{{short description|Form of water pollution}}(File:Arsenic contamination areas.png|thumb|260px|Groundwater arsenic contamination areas)Arsenic contamination of groundwater is a form of groundwater pollution which is often due to naturally occurring high concentrations of arsenic in deeper levels of groundwater. It is a high-profile problem due to the use of deep tube wells for water supply in the Ganges Delta, causing serious arsenic poisoning to large numbers of people. A 2007 study found that over 137 million people in more than 70 countries are probably affected by arsenic poisoning of drinking water. The problem became a serious health concern after mass poisoning of water in Bangladesh.See:

"Arsenic in drinking water seen as threat," USAToday.com, 30 August 2007.

See page 6 of: Peter Ravenscroft, "Predicting the global distribution of arsenic pollution in groundwater." Paper presented at: "Arsenic â€“ The Geography of a Global Problem," Royal Geographic Society Arsenic Conference held at: Royal Geographic Society, London, England, August 29, 2007. This conference is part of The Cambridge Arsenic Project. Arsenic contamination of ground water is found in many countries throughout the world, including the US.JOURNAL, A review of the source, behaviour and distribution of arsenic in natural waters

first1= PL

first2= DG, Applied Geochemistry, 2002, 17, 5, 517â€“568, 10.1016/S0883-2927(02)00018-5

s2cid = 55596829,weblink The World Health Organization recommends limiting arsenic concentrations in water to 10 Î¼g/L, although this is often an unattainable goal for many problem areas due to the difficult nature of removing arsenic from water sources.WEB, Arsenic,weblink 2020-11-28, www.who.int, en, Approximately 20 major incidents of groundwater arsenic contamination have been reported.JOURNAL

, Arsenic contamination in groundwater: A global perspective with emphasis on the Asian scenario
, Mukherjee A.
, Sengupta M. K.
, Hossain M. A.
, Journal of Health, Population, and Nutrition
, 2006
, 24
, 2
, 142â€“163
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,
Of these, four major incidents occurred in Asiaâ€”in Bangladesh; West Bengal, India; Inner Mongolia, China; and Taiwan.JOURNAL, Groundwater arsenic contamination in Bangladesh and West Bengal, India

author2=Biswas B. K.

journal = Environmental Health Perspectives, 2000, 108, 4, 393â€“397, 10.2307/3454378, 3454378, 1638054, 10811564, Locations of potentially hazardous wells have been mapped in China.JOURNAL, RodrÃguez-Lado L., Sun G., Berg M., Zhang Q., Xue H., Zheng Q., Johnson C.A., 2013, Groundwater arsenic contamination throughout China,weblink Science, 341, 6148, 866â€“868, 10.1126/science.1237484, 23970694, 2013Sci...341..866R, 206548777, {{TOC limit|3}}

Sources

Gold mining can contaminate groundwater with arsenic, because the element typically occurs in gold-containing ores. Gold processing releases arsenic from mine tailings, and contaminated groundwater may be unsafe to drink for decades.{{Citation |last=Eisler |first=Ronald |title=Reviews of Environmental Contamination and Toxicology |chapter=Arsenic Hazards to Humans, Plants, and Animals from Gold Mining |date=2004 |chapter-url=https://doi.org/10.1007/0-387-21729-0_3 |pages=133â€“165 |access-date=2023-06-12 |volume=180 |place=New York, NY |publisher=Springer |language=en |doi=10.1007/0-387-21729-0_3 |pmid=14561078 |isbn=978-0-387-21729-1}} Arsenic that is naturally occurring can contaminate the soil, just as it does the groundwater. This presents a possible arsenic exposure by use of products containing tobacco, because the tobacco plant grows from the soil and can become infiltrated with the arsenic.

Speciation of arsenic compounds in water

Arsenic contaminated water typically contains arsenous acid and arsenic acid or their derivatives. Their names as "acids" is a formality; these species are not aggressive acids but are merely the soluble forms of arsenic near neutral pH. These compounds are extracted from the underlying rocks that surround the aquifer. Arsenic acid tends to exist as the ions [HAsO4]2âˆ’ and [H2AsO4]âˆ’ in neutral water, whereas arsenous acid is not ionized.{{multiple image

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Contamination in specific nations and regions

File:Arsenic Poisoning.jpg|thumb|This person displays some of the symptoms of arsenic poisoning arsenic poisoning

