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Tag: groundwater contamination

  • Fluoride in Drinking Water in India: Safe Limits, Health Effects and How to Remove It

    Fluoride in Drinking Water in India: Safe Limits, Health Effects and How to Remove It

    Fluoride is one of the most misunderstood things in drinking water. A little of it protects teeth, which is why it is added to toothpaste. But too much of it, which is exactly the situation across large parts of India, quietly damages teeth and bones over years. The difference between helpful and harmful is a very small number, and that is what makes fluoride worth understanding properly.

    This guide explains what fluoride is, how much is safe under Indian standards, what excess does to health, where in India it is a problem, and how to remove it from the water you drink.

    What Is Fluoride and Why It Is in Water

    Fluoride is a natural compound found in rocks and soil. As groundwater sits in contact with fluoride-bearing rock, the fluoride dissolves into it. This is why fluoride is overwhelmingly a groundwater problem: borewells and deep wells in certain geological belts draw water that has picked up high fluoride naturally, with no industrial source involved.

    Because it is geological, fluoride is intensely local and tends to be persistent. A region sitting on fluoride-rich rock will show high fluoride year after year, which is why it has become a long-term public-health issue in the affected belts.

    How Much Fluoride Is Safe?

    Under the Bureau of Indian Standards (BIS IS 10500), the limits for fluoride in drinking water are:

    • Acceptable limit: 1.0 mg/L
    • Permissible maximum: 1.5 mg/L (in the absence of an alternate source)

    What makes fluoride unusual is the narrow safe window. Unlike most contaminants, where less is simply better, a small amount of fluoride is beneficial for teeth. But the margin is slim: cross roughly 1.5 mg/L and the balance tips towards harm. Much of India’s affected groundwater sits not just over the limit but several times above it, which is where serious health damage begins.

    The takeaway: the safe range for fluoride is small, between roughly 1.0 and 1.5 mg/L. Below that it helps teeth; above it, the risk of fluorosis rises steadily. With fluoride, the precise level in your water is what counts.

    The Health Effects of Excess Fluoride

    Excess fluoride causes a condition called fluorosis, which appears in two main forms.

    Dental Fluorosis

    The earliest and most common sign is dental fluorosis: white flecks, then yellow-brown staining, and in worse cases pitting and roughening of the tooth enamel. It is most damaging while children’s permanent teeth are still forming, which is why fluoride matters so much for families with young children, as covered in our guide to safe drinking water for children.

    Skeletal Fluorosis

    Prolonged exposure to higher fluoride levels causes skeletal fluorosis, where fluoride accumulates in bones, making them stiff, painful and brittle. In severe, long-term cases it damages joints and the spine and can be disabling. This is the most serious consequence of the high-fluoride belts in India, and it is the reason a national programme exists to prevent and control fluorosis.

    A National Concern

    Fluorosis from drinking water is recognised as a significant public-health problem across many Indian states, which is why the Government of India runs a dedicated National Programme for Prevention and Control of Fluorosis. The contamination is natural and geological, not industrial, and it persists year after year in affected belts.

    Reference: BIS IS 10500; CGWB groundwater quality data; Govt. of India fluorosis programme

    Where Fluoride Is High in India

    High fluoride in groundwater has been recorded across a large number of states. The most affected belts include:

    Region Status Notes
    Rajasthan Severely affected One of India’s worst fluoride belts; widespread across districts
    Gujarat Widely affected High fluoride paired with high hardness and TDS in groundwater
    Andhra Pradesh and Telangana Severely affected Long-recognised endemic fluorosis areas
    Karnataka and Tamil Nadu Affected pockets Concentrated in groundwater-dependent districts
    Madhya Pradesh, UP, Bihar Affected pockets Localised high-fluoride zones in groundwater belts
    Punjab and Haryana Affected pockets Often alongside high salinity and nitrate

    The pattern is regional but patchy: within an affected state, some areas are perfectly fine and others are several times over the limit. To see the live, government-sourced reading for your city, open your water quality report, for example Hyderabad water quality or Ahmedabad water quality. Fluoride also frequently travels with hardness in borewell water, so our borewell water guide is a useful companion read.

    How to Know If Your Water Has Fluoride

    You cannot taste, see or smell fluoride, so the only way to know is to find out:

    1. Check government groundwater data for your district as a first guide to whether fluoride is likely in your area.
    2. Get a laboratory test. Send a sample to a NABL-accredited lab for a fluoride test, especially if you are on borewell or groundwater in an affected state.
    3. Watch for community signs. Visible fluorosis staining on teeth in the local population is a strong warning that fluoride in the area is high.

    Because fluoride is invisible, families in affected belts often only discover the problem once dental fluorosis appears in children, by which point exposure has been going on for years. Testing early is the sensible course.

