ABSTRACT
This study represents the first comprehensive report of groundwater arsenic contamination status in the Kolkata Municipal Corporation (KMC). During the past 23 years, 4210 groundwater samples were analysed from all 141 wards in the KMC: 14.2% and 5.2% samples had arsenic >10Ā Āµg/l and >50Ā Āµg/l, respectively, representing 77 and 37 wards. The study shows that the number of arsenic contaminated samples (and wards) in the southern part of the KMC exceeds that of other parts of the city. The daily intake of arsenic from drinking water was estimated as 0.95Ā Āµg per kg bw and the cancer risk was estimated as 1425/106. Analyses of biological samples (hair, nail and urine) showed elevated concentrations of arsenic indicating the presence of subclinical arsenic poisoning, predicting an enhanced lifetime cancer risk for the population in southern part of the KMC. In the KMC, groundwater is not a sustainable source of freshwater due to arsenic, high iron, hardness and total dissolved solids. Its continued use is impelled by the lack of an adequate infrastructure to treat and supply surface water and in some wards the unaccounted for water (UFW) is even >45% incurred during distribution. The rare imposition of a water tax makes the water supply systems unsustainable and fosters indifference to water conservation. To mitigate the arsenic problem, continuous groundwater monitoring for pollutants, a treated surface water supply with strict policy implications, rainwater harvesting in the urban areas and introduction of water taxes seem to be long-term visible solutions.
Subject(s)
Arsenic/analysis , Environmental Monitoring , Groundwater/chemistry , Water Pollutants, Chemical/analysis , Arsenic Poisoning/epidemiology , Cities , Environmental Restoration and Remediation , Fresh Water/chemistry , Humans , India , Water Supply/statistics & numerical dataABSTRACT
This communication presents results of our 2-year survey on groundwater arsenic contamination in three districts Ballia, Varanasi and Gazipur of Uttar Pradesh (UP) in the upper and middle Ganga plain, India. Analyses of 4,780 tubewell water samples revealed that arsenic concentrations in 46.5% exceeded 10 microg/L, in 26.7%, 50 microg/L and in 10% 300 microg/L limits. Arsenic concentrations up to 3,192 microg//L were observed. The age of tubewells (n=1,881) ranged from less than a year to 32 years, with an average of 6.5 years. Our study shows that older tubewells had a greater chance of contamination. Depth of tubewells (n=3,810) varied from 6 to 60.5 m with a mean of 25.75 m. A detailed study in three administrative units within Ballia district, i.e. block, Gram Panchayet, and village was carried out to assess the magnitude of the contamination. Before our survey the affected villagers were not aware that they were suffering from arsenical toxicity through contaminated drinking water. A preliminary clinical examination in 11 affected villages (10 from Ballia and 1 from Gazipur district) revealed typical arsenical skin lesions ranging from melanosis, keratosis to Bowens (suspected). Out of 989 villagers (691 adults, and 298 children) screened, 137 (19.8%) of the adults and 17 (5.7%) of the children were diagnosed to have typical arsenical skin lesions. Arsenical neuropathy and adverse obstetric outcome were also observed, indicating severity of exposure. The range of arsenic concentrations in hair, nail and urine was 137-10,900, 764-19,700 microg/kg, and 23-4,030 microg/L, respectively. The urine, hair and nail concentrations of arsenic correlated significantly (r=0.76, 0.61, and 0.55, respectively) with drinking water arsenic concentrations. The similarity to previous studies on arsenic contamination in West Bengal, Bihar and Bangladesh indicates that people from a significant part of the surveyed areas in UP are suffering and this will spread unless drives to raise awareness of arsenic toxicity are undertaken and an arsenic safe water supply is immediately introduced.
Subject(s)
Arsenic Poisoning/metabolism , Arsenic/analysis , Arsenicals/analysis , Water Pollutants, Chemical/analysis , Water Supply/analysis , Adult , Arsenic/urine , Arsenic Poisoning/epidemiology , Arsenic Poisoning/pathology , Arsenicals/urine , Child , Environmental Monitoring , Epidemiological Monitoring , Female , Hair/chemistry , Humans , India/epidemiology , Keratosis/chemically induced , Keratosis/metabolism , Keratosis/pathology , Male , Melanosis/chemically induced , Melanosis/metabolism , Melanosis/pathology , Nails/chemistry , Pregnancy , Pregnancy Outcome , Water Pollutants, Chemical/urineABSTRACT
The incidence of high concentrations of arsenic in drinking-water has emerged as a major public-health problem. With newer-affected sites discovered during the last decade, a significant change has been observed in the global scenario of arsenic contamination, especially in Asian countries. This communication presents an overview of the current scenario of arsenic contamination in countries across the globe with an emphasis on Asia. Along with the present situation in severely-affected countries in Asia, such as Bangladesh, India, and China, recent instances from Pakistan, Myanmar, Afghanistan, Cambodia, etc. are presented.