South America

An analysis of water and food consumption in Socaire, a rural village in Chile, found that between November 2008 and September 2009, the total intake of arsenic by the villagers correlated with the amount of water and local produce consumed.JOURNAL, Diaz, Oscar Pablo, Arcos, Rafael, Tapia, Yasna, Pastene, RubÃ©n, Velez, DÃnoraz, Devesa, Vicenta, Montoro, Rosa, Aguilera, Valeska, Becerra, Miriam, 2015-05-22, Estimation of Arsenic Intake from Drinking Water and Food (Raw and Cooked) in a Rural Village of Northern Chile. Urine as a Biomarker of Recent Exposure, International Journal of Environmental Research and Public Health, en, 12, 5, 5614â€“5633, 10.3390/ijerph120505614, 4454988, 26006131, free, The central portion of Argentina is affected by arsenic-contaminated groundwater. Specifically, the La Pampa produces water containing 4â€“5300 microgram per liter.JOURNAL, Smedley P.L., Kinniburgh D.G., Macdonald D.M.J., Nicolli H.B., Barros A.J., Tullio J.O., Pearce J.M., Alonso M.S., 2005, Arsenic associations in sediments from the loess aquifer of La Pampa, Argentina, Applied Geochemistry, 20, 5, 989â€“1016, 2005ApGC...20..989S, 10.1016/j.apgeochem.2004.10.005,

South Asia

Bangladesh

{{excerpt|Water supply and sanitation in Bangladesh#Arsenic contamination of groundwater|paragraphs=1-4}}

India

In Bihar, groundwater in 13 districts have been found to be contaminated with arsenic with quantities exceeding 0.05 mg/L. All these districts are situated close to large rivers like Ganga and Gandak.WEB, Groundwater in 13 Districts of Bihar contaminated with Arsenic,weblink Biharprabha News, 25 September 2013, In West Bengal, India, water is mostly supplied from rivers, open wells, or ponds. These may be contaminated with communicable diseases such as dysentery, typhoid, cholera, and hepatitis. Since the 1970s, non-governmental organisations in India have focused on sinking tube wells to provide drinking water uncontaminated by diseases, with the unforeseen side effect of exposing some people to arsenic-contaminated groundwater.World Health Organization, Arsenic in Drinking Water, accessed 8 November 2021.The Times of India, 'Use surface water. Stop digging', interview, 26 September 2004.

Nepal

Nepal is subject to a serious problem with arsenic contamination. The problem is most severe in the Terai region, the worst being near Nawalparasi District, where 26 percent of shallow wells failed to meet WHO standard of 10 ppb. A study by Japan International Cooperation Agency and the Environment in the Kathmandu Valley showed that 72% of deep wells failed to meet the WHO standard, and 12% failed to meet the Nepali standard of 50 ppb.WEB, Nepal: Filters to provide arsenic-free drinking water â€” OWSA: OneWorld South Asia - Latest news on sustainable development, features, opinions, interviews with NGO leaders and...,weblink dead,weblink" title="web.archive.org/web/20120804130435weblink">weblink 2012-08-04, 2011-01-19,

Pakistan

66% of 1200 samples tested contained arsenic above WHO recommended limit, threatening over 60 million residents. 50â€“60 million residents consume water with arsenic levels greater than 50 micrograms of arsenic per liter, levels far passing acceptable levels worldwide.NEWS, 2017-08-23, Arsenic in drinking water threatens up to 60 million in Pakistan, en, Science {{!, AAAS|url=https://www.science.org/content/article/arsenic-drinking-water-threatens-60-million-pakistan|access-date=11 September 2017}}

United States

Regulation

A drinking water standard of 0.05 mg/L (equal to 50 parts per billion, or ppb) arsenic was originally established in the United States by the Public Health Service in 1942. After the passage of the Safe Drinking Water Act of 1974 (SDWA), the Environmental Protection Agency (EPA) was given the power to set the maximum containment levels (MCLs) of contaminants in public water supplies. In 1996 Congress amended the SDWA and created a Drinking Water State Revolving Fund to provide loans for water supply improvements, which increased the EPA's power to set mandates. This amendment created the "costs and benefits rule" to determine whether the cost of implementing new MCLs outweighs the health benefits. To maximize the costs and benefits of setting new MLCs, the EPA began allowing more affordable technology to be substituted that did not fully meet MLC standards because it was more affordable.The EPA studied the pros and cons of lowering the arsenic MCL for years in the late 1980s and 1990s. No action was taken until January 2001, when the Clinton administration in its final weeks promulgated a new standard of 0.01 mg/L (10 ppb) to take effect January 2006.The history of arsenic regulation, Southwest Hydrology, May/June 2002, p.16. The Bush administration suspended the midnight regulation, but after some months of study, the new EPA administrator Christine Todd Whitman approved the new 10 ppb arsenic standard and its original effective date of January 2006.EPA announces arsenic standard for drinking water of 10 parts per billion, EPA press release, 10/31/2001. Many locations exceed this limit.JOURNAL, Arsenic in the shallow ground waters of conterminous United States: assessment, health risks, and costs for MCL compliance