    How to Remove Fluoride from Drinking Water

    This is where many common assumptions are wrong, so it is worth being precise:

    • Boiling does not remove fluoride. It concentrates it slightly, because only water evaporates.
    • Carbon filters and UV do not remove fluoride. Carbon improves taste and removes chlorine; UV inactivates microbes. Neither touches dissolved fluoride.
    • Activated alumina and bone char can reduce fluoride but need careful, regular maintenance and are not practical for most homes.
    • Reverse osmosis is the reliable home method. The RO membrane physically removes dissolved fluoride along with other dissolved solids, and a good unit then balances minerals back for taste and health.

    For fluoride-affected groundwater, an RO purifier rated for your local TDS is the practical, lasting answer. To understand how the technologies differ, see our RO vs UV vs UF guide, and for the dissolved-solids number itself, our guide to TDS and BIS limits.

    Live in a fluoride-affected area? Check the live, government-sourced reading for your pincode, then match an RO purifier rated for it.

    Check Your Water Quality →

    Why Boon Removes Fluoride Safely

    Boon is a water-technology company founded by ex-IIT Kanpur engineers and backed by the Technology Development Board (Government of India), NITI Aayog and Roca, with systems serving more than 4,000 organisations worldwide. Its home purifiers, Boon Tap and Boon Tall, are built for exactly the high-fluoride, high-TDS groundwater that affects much of India.

    8-Stage UltraOsmosis Rated for High Groundwater Load

    Boon’s 8-stage UltraOsmosis process removes dissolved fluoride along with arsenic, nitrate, hardness and other dissolved solids, then balances minerals back so the water is safe and pleasant. Boon Tall is rated for input up to 2,000 ppm TDS, which suits the heavy groundwater of fluoride belts such as Rajasthan, Gujarat and the Telugu states.

    WaterAI Monitoring

    Boon’s WaterAI app tracks input and output water quality and filter health in real time, so you can see that fluoride and other contaminants are being handled rather than trusting a fixed schedule. WaterAI won the iF Design Award 2026.

    Free Professional Installation

    Boon’s technicians measure your input water, install the unit and verify output quality at no extra cost, so the purifier is matched to your real fluoride and TDS levels from day one.

    Remove fluoride the reliable way: Boon’s 8-stage UltraOsmosis, rated to 2,000 ppm, with mineral balancing, WaterAI monitoring, and free professional installation.

    Explore Boon Tall →

    Frequently Asked Questions

    How much fluoride in drinking water is safe in India?

    Under BIS IS 10500, the acceptable limit for fluoride is 1.0 mg/L and the permissible maximum is 1.5 mg/L. A small amount helps dental health, but the safe window is narrow: above about 1.5 mg/L the risk of dental fluorosis rises, and prolonged exposure to higher levels causes skeletal fluorosis. Because the gap between beneficial and harmful is so small, the exact number in your water matters.

    What are the health effects of too much fluoride in water?

    Excess fluoride causes fluorosis. Dental fluorosis shows up as white patches, yellow-brown staining and pitting of teeth, and is most damaging while children’s teeth are forming. Long-term exposure to higher levels causes skeletal fluorosis, which stiffens and damages bones and joints and can be disabling. India runs a national programme to prevent and control fluorosis because it is so widespread in groundwater.

    Which states in India have high fluoride in groundwater?

    High fluoride has been recorded across many states, including Rajasthan, Gujarat, Andhra Pradesh, Telangana, Karnataka, Madhya Pradesh, Uttar Pradesh, Bihar, Punjab, Haryana and Tamil Nadu. It is concentrated in areas dependent on deep groundwater, where fluoride leaches naturally from rock. Levels vary sharply by location, so even within an affected state some areas are fine and others are well above the limit.

    Does boiling water remove fluoride?

    No. Boiling does not remove fluoride. Because fluoride is dissolved and boiling only evaporates water, boiling actually concentrates fluoride slightly. Ordinary carbon filters and UV purifiers do not remove it either. The reliable home method for removing fluoride is reverse osmosis, whose membrane physically separates fluoride from the water.

    How do I remove fluoride from drinking water at home?

    The most reliable home method is a reverse osmosis purifier. The RO membrane removes dissolved fluoride along with other dissolved solids, and a good unit then balances minerals back for taste and health. Activated alumina and bone-char filters can also reduce fluoride but need careful maintenance and are less practical for homes. For most Indian households in fluoride-affected areas, an RO purifier rated for the local TDS is the right solution.

    Can I tell if my water has fluoride by taste?

    No. Fluoride has no taste, colour or smell at drinking-water levels, so you cannot detect it without testing. If you live in a fluoride-affected region, especially one dependent on borewell or groundwater, get a laboratory test and check government groundwater data for your area. Visible fluorosis staining on teeth in the community is a warning sign that local fluoride may be high.

    Boon Tall: 8-stage UltraOsmosis rated to 2,000 ppm, with mineral balancing, WaterAI monitoring, and free professional installation. Built to remove fluoride from India’s hardest groundwater.