Subject(s)
Arsenic Poisoning , Arsenic , Global Health , Water Pollutants, Chemical , Water Supply , Arsenic/adverse effects , Arsenic/analysis , Arsenic Poisoning/epidemiology , Arsenic Poisoning/etiology , Arsenic Poisoning/prevention & control , Asia/epidemiology , Cause of Death , Environmental Exposure/adverse effects , Environmental Exposure/analysis , Environmental Exposure/statistics & numerical data , Environmental Monitoring , Epidemiological Monitoring , Health Services Needs and Demand , Health Status , Humans , Incidence , Population Surveillance , Public Health/statistics & numerical data , Risk Factors , Water Pollutants, Chemical/adverse effects , Water Pollutants, Chemical/analysis , Water Purification , Water Supply/analysis , Water Supply/statistics & numerical dataABSTRACT
Based on several surveys during 1997-2005 and visits of a medical team to Eruani village, Laksham upazila, Comilla district, Bangladesh, the arsenic contamination situation and consequent clinical manifestations of arsenicosis among the villagers, including dermatology, neuropathy, and obstetric outcome, are reported here. Analysis of biological samples from patients and non-patients showed high body burden of arsenic. Even after eight years of known exposure, village children were still drinking arsenic-contaminated water, and many of them had arsenical skin lesions. There were social problems due to the symptoms of arsenicosis. The last survey established that there is a lack of proper awareness among villagers about different aspects of arsenic toxicity. The viability of different options of safe water, such as dugwells, deep tubewells, rainwater harvesting, and surface water with watershed management in the village, was studied. Finally, based on 19 years of field experience, it was felt that, for any successful mitigation programme, emphasis should be given to creating awareness among villagers about the arsenic problem, role of arsenic-free water, better nutrition from local fruits and vegetables, and, above all, active participation of women along with others in the struggle against the arsenic menace.
Subject(s)
Arsenic Poisoning/etiology , Arsenic , Rural Health/statistics & numerical data , Water Pollutants, Chemical , Water Supply/analysis , Adult , Arsenic/adverse effects , Arsenic/analysis , Arsenic Poisoning/diagnosis , Arsenic Poisoning/epidemiology , Arsenic Poisoning/prevention & control , Attitude to Health , Bangladesh , Body Burden , Child , Environmental Exposure/adverse effects , Environmental Exposure/analysis , Environmental Exposure/statistics & numerical data , Environmental Monitoring , Epidemiological Monitoring , Female , Health Education , Health Surveys , Humans , Male , Mass Screening , Middle Aged , Nervous System Diseases/chemically induced , Population Surveillance , Pregnancy , Pregnancy Outcome/epidemiology , Residence Characteristics , Skin Diseases/chemically induced , Water Pollutants, Chemical/adverse effects , Water Pollutants, Chemical/analysis , Water Purification , Water Supply/statistics & numerical dataABSTRACT
The objective of this study was to determine the magnitude of groundwater arsenic contamination in Shahpur block of Bhojpur district, Bihar state, India and its health effects such as dermal, neurological, obstetric effects, and cancer risk. The School of Environmental Studies (SOES) collected 4704 tube-well water samples from all 88 villages of Shahpur, which were analyzed for arsenic. We found 40.3 and 21.1Ā % of the tube-wells had arsenic above 10 and 50Ā Āµg/l, respectively, with maximum concentration of 1805Ā Āµg/l. The study shows that 75,000, 39,000, and 10,000 people could be exposed to arsenic-contaminated water greater than 10, 50, and 300Ā Āµg/l, respectively. Our medical team examined 1422 villagers from Shahpur and registered 161 (prevalence rate, 11.3Ā %) with arsenical skin lesions. Arsenical skin lesions were also observed in 29 children of 525 screened. We analyzed 579 biological samples (hair, nail, and urine) from Shahpur and found that 82, 89, and 91Ā % of hair, nail, and urine, respectively, had arsenic above the normal levels, indicating many people in the study area are sub-clinically affected. Arsenical neuropathy was observed in 48Ā % of 102 arsenicosis patients. The study also found that arsenic exposed women with severe skin lesions had adversely affected their pregnancies. The carcinogenic and non-carcinogenic risks were also estimated based on the generated data. Safe drinking water supply is urgently required to combat arsenic situation in affected villages of Shahpur.