author2=Kaluarachchi, J. J., Journal of American Water Resources Association, 2006, 42, 2, 275â€“294,weblink weblink" title="archive.today/20130105134714weblink">weblink dead, 5 January 2013, 10.1111/j.1752-1688.2006.tb03838.x

s2cid = 131084177, A 2017 Lancet Public Health study found that this rule change led to fewer cancer deaths.HTTPS://WWW.NYTIMES.COM/2017/10/24/WELL/LIVE/ARSENIC-REDUCTIONS-IN-DRINKING-WATER-TIED-TO-FEWER-CANCER-DEATHS.HTML>TITLE=ARSENIC REDUCTIONS IN DRINKING WATER TIED TO FEWER CANCER DEATHS

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WORK=THE NEW YORK TIMES

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LAST2=SANCHEZ

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DATE=2017-10-22

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DOI=10.1016/S2468-2667(17)30195-0

PMC=5729579, 2468-2667, Many public water supply systems across the United States obtained their water supply from groundwater that had met the old 50 ppb arsenic standard but exceeded the new 10 ppb MCL. These utilities searched for either an alternative supply or an inexpensive treatment method to remove the arsenic from their water. In Arizona, an estimated 35 percent of water-supply wells were put out of compliance by the new regulation; in California, the percentage was 38 percent.Alison Bohlen (2002) States move forward to meet new arsenic standard, Southwest Hydrology, May/June 2002, p.18-19.The proper arsenic MCL continues to be debated. Some have argued that the 10 ppb federal standard is still too high, while others have argued that 10 ppb is needlessly strict. Individual states can establish lower arsenic limits; New Jersey has done so, setting a maximum of 0.005 mg/L (5 ppb) for arsenic in drinking water.Megan A. Ferguson and others, Lowering the detection limit for arsenic: implications for a future practical quantitation limit, American Water Works Association Journal, Aug. 2007, p.92-98.A study of private water wells in the Appalachian mountains found that six percent of the wells had arsenic above the U.S. MCL of 0.010 mg/L.John G. Shiber, "Arsenic in domestic well water and health in Central Appalachia, USA"

Case studies and incidents

Fallon, Nevada has long been known to have groundwater with relatively high arsenic concentrations (in excess of 0.08 mg/L).Frederick Rubel Jr. and Steven W. Hathaway (1985) Pilot Study for removal of arsenic from drinking water at the Fallon, Nevada, Naval Air Station, Environmental Protection Agency, EPA/600/S2-85/094. Even some surface waters, such as the Verde River in Arizona, sometimes exceed 0.01 mg/L arsenic, especially during low-flow periods when the river flow is dominated by groundwater discharge.M. Taqueer A. Qureshi (1995) Sources of Arsenic in the Verde River and Salt River Watersheds, Arizona, M.S. thesis, Arizona State University, Tempe.A study conducted in a contiguous six-county area of southeastern Michigan investigated the relationship between moderate arsenic levels and 23 disease outcomes. Disease outcomes included several types of cancer, diseases of the circulatory and respiratory system, diabetes mellitus, and kidney and liver diseases. Elevated mortality rates were observed for all diseases of the circulatory system. The researchers acknowledged a need to replicate their findings.Jaymie R. Meliker, Arsenic in drinking water and cerebrovascular disease, diabetes mellitus, and kidney disease in Michigan: a standardized mortality ratio analysis Environmental Health Magazine. Volume 2:4. 2007. Accessed 9 Sept. 2008.Various studies have also shown that arsenic exposure during pregnancy can result in infant death, cancer, heart attacks, kidney failure, lung complications, as well as reduced intelligence, memory, and cognitive development in the child.