    Shop Boon Tall →

  • Arsenic and Heavy Metals in Drinking Water in India: Risks, Hotspots and How to Remove Them

    Arsenic and Heavy Metals in Drinking Water in India: Risks, Hotspots and How to Remove Them

    Of all the things that can be in drinking water, arsenic is among the most feared, and for good reason. It is invisible, tasteless and odourless, it accumulates in the body over years, and in parts of India it sits in the groundwater that millions of people drink every day. Lead and other heavy metals carry similar risks. This guide explains what these contaminants are, why they are so serious, where in India they are concentrated, and how to remove them from the water you drink.

    This is general information, not medical advice. If you live in an affected area and have health concerns, consult a doctor and have your water tested.

    What Are Arsenic and Heavy Metals in Water?

    Arsenic is a naturally occurring element found in the earth’s crust. In India’s affected belts it leaches from sediment into groundwater, so the contamination is natural and geological rather than industrial, which is why it follows the river basins. Heavy metals such as lead, mercury, cadmium and chromium can enter water both naturally and from industrial discharge, old plumbing and fittings, or contaminated land.

    What these contaminants share is that they are toxic at very low concentrations and that the body cannot easily get rid of them. They build up over time, which is why the safe limits are tiny and why long-term exposure is the real danger.

    Why Arsenic Is So Dangerous

    Arsenic is dangerous for three reasons that combine badly.

    First, it is completely undetectable by sight, taste or smell, so contaminated water looks and tastes perfectly normal. People drink it for years without any warning.

    Second, it is a cumulative toxin. There is no safe casual level; the harm comes from steady, long-term intake. The BIS limit is just 0.01 mg/L (10 micrograms per litre), matching the World Health Organization guideline, precisely because even small amounts add up.

    Third, the health effects are severe. Long-term arsenic exposure causes arsenicosis, with characteristic skin lesions and pigmentation changes, and significantly raises the risk of skin, bladder and lung cancers. It is also linked to cardiovascular disease and to developmental harm, which makes it especially concerning for children, as our guide to safe drinking water for children discusses.

    The takeaway: arsenic is invisible, cumulative and seriously toxic, with a BIS limit of just 0.01 mg/L. In affected areas, the only safe assumption is that untreated groundwater may carry it, and the only way to be sure is to test and treat.

    Where Arsenic Is High in India

    Arsenic contamination in India follows the great river plains, where the sediment carries arsenic into the groundwater. The most affected regions are:

    Region Status Notes
    West Bengal (Ganga delta) Severely affected One of the world’s most studied arsenic-affected regions
    Bihar (Gangetic plain) Severely affected Widespread contamination along the river belt
    Uttar Pradesh (eastern districts) Affected Concentrated in the Gangetic floodplain
    Jharkhand and Assam Affected pockets Along the Ganga and Brahmaputra systems
    Other river-plain pockets Localised Scattered hotspots in several states

    Because the contamination is geological and tied to the river systems, it affects borewell-dependent communities across these belts. To see the live, government-sourced reading for your city, open your water quality report, for example Kolkata water quality. Arsenic also commonly appears alongside high TDS and other contaminants in groundwater, so our borewell water guide is a useful companion read.

    A Government Priority

    Arsenic in groundwater is tracked in the CGWB Annual Ground Water Quality Report and is the focus of dedicated mitigation efforts in the worst-affected states. As with fluoride, the contamination is natural, persistent and concentrated in specific geological belts, so the reading for your exact location is what matters.

    Source: CGWB Annual Ground Water Quality Report and India-WRIS, Govt. of India; BIS IS 10500; WHO guideline 10 ug/L

    Other Heavy Metals to Know About

    Arsenic is the headline, but a few other contaminants belong in the same conversation:

    • Lead (BIS limit 0.01 mg/L): can leach from old pipes, solder and brass fittings. It is especially harmful to children’s brain development, so it matters even where the supply itself is clean but the plumbing is old.
    • Iron (BIS limit 0.3 mg/L): not a toxic heavy metal in the way arsenic and lead are, but very common in eastern and coastal groundwater. It causes a metallic taste, rust-coloured staining and turbidity.
    • Mercury, cadmium and chromium: rarer, usually linked to industrial discharge or contaminated land, and toxic at low levels.

    The good news is that the same technology that removes arsenic also removes lead and these other dissolved metals, so a single correct solution covers the whole group.

    How to Know If Your Water Has Arsenic or Heavy Metals

    Since arsenic and lead are invisible and tasteless, testing is the only way to be sure:

    1. Check government groundwater data for your district to know whether arsenic is likely in your area. See the live reading for your city on our water quality checker.
    2. Get a laboratory test from a NABL-accredited lab for arsenic and heavy metals, especially if you are on borewell or groundwater in the Ganga or Brahmaputra belts.
    3. Consider your plumbing for lead specifically: very old fittings and solder are the usual source, independent of the supply.

    If you are in a known arsenic belt, do not wait for symptoms; arsenicosis appears only after years of exposure, by which point significant intake has already occurred.

