the Sono household filter used in Bangladesh, costing supposedly only about $35, could help people there.

Indian scientists have also developed a low cost arsenic filter that has so far been successfully tested in West Bengal. Clearly, millions more are in need.




Note: The maps in the lead image were prepared by US researchers and do not depict India’s boundaries as India denotes them.

Charu Bahri is a freelance writer and editor based in Mount Abu, Rajasthan.

Updated Date: Sep 14, 2017 14:55 PM

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