Subject(s)
Arsenic/analysis , Groundwater/chemistry , Adolescent , Adult , Aged , Arsenic Poisoning , Child , Female , Hair/chemistry , Humans , India , Male , Middle Aged , Nails/chemistry , Pregnancy , Risk Assessment , Skin/chemistry , Skin Diseases , Water Pollutants, Chemical/analysis , Water Supply , Young AdultABSTRACT
We investigated the extent and severity of groundwater arsenic (As) contamination in five blocks in Patna district, Bihar, India along with As in biological samples and its health effects such as dermatological, neurological and obstetric outcome in some villages. We collected 1365 hand tube-well water samples and analyzed for As by the flow injection hydride generation atomic absorption spectrometer (FI-HG-AAS). We found 61% and 44% of the tube-wells had As above 10 and 50 Āµg/l, respectively, with maximum concentration of 1466 Āµg/l. Our medical team examined 712 villagers and registered 69 (9.7%) with arsenical skin lesions. Arsenical skin lesions were also observed in 9 children of 312 screened. We analyzed 176 biological samples (hair, nail and urine). Out of these, 69 people had arsenical skin lesions and rest without skin lesions. We found 100% of the biological samples had As above the normal levels (concentrations of As in hair, nail and urine of unexposed individuals usually ranges from 20 to 200 Āµg/kg, 20-500 Āµg/kg and <100 Āµg/l, respectively), indicating many people are sub-clinically affected. Arsenical neuropathy was observed in 40.5% of 37 arsenicosis patients with 73.3% prevalence for predominant sensory neuropathy and 26.7% for sensor-motor. Among patients, different clinical and electrophysiological neurological features and abnormal quantitative sensory perception thresholds were also noted. The study also found that As exposed women with severe skin lesions had adversely affected their pregnancies. People including children in the affected areas are in danger. To combat As situation in affected areas, villagers urgently need (a) provision of As-safe water for drinking and cooking, (b) awareness about the danger of As toxicity, and (c) nutritious food.
Subject(s)
Arsenic Poisoning/epidemiology , Arsenic/toxicity , Groundwater/analysis , Neurotoxicity Syndromes/epidemiology , Skin Diseases/epidemiology , Water Pollutants, Chemical/toxicity , Adolescent , Adult , Aged , Arsenic/analysis , Arsenic/urine , Arsenic Poisoning/urine , Child , Female , Hair/chemistry , Humans , India/epidemiology , Male , Middle Aged , Nails/chemistry , Neurotoxicity Syndromes/urine , Pregnancy , Skin Diseases/chemically induced , Skin Diseases/urine , Spectrophotometry, Atomic , Water Pollutants, Chemical/analysis , Water Pollutants, Chemical/urine , Water Wells , Young AdultABSTRACT
A detailed study was carried out in a cluster of villages known as Sagarpara Gram Panchayet (GP), covering an area of 20 km2 and population of 24,419 to determine the status of groundwater arsenic contamination and related health effects. The arsenic analysis of all hand tubewells (n = 565) in working condition showed, 86.2% and 58.8% of them had arsenic above 10, and 50 microgl(-1), respectively. The groundwater samples from all 21 villages in Sagarpara GP contained arsenic above 50 microgl(-1). In our preliminary clinical survey across the 21 villages, 3,302 villagers were examined and 679 among them (20.6%) were registered with arsenical skin lesions. A total of 850 biological samples (hair, nail and urine) were analysed from the affected villages and, on average, 85% of them contained arsenic above the normal level. Thus, many people of Sagarpara might be sub-clinically affected. Our data was compared with the international one to estimate population in Sagarpara GP at risk from arsenical skin lesions and cancer. Proper watershed management and economical utilization of available surface water resources along with the villagers' participation is urgently required to combat the present arsenic crisis.