    How to Remove Arsenic and Heavy Metals

    As with fluoride, the simpler methods do not work for arsenic and heavy metals:

    • Boiling does not remove arsenic or heavy metals and slightly concentrates them as water evaporates.
    • UV only inactivates microorganisms and does nothing to dissolved metals.
    • Carbon filters and UF leave dissolved arsenic and heavy metals largely untouched.
    • Reverse osmosis is the reliable home technology: its membrane physically removes dissolved arsenic, lead and other heavy metals along with dissolved solids, and a good unit balances minerals back afterwards.

    For arsenic-affected groundwater, an RO purifier rated for your local TDS, with output verified by testing, is the practical answer. To understand how the technologies differ, see our RO vs UV vs UF guide; for the related contaminants in groundwater, see our fluoride guide.

    Live in an arsenic-affected belt? Check the live, government-sourced reading for your pincode, then match an RO purifier rated for it.

    Check Your Water Quality →

    Why Boon Removes Heavy Metals Safely

    Boon is a water-technology company founded by ex-IIT Kanpur engineers and backed by the Technology Development Board (Government of India), NITI Aayog and Roca, with systems serving more than 4,000 organisations worldwide. Its home purifiers, Boon Tap and Boon Tall, are built for the high-TDS groundwater of India’s arsenic and fluoride belts.

    8-Stage UltraOsmosis Rated to 2,000 ppm

    Boon’s 8-stage UltraOsmosis process removes dissolved arsenic, lead and other heavy metals along with fluoride, nitrate and dissolved solids, then balances minerals back so the water is safe and pleasant. Boon Tall is rated for input up to 2,000 ppm TDS, suited to the heavy groundwater of the eastern river plains.

    WaterAI Monitoring

    For contaminants you cannot see, knowing your purifier is working matters. Boon’s WaterAI app tracks input and output water quality and filter health in real time and alerts you when a filter genuinely needs changing. WaterAI won the iF Design Award 2026.

    Free Professional Installation

    Boon’s technicians measure your input water, install the unit and verify output quality at no extra cost, so the purifier is matched to your real water from day one and you can confirm arsenic and heavy metals are being removed.

    Remove arsenic and heavy metals the reliable way: Boon’s 8-stage UltraOsmosis, rated to 2,000 ppm, with mineral balancing, WaterAI monitoring, and free professional installation.

    Explore Boon Tall →

    Frequently Asked Questions

    What is the safe limit for arsenic in drinking water in India?

    Under BIS IS 10500, the acceptable limit for arsenic is 0.01 mg/L, which is 10 micrograms per litre, the same as the WHO guideline. This is a very low threshold because arsenic is a cumulative toxin with no safe casual level. Where no alternative source exists, BIS allows a permissible maximum of 0.05 mg/L, but the goal should always be to get as close to zero as possible.

    Why is arsenic in drinking water so dangerous?

    Arsenic is dangerous because it is a cumulative poison with no taste, colour or smell, so people drink contaminated water for years unknowingly. Long-term exposure causes arsenicosis, with skin lesions and pigmentation changes, and raises the risk of skin, bladder and lung cancers, along with cardiovascular and developmental effects. Because the damage builds up slowly and silently, arsenic is one of the most serious water contaminants in India’s affected belts.

    Which areas of India have high arsenic in groundwater?

    Arsenic contamination is concentrated in the Ganga and Brahmaputra river plains. The worst-affected areas include West Bengal, Bihar, Uttar Pradesh, Jharkhand and Assam, with additional pockets in other states. It is a natural geological contamination of groundwater rather than an industrial one, which is why it follows the river basins and affects borewell-dependent communities.

    Does boiling or UV remove arsenic and heavy metals from water?

    No. Boiling does not remove arsenic or heavy metals and slightly concentrates them as water evaporates. UV only inactivates microorganisms and does nothing to dissolved metals. Ordinary carbon filters and UF membranes also leave dissolved arsenic and heavy metals largely untouched. The reliable home technology for removing them is reverse osmosis.

    How do I remove arsenic from drinking water at home?

    The reliable home method is a reverse osmosis purifier. The RO membrane removes dissolved arsenic along with lead, other heavy metals and dissolved solids, and a good unit then balances minerals back for taste and health. If you live in an arsenic-affected belt such as the Ganga or Brahmaputra plains, use an RO purifier rated for your local TDS and have your water tested to confirm the output is safe.

    Can heavy metals in water be detected by taste or colour?

    Mostly no. Arsenic and lead have no taste, colour or smell, which is why they are so dangerous. Iron is an exception and often gives a metallic taste and rust-coloured staining, but the toxic heavy metals that matter most for health are invisible. The only way to know whether your water contains arsenic or lead is a laboratory test, supported by government groundwater data for your area.

    Boon Tall: 8-stage UltraOsmosis rated to 2,000 ppm, with mineral balancing, WaterAI monitoring, and free professional installation. Built to remove arsenic and heavy metals from India’s groundwater.