Water purification solutions

Access to clean drinking water is fraught with political, socio-economic, and cultural inequities. In practice, many water treatment strategies tend to be temporary fixes to a larger problem, often prolonging the social issues while treating the scientific ones.JOURNAL, Johnston, Richard Bart, Hanchett, Suzanne, Khan, Mohidul Hoque, 2010-01-01, The socio-economics of arsenic removal, Nature Geoscience, En, 3, 1, 2â€“3, 10.1038/ngeo735, 2010NatGe...3....2J, Scientific studies have shown that interdisciplinary approaches to water purification are especially important to consider, and long-lasting improvements involve larger perspectives than strict scientific approaches.JOURNAL, Karr, James R., Dudley, Daniel R., 1981-01-01, Ecological perspective on water quality goals, Environmental Management, en, 5, 1, 55â€“68, 10.1007/BF01866609, 0364-152X, 1981EnMan...5...55K, 153568249,

Small-scale water treatment

A review of methods to remove arsenic from groundwater in Pakistan summarizes the most technically viable inexpensive methods.Fatima Hashmi and Joshua M. Pearce, "Viability of Small-Scale Arsenic-Contaminated Water Purification Technologies for Sustainable Development in Pakistan", Sustainable Development, 19(4), pp. 223â€“234, 2011. weblink" title="archive.today/20130105212408weblink">pdfOpen access full text Most small-scale treatments focus on water after it has left the distribution site, and are thus more focused on quick, temporary fixes.A simpler and less expensive form of arsenic removal is known as the Sono arsenic filter, using three pitchers containing cast iron turnings and sand in the first pitcher and wood activated carbon and sand in the second.WEB,weblink Evaluation of Performance of Sono 3-Kolshi Filter for Arsenic Removal from Groundwater Using Zero Valent Iron Through Laboratory and Field Studies, {{small|(272 KiB)}} Plastic buckets can also be used as filter containers.WEB,weblink Sono Arsenic Filter from Bangladesh, 2006-12-04,weblink" title="web.archive.org/web/20120206005125weblink">weblink 2012-02-06, dead, {{small|(102 KiB)}} â€“ pictures with descriptions. It is claimed that thousands of these systems are in use and can last for years while avoiding the toxic waste disposal problem inherent to conventional arsenic removal plants. Although novel, this filter has not been certified by any sanitary standards such as NSF, ANSI, WQA and does not avoid toxic waste disposal similar to any other iron removal process.In the United States small "under the sink" units have been used to remove arsenic from drinking water. This option is called "point of use" treatment. The most common types of domestic treatment use the technologies of adsorption (using media such as Bayoxide E33, GFH, activated alumina or titanium dioxide)JOURNAL, Jing, Chuanyong, Liu, Suqin, Meng, Xiaoguang, 2008-01-15, Arsenic remobilization in water treatment adsorbents under reducing conditions: Part I. Incubation study, Science of the Total Environment, 389, 1, 188â€“194, 10.1016/j.scitotenv.2007.08.030, 17897702, 0048-9697, 2008ScTEn.389..188J, or reverse osmosis. Ion exchange and activated alumina have been considered but not commonly used.Chaff-based filters have been reported to reduce the arsenic content of water to 3 Î¼g/L (3 ppb). This is especially important in areas where the potable water is provided by filtering the water extracted from the underground aquifer.Newspaper article {{Webarchive|url=https://web.archive.org/web/20120417212726weblink |date=2012-04-17 }} (in Hungarian) published by Magyar Nemzet on 15 April 2012.In iron electrocoagulation (Fe-EC), iron is dissolved nonstop using electricity, and the resulting ferric hydroxides, oxyhydroxides, and oxides form an absorbent readily attracted to arsenic. Current density, the amount of charge delivered per liter of water, of the process is often manipulated in order to achieve maximum arsenic depletion.JOURNAL, Addy, Susan E.A., Gadgil, Ashok J., Kowolik, Kristin, Kostecki, Robert, ElectroChemical Arsenic Removal (ECAR) for Rural Bangladeshâ€”Merging Technology with Sustainable Implementation,weblink 10.2172/982898, 2009, 15020139, free, This treatment strategy has primarily been used in Bangladesh,JOURNAL, van Genuchten, Case M., Addy, Susan E. A., PeÃ±a, Jasquelin, Gadgil, Ashok J., 2012-01-17, Removing Arsenic from Synthetic Groundwater with Iron Electrocoagulation: An Fe and As K-Edge EXAFS Study, Environmental Science & Technology, 46, 2, 986â€“994, 10.1021/es201913a, 22132945, 0013-936X, 2012EnST...46..986V, and has proven to be largely successful. In fact, using iron electrocoagulation to remove arsenic in water proved to be the most effective treatment option.JOURNAL, Ratna Kumar, P, Chaudhari, Sanjeev, Khilar, Kartic C, Mahajan, S.P, Removal of arsenic from water by electrocoagulation, Chemosphere, 55, 9, 1245â€“1252, 10.1016/j.chemosphere.2003.12.025, 15081765, 2004,weblink 2004Chmsp..55.1245R,