Subject(s)
Arsenic Poisoning/epidemiology , Arsenic/analysis , Water Supply/analysis , Adult , Arsenic/urine , Female , Hair/chemistry , Humans , India/epidemiology , Male , Middle Aged , Nails/chemistry , Neoplasms/etiology , Rural Population , Skin Diseases/etiology , Water MicrobiologyABSTRACT
To better understand the magnitude of arsenic contamination in groundwater and its effects on human beings, a detailed study was carried out in Jalangi, one of the 85 arsenic affected blocks in West Bengal, India. Jalangi block is approximately 122 km2 in size and has a population of 215538. Of the 1916 water samples analyzed (about 31% of the total hand tubewells) from the Jalangi block, 77.8% were found to have arsenic above 10 microg l(-1) [the World Health Organization (WHO)-recommended level of arsenic in drinking water], 51% had arsenic above 50 microg l(-1) (the Indian standard of permissible limit of arsenic in drinking water) and 17% had arsenic at above 300 microg l(-1) (the concentration predicting overt arsenical skin lesions). From our preliminary medical screening, 1488 of the 7221 people examined in the 44 villages of Jalangi block exhibit definite arsenical skin lesions. An estimation of probable population that may suffer from arsenical skin lesions and cancer in the Jalangi block has been evaluated comparing along with international data. A total of 1600 biologic samples including hair, nail and urine have been analyzed from the affected villages of Jalangi block and on an average 88% of the biologic samples contain arsenic above the normal level. Thus, a vast population of the block may have arsenic body burden. Cases of Bowen's disease and cancer have been identified among adults who also show arsenical skin lesions and children in this block are also seriously affected. Obstetric examinations were also carried out in this block.
Subject(s)
Arsenic Poisoning/epidemiology , Arsenic/analysis , Water Pollutants/analysis , Water Pollutants/poisoning , Water Supply , Adolescent , Adult , Aged , Arsenic Poisoning/pathology , Child , Child, Preschool , Environmental Monitoring , Epidemiological Monitoring , Female , Humans , India , Infant , Infant, Newborn , Male , Middle Aged , Pregnancy , Pregnancy Outcome , Public Health , Skin Diseases/epidemiology , Skin Diseases/etiology , Tissue DistributionABSTRACT
INTRODUCTION: To understand the severity of the arsenic crisis in West Bengal, India, a detailed, 3-year study was undertaken in Murshidabad, one of the nine arsenic-affected districts in West Bengal. The district covers an area of 5324 km2 with a population of 5.3 million. METHODS: Hand tubewell water samples and biologic samples were collected from Murshidabad and analyzed for arsenic by FI-HG-AAS method. Inter laboratory analysis and analyses of standards were undertaken for quality assurance. RESULTS: During our survey we analyzed 29,612 hand tubewell water samples for arsenic from both contaminated and non-contaminated areas, and 26% of the tubewells were found to have arsenic above 50 microg/L while 53.8% had arsenic above 10 microg/L. Of the 26 blocks in Murshidabad, 24 were found to have arsenic above 50 microg/L. Based on our generated data we estimated that approximately 0.2 million hand tubewells are installed in all 26 blocks of Murshidabad and 1.8 million in nine arsenic-affected districts of West Bengal. It was estimated on the basis of our data that about 2.5 million and 1.2 million people were drinking arsenic-contaminated water with concentrations above 10 and 50 microg/L levels respectively in this district. The analysis of total 3800 biologic (nail, urine, and hair) samples from arsenic-affected villages revealed that 95% of the nail and 94% of the urine samples contained arsenic above the normal levels and 75% of the hair samples were found to have arsenic above the toxic level. Thus, many villagers in the affected areas of Murshidabad might be subclinically affected. DISCUSSION AND CONCLUSION: Comparing our extrapolated data with international dose response results, we estimated how many people may suffer from arsenical skin lesions and cancer. Finally, if the exposed population is provided safe water, better nutrition, and proper awareness about the arsenic problem, lives can be saved and countless suffering of the affected population can be avoided.