    Shop Boon Tall →

  • Fluoride in Drinking Water in India: Safe Limits, Health Effects and How to Remove It

    Fluoride in Drinking Water in India: Safe Limits, Health Effects and How to Remove It

    Fluoride is one of the most misunderstood things in drinking water. A little of it protects teeth, which is why it is added to toothpaste. But too much of it, which is exactly the situation across large parts of India, quietly damages teeth and bones over years. The difference between helpful and harmful is a very small number, and that is what makes fluoride worth understanding properly.

    This guide explains what fluoride is, how much is safe under Indian standards, what excess does to health, where in India it is a problem, and how to remove it from the water you drink.

    What Is Fluoride and Why It Is in Water

    Fluoride is a natural compound found in rocks and soil. As groundwater sits in contact with fluoride-bearing rock, the fluoride dissolves into it. This is why fluoride is overwhelmingly a groundwater problem: borewells and deep wells in certain geological belts draw water that has picked up high fluoride naturally, with no industrial source involved.

    Because it is geological, fluoride is intensely local and tends to be persistent. A region sitting on fluoride-rich rock will show high fluoride year after year, which is why it has become a long-term public-health issue in the affected belts.

    How Much Fluoride Is Safe?

    Under the Bureau of Indian Standards (BIS IS 10500), the limits for fluoride in drinking water are:

    • Acceptable limit: 1.0 mg/L
    • Permissible maximum: 1.5 mg/L (in the absence of an alternate source)

    What makes fluoride unusual is the narrow safe window. Unlike most contaminants, where less is simply better, a small amount of fluoride is beneficial for teeth. But the margin is slim: cross roughly 1.5 mg/L and the balance tips towards harm. Much of India’s affected groundwater sits not just over the limit but several times above it, which is where serious health damage begins.

    The takeaway: the safe range for fluoride is small, between roughly 1.0 and 1.5 mg/L. Below that it helps teeth; above it, the risk of fluorosis rises steadily. With fluoride, the precise level in your water is what counts.

    The Health Effects of Excess Fluoride

    Excess fluoride causes a condition called fluorosis, which appears in two main forms.

    Dental Fluorosis

    The earliest and most common sign is dental fluorosis: white flecks, then yellow-brown staining, and in worse cases pitting and roughening of the tooth enamel. It is most damaging while children’s permanent teeth are still forming, which is why fluoride matters so much for families with young children, as covered in our guide to safe drinking water for children.

    Skeletal Fluorosis

    Prolonged exposure to higher fluoride levels causes skeletal fluorosis, where fluoride accumulates in bones, making them stiff, painful and brittle. In severe, long-term cases it damages joints and the spine and can be disabling. This is the most serious consequence of the high-fluoride belts in India, and it is the reason a national programme exists to prevent and control fluorosis.

    A National Concern

    Fluorosis from drinking water is recognised as a significant public-health problem across many Indian states, which is why the Government of India runs a dedicated National Programme for Prevention and Control of Fluorosis. The contamination is natural and geological, not industrial, and it persists year after year in affected belts.

    Reference: BIS IS 10500; CGWB groundwater quality data; Govt. of India fluorosis programme

    Where Fluoride Is High in India

    High fluoride in groundwater has been recorded across a large number of states. The most affected belts include:

    Region Status Notes
    Rajasthan Severely affected One of India’s worst fluoride belts; widespread across districts
    Gujarat Widely affected High fluoride paired with high hardness and TDS in groundwater
    Andhra Pradesh and Telangana Severely affected Long-recognised endemic fluorosis areas
    Karnataka and Tamil Nadu Affected pockets Concentrated in groundwater-dependent districts
    Madhya Pradesh, UP, Bihar Affected pockets Localised high-fluoride zones in groundwater belts
    Punjab and Haryana Affected pockets Often alongside high salinity and nitrate

    The pattern is regional but patchy: within an affected state, some areas are perfectly fine and others are several times over the limit. To see the live, government-sourced reading for your city, open your water quality report, for example Hyderabad water quality or Ahmedabad water quality. Fluoride also frequently travels with hardness in borewell water, so our borewell water guide is a useful companion read.

    How to Know If Your Water Has Fluoride

    You cannot taste, see or smell fluoride, so the only way to know is to find out:

    1. Check government groundwater data for your district as a first guide to whether fluoride is likely in your area.
    2. Get a laboratory test. Send a sample to a NABL-accredited lab for a fluoride test, especially if you are on borewell or groundwater in an affected state.
    3. Watch for community signs. Visible fluorosis staining on teeth in the local population is a strong warning that fluoride in the area is high.

    Because fluoride is invisible, families in affected belts often only discover the problem once dental fluorosis appears in children, by which point exposure has been going on for years. Testing early is the sensible course.