Large-scale water treatment

In some places, such as the United States, all the water supplied to residences by utilities must meet primary (health-based) drinking water standards. Regulations may require large-scale treatment systems to remove arsenic from the water supply. The effectiveness of any method depends on the chemical makeup of a particular water supply. The aqueous chemistry of arsenic is complex, and may affect the removal rate that can be achieved by a particular process.Some large utilities with multiple water supply wells could shut down those wells with high arsenic concentrations, and produce only from wells or surface water sources that meet the arsenic standard. Other utilities, however, especially small utilities with only a few wells, may have no available water supply that meets the arsenic standard.

Coagulation/filtration (also known as flocculation) removes arsenic by coprecipitation and adsorption using iron coagulants. Coagulation/filtration using alum is already used by some utilities to remove suspended solids and may be adjusted to remove arsenic.JOURNAL, Hering Janet G., Katsoyiannis Ioannis A., Theoduloz Gerardo Ahumada, Berg Michael, Hug Stephan J., 2017-05-01, Arsenic Removal from Drinking Water: Experiences with Technologies and Constraints in Practice, Journal of Environmental Engineering, 143, 5, 03117002, 10.1061/(ASCE)EE.1943-7870.0001225, free, 20.500.11850/130544, free, Iron oxide adsorption filters the water through a granular medium containing ferric oxide. Ferric oxide has a high affinity for adsorbing dissolved metals such as arsenic. The iron oxide medium eventually becomes saturated, and must be replaced. The sludge disposal is a problem here too.Activated alumina is an adsorbent that effectively removes arsenic. Activated alumina columns connected to shallow tube wells in India and Bangladesh have removed both As(III) and As(V) from groundwater for decades. Long-term column performance has been possible through the efforts of community-elected water committees that collect a local water tax for funding operations and maintenance.JOURNAL, SARKAR, S, GUPTA, A, BISWAS, R, DEB, A, GREENLEAF, J, SENGUPTA, A, Well-head arsenic removal units in remote villages of Indian subcontinent: Field results and performance evaluation, Water Research, 1 May 2005, 39, 10, 2196â€“2206, 10.1016/j.watres.2005.04.002, 15913703, 2005WatRe..39.2196S, It has also been used to remove undesirably high concentrations of fluoride.Ion exchange has long been used as a water softening process, although usually on a single-home basis. Traditional anion exchange resins are effective in removing As(V), but not As(III), or arsenic trioxide, which doesn't have a net charge. Effective long-term ion exchange removal of arsenic requires a trained operator to maintain the column.Both reverse osmosis and electrodialysis (also called electrodialysis reversal) can remove arsenic with a net ionic charge. (Note that arsenic oxide, As2O3, is a common form of arsenic in groundwater that is soluble, but has no net charge.) Some utilities presently use one of these methods to reduce total dissolved solids and therefore improve taste. A problem with both methods is the production of high-salinity waste water, called brine, or concentrate, which then must be disposed of.Subterranean arsenic removal (SAR) technology SAR TechnologyIn subterranean arsenic removal, aerated groundwater is recharged back into the aquifer to create an oxidation zone which can trap iron and arsenic on the soil particles through adsorption process. The oxidation zone created by aerated water boosts the activity of the arsenic-oxidizing microorganisms which can oxidize arsenic from +3 to +5 state SAR Technology. No chemicals are used and almost no sludge is produced during operational stage since iron and arsenic compounds are rendered inactive in the aquifer itself. Thus toxic waste disposal and the risk of its future mobilization is prevented. Also, it has very long operational life, similar to the long lasting tube wells drawing water from the shallow aquifers.Six such SAR plants, funded by the World Bank and constructed by Ramakrishna Vivekananda Mission, Barrackpore & Queen's University Belfast, UK are operating in West Bengal. Each plant has been delivering more than 3,000 liters of arsenic and iron-free water daily to the rural community. The first community water treatment plant based on SAR technology was set up at Kashimpore near Kolkata in 2004 by a team of European and Indian engineers led by Bhaskar Sen Gupta of Queen's University Belfast for TiPOT.12 Cases of Cleanup & Success "World's Worst Polluted Places Report 2009"WEB, Can the World's Most Polluted Places Ever Be Cleaned?, Scientific American,weblink 2012-10-10, live,weblink WEB, Reuters {{!, Breaking International News & Views |website=Reuters |url=http://uk.reuters.com/article/idUKTRE59R4BE20091028?pageNumber=1&virtualBrandChannel=0}}SAR technology had been awarded Dhirubhai Ambani Award, 2010 from IChemE UK for Chemical Innovation. Again, SAR was the winner of the St. Andrews Award for Environment, 2010. The SAR Project was selected by the Blacksmith Institute â€“ New York & Green Cross- Switzerland as one of the "12 Cases of Cleanup & Success" in the World's Worst Polluted Places Report 2009. (Refer: www.worstpolluted.org).Currently, large scale SAR plants are being installed in US, Malaysia, Cambodia, and Vietnam.