    How to Remove Fluoride from Drinking Water

    This is where many common assumptions are wrong, so it is worth being precise:

    • Boiling does not remove fluoride. It concentrates it slightly, because only water evaporates.
    • Carbon filters and UV do not remove fluoride. Carbon improves taste and removes chlorine; UV inactivates microbes. Neither touches dissolved fluoride.
    • Activated alumina and bone char can reduce fluoride but need careful, regular maintenance and are not practical for most homes.
    • Reverse osmosis is the reliable home method. The RO membrane physically removes dissolved fluoride along with other dissolved solids, and a good unit then balances minerals back for taste and health.

    For fluoride-affected groundwater, an RO purifier rated for your local TDS is the practical, lasting answer. To understand how the technologies differ, see our RO vs UV vs UF guide, and for the dissolved-solids number itself, our guide to TDS and BIS limits.

    Live in a fluoride-affected area? Check the live, government-sourced reading for your pincode, then match an RO purifier rated for it.

    Check Your Water Quality →

    Why Boon Removes Fluoride Safely

    Boon is a water-technology company founded by ex-IIT Kanpur engineers and backed by the Technology Development Board (Government of India), NITI Aayog and Roca, with systems serving more than 4,000 organisations worldwide. Its home purifiers, Boon Tap and Boon Tall, are built for exactly the high-fluoride, high-TDS groundwater that affects much of India.

    8-Stage UltraOsmosis Rated for High Groundwater Load

    Boon’s 8-stage UltraOsmosis process removes dissolved fluoride along with arsenic, nitrate, hardness and other dissolved solids, then balances minerals back so the water is safe and pleasant. Boon Tall is rated for input up to 2,000 ppm TDS, which suits the heavy groundwater of fluoride belts such as Rajasthan, Gujarat and the Telugu states.

    WaterAI Monitoring

    Boon’s WaterAI app tracks input and output water quality and filter health in real time, so you can see that fluoride and other contaminants are being handled rather than trusting a fixed schedule. WaterAI won the iF Design Award 2026.

    Free Professional Installation

    Boon’s technicians measure your input water, install the unit and verify output quality at no extra cost, so the purifier is matched to your real fluoride and TDS levels from day one.

    Remove fluoride the reliable way: Boon’s 8-stage UltraOsmosis, rated to 2,000 ppm, with mineral balancing, WaterAI monitoring, and free professional installation.

    Explore Boon Tall →

    Frequently Asked Questions

    How much fluoride in drinking water is safe in India?

    Under BIS IS 10500, the acceptable limit for fluoride is 1.0 mg/L and the permissible maximum is 1.5 mg/L. A small amount helps dental health, but the safe window is narrow: above about 1.5 mg/L the risk of dental fluorosis rises, and prolonged exposure to higher levels causes skeletal fluorosis. Because the gap between beneficial and harmful is so small, the exact number in your water matters.

    What are the health effects of too much fluoride in water?

    Excess fluoride causes fluorosis. Dental fluorosis shows up as white patches, yellow-brown staining and pitting of teeth, and is most damaging while children’s teeth are forming. Long-term exposure to higher levels causes skeletal fluorosis, which stiffens and damages bones and joints and can be disabling. India runs a national programme to prevent and control fluorosis because it is so widespread in groundwater.

    Which states in India have high fluoride in groundwater?

    High fluoride has been recorded across many states, including Rajasthan, Gujarat, Andhra Pradesh, Telangana, Karnataka, Madhya Pradesh, Uttar Pradesh, Bihar, Punjab, Haryana and Tamil Nadu. It is concentrated in areas dependent on deep groundwater, where fluoride leaches naturally from rock. Levels vary sharply by location, so even within an affected state some areas are fine and others are well above the limit.

    Does boiling water remove fluoride?

    No. Boiling does not remove fluoride. Because fluoride is dissolved and boiling only evaporates water, boiling actually concentrates fluoride slightly. Ordinary carbon filters and UV purifiers do not remove it either. The reliable home method for removing fluoride is reverse osmosis, whose membrane physically separates fluoride from the water.

    How do I remove fluoride from drinking water at home?

    The most reliable home method is a reverse osmosis purifier. The RO membrane removes dissolved fluoride along with other dissolved solids, and a good unit then balances minerals back for taste and health. Activated alumina and bone-char filters can also reduce fluoride but need careful maintenance and are less practical for homes. For most Indian households in fluoride-affected areas, an RO purifier rated for the local TDS is the right solution.

    Can I tell if my water has fluoride by taste?

    No. Fluoride has no taste, colour or smell at drinking-water levels, so you cannot detect it without testing. If you live in a fluoride-affected region, especially one dependent on borewell or groundwater, get a laboratory test and check government groundwater data for your area. Visible fluorosis staining on teeth in the community is a warning sign that local fluoride may be high.

    Boon Tall: 8-stage UltraOsmosis rated to 2,000 ppm, with mineral balancing, WaterAI monitoring, and free professional installation. Built to remove fluoride from India’s hardest groundwater.