Nanotechnology based arsenic remediation

Using nanomaterials, it is possible to effectively destroy microorganisms, adsorb arsenic and fluoride, remove heavy metals and degrade pesticides usually found in water.BOOK, Mukherjee, Sritama, Gupte, Tanvi, Jenifer, S, Thomas, Tiju, Pradeep, Thalappil, Arsenic in Water: Speciation, Sources, Distribution, and Toxicology, December 2019, Copyright Â© 2019 John Wiley & Sons, Inc., 9781119300762, Encyclopedia of Water, P. Maurice (Ed.), 10.1002/9781119300762.wsts0053, 214108659, BOOK, Mukherjee, Sritama, Gupte, Tanvi, Jenifer, S, Thomas, Tiju, Pradeep, Thalappil, Arsenic in Water: Fundamentals of Measurement and Remediation, 29 December 2019, Copyright Â© 2019 John Wiley & Sons, Inc., 9781119300762, Encyclopedia of Water, P. Maurice (Ed.), 10.1002/9781119300762.wsts0054, 212834619, Researchers have looked at new methods to synthesize iron oxide/hydroxide/oxyhydroxide compositions in the laboratory and used them for water purification. A product called AMRIT, meaning elixir in Indian languages, developed by the Indian Institute of Technology Madras, is an affordable water purification technology based on advanced materials, which has been validated through research articlesJOURNAL, Sankar, M. Udhaya, Aigal, Sahaja, Chaudhary, Amrita, S., Anshup, M. Maliyekkal, Shihabudheen, Kumar, A. Anil, Chaudhari, Kamalesh, Pradeep, T., Biopolymer reinforced synthetic granular nanocomposites for affordable point-of-use water purification, Proc. Natl. Acad. Sci., 110, 2013, 21, 8459â€“64, 10.1073/pnas.1220222110, 23650396, 3666696, 2013PNAS..110.8459S, free, JOURNAL, Kumar, A. Anil, Som, Anirban, Longo, Paolo, Sudhakar, Chennu, Bhuin, Radha Gobinda, Sen Gupta, Soujit, S., Anshup, Sankar, Mohan Udhaya, Chaudhary, Amrita, Kumar, Ramesh, Pradeep, T, Confined metastable 2-line ferrihydrite for affordable point-of-use arsenic-free drinking water, Adv. Mater., 29, 2016, 7, 1604260, 10.1002/adma.201604260, 27918114, 205273753, and patentsJOURNAL, Pradeep, Thalappil, Mukherjee, Sritama, Kumar, A. Anil, A method for preparing cellulose microstructures-templated nanocomposites with enhanced arsenic removal capacity, 201641044817, December 26, 2016, granted as patent no. IN337979 on June 4, 2020., and has been approved for national implementation in India. The technology can remove several anions, especially arsenate and arsenite (two common species present in arsenic-contaminated water) and fluoride from water. Currently, this technology is delivering arsenic-free water to about 10,00,000 people every day.WEB, Jeevajalam - Arsenic free drinking water - Documentary,weblink weblink 2021-12-14, live, Youtube, {{cbignore}}

Research

Mapping

In 2008, the Swiss Aquatic Research Institute, Eawag, presented a new method by which hazard maps could be produced for geogenic toxic substances in groundwater.Amini, M.; Mueller, K.; Abbaspour, K.C.; Rosenberg, T.; Afyuni, M.; MÃ¸ller, M.; Sarr, M.; Johnson, C.A. (2008) Statistical modeling of global geogenic fluoride contamination in groundwaters. Environmental Science and Technology, 42(10), 3662â€“68, {{doi|10.1021/es071958y}}Amini, M.; Abbaspour, K.C.; Berg, M.; Winkel, L.; Hug, S.J.; Hoehn, E.; Yang, H.; Johnson, C.A. (2008). "Statistical modeling of global geogenic arsenic contamination in groundwater". Environmental Science and Technology 42 (10), 3669â€“75. {{doi|10.1021/es702859e}}Winkel, L.; Berg, M.; Amini, M.; Hug, S.J.; Johnson, C.A. Predicting groundwater arsenic contamination in Southeast Asia from surface parameters. Nature Geoscience, 1, 536â€“42 (2008). {{doi|10.1038/ngeo254}}RodrÃguez-Lado, L.; Sun, G.; Berg, M.; Zhang, Q.; Xue, H.; Zheng, Q.; Johnson, C.A. (2013) Groundwater arsenic contamination throughout China. Science, 341(6148), 866â€“68, {{doi|10.1126/science.1237484}} This provides an efficient way of determining which wells should be tested. In 2016, the research group made its knowledge freely available on the Groundwater Assessment Platform (GAP). This offers specialists worldwide the possibility of uploading their own measurement data, visually displaying them and producing risk maps for areas of their choice. GAP also serves as a knowledge-sharing forum for enabling further development of methods for removing toxic substances from water.

Dietary intake

Researchers from Bangladesh and the United Kingdom have claimed that dietary intake of arsenic adds a significant amount to total intake where contaminated water is used for irrigation.NEWS,weblink Mustak Hossain, Toxic rice harvested in southwestern Bangladesh, SciDev.Net, 2006-07-13, JOURNAL, Increase in Rice Grain Arsenic for Regions of Bangladesh Irrigating Paddies with Elevated Arsenic in Groundwaters, Environ. Sci. Technol., 40, 16, 4903â€“4908, 10.1021/es060222i, 2006, Williams, P.N., Islam, M. R., Adomako, E. E., Raab, A., Hossain, S. A., Zhu, Y. G., Feldmann, J., Meharg, A. A., 16955884, 2006EnST...40.4903W,weblink *JOURNAL, Screening of Rice Cultivars for Grain Arsenic Concentration and Speciation, American Society of Agronomy Proceeding, Raghvan T,

References

External links

ATSDR - Case Studies in Environmental Medicine: Arsenic Toxicity
weblink" title="web.archive.org/web/20090805003617weblink">Arsenic in groundwater IGRAC International Groundwater Resources Assessment Centre
Arsenic in Groundwater: A World Problem â€“ IAH publication, Netherlands National Chapter, 2008
SOS-Arsenic.net â€“ information and awareness raising site, focused on Bangladesh.
Contamination of drinking-water by arsenic in Bangladesh: a public health emergency â€“ at SOS-Arsenic.net
Subterranean Arsenic Treatment Technology in West Bengal
12 Cases of Cleanup & Success
weblink" title="web.archive.org/web/20070319034710weblink">www.wbphed.gov.in â€“ Arsenic Scenario of West Bengal
weblink" title="web.archive.org/web/20040921122023weblink">Drinking Death in Groundwater: Arsenic Contamination as a Threat to Water Security for Bangladesh, ACDIS Occasional Paper by Mustafa Moinuddin
weblink" title="web.archive.org/web/20100516180031weblink">St Andrews Prize for Environment 2010

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arsenic contamination of groundwater

Sources

Speciation of arsenic compounds in water

Contamination in specific nations and regions

South America

South Asia

Bangladesh

India

Nepal

Pakistan

United States

Regulation

Case studies and incidents

Water purification solutions

Small-scale water treatment

Large-scale water treatment

Nanotechnology based arsenic remediation

Research

Mapping

Dietary intake

See also

References

External links