    Shop Boon Tall →

  • Arsenic and Heavy Metals in Drinking Water in India: Risks, Hotspots and How to Remove Them

    Arsenic and Heavy Metals in Drinking Water in India: Risks, Hotspots and How to Remove Them

    Of all the things that can be in drinking water, arsenic is among the most feared, and for good reason. It is invisible, tasteless and odourless, it accumulates in the body over years, and in parts of India it sits in the groundwater that millions of people drink every day. Lead and other heavy metals carry similar risks. This guide explains what these contaminants are, why they are so serious, where in India they are concentrated, and how to remove them from the water you drink.

    This is general information, not medical advice. If you live in an affected area and have health concerns, consult a doctor and have your water tested.

    What Are Arsenic and Heavy Metals in Water?

    Arsenic is a naturally occurring element found in the earth’s crust. In India’s affected belts it leaches from sediment into groundwater, so the contamination is natural and geological rather than industrial, which is why it follows the river basins. Heavy metals such as lead, mercury, cadmium and chromium can enter water both naturally and from industrial discharge, old plumbing and fittings, or contaminated land.

    What these contaminants share is that they are toxic at very low concentrations and that the body cannot easily get rid of them. They build up over time, which is why the safe limits are tiny and why long-term exposure is the real danger.

    Why Arsenic Is So Dangerous

    Arsenic is dangerous for three reasons that combine badly.

    First, it is completely undetectable by sight, taste or smell, so contaminated water looks and tastes perfectly normal. People drink it for years without any warning.

    Second, it is a cumulative toxin. There is no safe casual level; the harm comes from steady, long-term intake. The BIS limit is just 0.01 mg/L (10 micrograms per litre), matching the World Health Organization guideline, precisely because even small amounts add up.

    Third, the health effects are severe. Long-term arsenic exposure causes arsenicosis, with characteristic skin lesions and pigmentation changes, and significantly raises the risk of skin, bladder and lung cancers. It is also linked to cardiovascular disease and to developmental harm, which makes it especially concerning for children, as our guide to safe drinking water for children discusses.

    The takeaway: arsenic is invisible, cumulative and seriously toxic, with a BIS limit of just 0.01 mg/L. In affected areas, the only safe assumption is that untreated groundwater may carry it, and the only way to be sure is to test and treat.

    Where Arsenic Is High in India

    Arsenic contamination in India follows the great river plains, where the sediment carries arsenic into the groundwater. The most affected regions are:

    Region Status Notes
    West Bengal (Ganga delta) Severely affected One of the world’s most studied arsenic-affected regions
    Bihar (Gangetic plain) Severely affected Widespread contamination along the river belt
    Uttar Pradesh (eastern districts) Affected Concentrated in the Gangetic floodplain
    Jharkhand and Assam Affected pockets Along the Ganga and Brahmaputra systems
    Other river-plain pockets Localised Scattered hotspots in several states

    Because the contamination is geological and tied to the river systems, it affects borewell-dependent communities across these belts. To see the live, government-sourced reading for your city, open your water quality report, for example Kolkata water quality. Arsenic also commonly appears alongside high TDS and other contaminants in groundwater, so our borewell water guide is a useful companion read.

    A Government Priority

    Arsenic in groundwater is tracked in the CGWB Annual Ground Water Quality Report and is the focus of dedicated mitigation efforts in the worst-affected states. As with fluoride, the contamination is natural, persistent and concentrated in specific geological belts, so the reading for your exact location is what matters.

    Source: CGWB Annual Ground Water Quality Report and India-WRIS, Govt. of India; BIS IS 10500; WHO guideline 10 ug/L

    Other Heavy Metals to Know About

    Arsenic is the headline, but a few other contaminants belong in the same conversation:

    • Lead (BIS limit 0.01 mg/L): can leach from old pipes, solder and brass fittings. It is especially harmful to children’s brain development, so it matters even where the supply itself is clean but the plumbing is old.
    • Iron (BIS limit 0.3 mg/L): not a toxic heavy metal in the way arsenic and lead are, but very common in eastern and coastal groundwater. It causes a metallic taste, rust-coloured staining and turbidity.
    • Mercury, cadmium and chromium: rarer, usually linked to industrial discharge or contaminated land, and toxic at low levels.

    The good news is that the same technology that removes arsenic also removes lead and these other dissolved metals, so a single correct solution covers the whole group.

    How to Know If Your Water Has Arsenic or Heavy Metals

    Since arsenic and lead are invisible and tasteless, testing is the only way to be sure:

    1. Check government groundwater data for your district to know whether arsenic is likely in your area. See the live reading for your city on our water quality checker.
    2. Get a laboratory test from a NABL-accredited lab for arsenic and heavy metals, especially if you are on borewell or groundwater in the Ganga or Brahmaputra belts.
    3. Consider your plumbing for lead specifically: very old fittings and solder are the usual source, independent of the supply.

    If you are in a known arsenic belt, do not wait for symptoms; arsenicosis appears only after years of exposure, by which point significant intake has already occurred.

    How to Remove Arsenic and Heavy Metals

    As with fluoride, the simpler methods do not work for arsenic and heavy metals:

    • Boiling does not remove arsenic or heavy metals and slightly concentrates them as water evaporates.
    • UV only inactivates microorganisms and does nothing to dissolved metals.
    • Carbon filters and UF leave dissolved arsenic and heavy metals largely untouched.
    • Reverse osmosis is the reliable home technology: its membrane physically removes dissolved arsenic, lead and other heavy metals along with dissolved solids, and a good unit balances minerals back afterwards.

    For arsenic-affected groundwater, an RO purifier rated for your local TDS, with output verified by testing, is the practical answer. To understand how the technologies differ, see our RO vs UV vs UF guide; for the related contaminants in groundwater, see our fluoride guide.

    Live in an arsenic-affected belt? Check the live, government-sourced reading for your pincode, then match an RO purifier rated for it.

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    Why Boon Removes Heavy Metals Safely

    Boon is a water-technology company founded by ex-IIT Kanpur engineers and backed by the Technology Development Board (Government of India), NITI Aayog and Roca, with systems serving more than 4,000 organisations worldwide. Its home purifiers, Boon Tap and Boon Tall, are built for the high-TDS groundwater of India’s arsenic and fluoride belts.

    8-Stage UltraOsmosis Rated to 2,000 ppm

    Boon’s 8-stage UltraOsmosis process removes dissolved arsenic, lead and other heavy metals along with fluoride, nitrate and dissolved solids, then balances minerals back so the water is safe and pleasant. Boon Tall is rated for input up to 2,000 ppm TDS, suited to the heavy groundwater of the eastern river plains.

    WaterAI Monitoring

    For contaminants you cannot see, knowing your purifier is working matters. Boon’s WaterAI app tracks input and output water quality and filter health in real time and alerts you when a filter genuinely needs changing. WaterAI won the iF Design Award 2026.

    Free Professional Installation

    Boon’s technicians measure your input water, install the unit and verify output quality at no extra cost, so the purifier is matched to your real water from day one and you can confirm arsenic and heavy metals are being removed.

    Remove arsenic and heavy metals the reliable way: Boon’s 8-stage UltraOsmosis, rated to 2,000 ppm, with mineral balancing, WaterAI monitoring, and free professional installation.

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    Frequently Asked Questions

    What is the safe limit for arsenic in drinking water in India?

    Under BIS IS 10500, the acceptable limit for arsenic is 0.01 mg/L, which is 10 micrograms per litre, the same as the WHO guideline. This is a very low threshold because arsenic is a cumulative toxin with no safe casual level. Where no alternative source exists, BIS allows a permissible maximum of 0.05 mg/L, but the goal should always be to get as close to zero as possible.

    Why is arsenic in drinking water so dangerous?

    Arsenic is dangerous because it is a cumulative poison with no taste, colour or smell, so people drink contaminated water for years unknowingly. Long-term exposure causes arsenicosis, with skin lesions and pigmentation changes, and raises the risk of skin, bladder and lung cancers, along with cardiovascular and developmental effects. Because the damage builds up slowly and silently, arsenic is one of the most serious water contaminants in India’s affected belts.

    Which areas of India have high arsenic in groundwater?

    Arsenic contamination is concentrated in the Ganga and Brahmaputra river plains. The worst-affected areas include West Bengal, Bihar, Uttar Pradesh, Jharkhand and Assam, with additional pockets in other states. It is a natural geological contamination of groundwater rather than an industrial one, which is why it follows the river basins and affects borewell-dependent communities.

    Does boiling or UV remove arsenic and heavy metals from water?

    No. Boiling does not remove arsenic or heavy metals and slightly concentrates them as water evaporates. UV only inactivates microorganisms and does nothing to dissolved metals. Ordinary carbon filters and UF membranes also leave dissolved arsenic and heavy metals largely untouched. The reliable home technology for removing them is reverse osmosis.

    How do I remove arsenic from drinking water at home?

    The reliable home method is a reverse osmosis purifier. The RO membrane removes dissolved arsenic along with lead, other heavy metals and dissolved solids, and a good unit then balances minerals back for taste and health. If you live in an arsenic-affected belt such as the Ganga or Brahmaputra plains, use an RO purifier rated for your local TDS and have your water tested to confirm the output is safe.

    Can heavy metals in water be detected by taste or colour?

    Mostly no. Arsenic and lead have no taste, colour or smell, which is why they are so dangerous. Iron is an exception and often gives a metallic taste and rust-coloured staining, but the toxic heavy metals that matter most for health are invisible. The only way to know whether your water contains arsenic or lead is a laboratory test, supported by government groundwater data for your area.

    Boon Tall: 8-stage UltraOsmosis rated to 2,000 ppm, with mineral balancing, WaterAI monitoring, and free professional installation. Built to remove arsenic and heavy metals from India’s groundwater.

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