Subject(s)
Arsenic Poisoning/epidemiology , Arsenicals/analysis , Environmental Monitoring , Water Pollutants, Chemical/analysis , Water Supply/standards , Arsenic Poisoning/diagnosis , Arsenic Poisoning/etiology , Arsenicals/pharmacokinetics , Epidemiological Monitoring , Humans , India/epidemiology , Neoplasms/chemically induced , Neoplasms/diagnosis , Neoplasms/epidemiology , Risk , Skin Diseases/chemically induced , Skin Diseases/diagnosis , Skin Diseases/epidemiology , Water Pollutants, Chemical/pharmacokinetics , Water Pollutants, Chemical/toxicityABSTRACT
INTRODUCTION: To understand the severity of related health effects of chronic arsenic exposure in West Bengal, a detailed 3-year study was carried out in Murshidabad, one of the nine arsenic-affected districts in West Bengal. METHODS: We screened 25,274 people from 139 arsenic-affected villages in Murshidabad to identify patients suffering from chronic arsenic toxicity for evidence of multisystemic features and collected biological samples such as head hair, nail, and spot urine from the patients along with the tubewell water they were consuming. RESULTS: Out of 25,274 people screened, 4813 (19%) were registered with arsenical skin lesions. A case series involving arsenical skin lesions resulting in cancer and gangrene were noted during this study. Representative histopathological pictures of skin biopsy of different types of lesions were also presented. Out of 2595 children we examined for arsenical skin lesions, 122 (4%) were registered with arsenical skin lesions, melanosis with or without keratosis. Different clinical and electrophysiological neurological features were noticed among the arsenic-affected villagers. Both the arsenic content in the drinking water and duration of exposure may be responsible in increasing the susceptibility of pregnant women to spontaneous abortions, stillbirths, preterm births, low birth weights, and neonatal deaths. Some additional multisystemic features such as weakness and lethargy, chronic respiratory problems, gastrointestinal symptoms, and anemia were also recorded in the affected population. DISCUSSION: The findings from this survey on different health effects of arsenic exposure were compared to those from previous studies carried out on arsenic-affected populations in India and Bangladesh as well as other affected countries. CONCLUSION: Multisystemic disorders, including dermal effects, neurological complications, and adverse obstetric outcomes, were observed to be associated with chronic arsenic exposure in the study population in Murshidabad, West Bengal. The magnitude of severity was related to the concentration of arsenic in water as well as duration of the exposure.
Subject(s)
Arsenic Poisoning/epidemiology , Arsenicals/analysis , Nervous System Diseases/epidemiology , Pregnancy Outcome/epidemiology , Skin Diseases/epidemiology , Water Pollutants, Chemical/analysis , Arsenic Poisoning/etiology , Child , Environmental Monitoring , Epidemiological Monitoring , Female , Humans , India/epidemiology , Male , Nervous System Diseases/chemically induced , Pregnancy , Skin Diseases/chemically induced , Water Pollutants, Chemical/toxicity , Water Supply/standardsSubject(s)
Arsenic/analysis , Developing Countries , Water Pollutants, Chemical/analysis , Water Supply/standards , Arsenic/toxicity , Developed Countries , Humans , India/epidemiology , Neoplasms/chemically induced , Neoplasms/epidemiology , Risk Assessment , Water Pollutants, Chemical/toxicity , Water Pollution/analysis , Water Supply/analysis , World Health OrganizationSubject(s)
Arsenic/analysis , Fresh Water/analysis , Water Pollution, Chemical/analysis , Water Supply/analysis , Adult , Arsenic/toxicity , Arsenic/urine , Arsenic Poisoning/complications , Arsenic Poisoning/epidemiology , Arsenic Poisoning/pathology , Bangladesh , Child , Child, Preschool , Crops, Agricultural , Developing Countries , Female , Hair/chemistry , Humans , India , Infant , Infant, Newborn , Nails/chemistry , Pregnancy , Pregnancy Complications/epidemiology , Pregnancy Outcome , Rural Population , Skin/chemistry , Skin/pathologyABSTRACT
Since 1988 we have analyzed 140 150 water samples from tube wells in all 19 districts of West Bengal for arsenic; 48.1% had arsenic above 10 microg/L (WHO guideline value), 23.8% above 50 microg/L (Indian Standard) and 3.3% above 300 microg/L (concentration predicting overt arsenical skin lesions). Based on arsenic concentrations we have classified West Bengal into three zones: highly affected (9 districts mainly in eastern side of Bhagirathi River), mildly affected (5 districts in northern part) and unaffected (5 districts in western part). The estimated number of tube wells in 8 of the highly affected districts is 1.3 million, and estimated population drinking arsenic contaminated water above 10 and 50 microg/L were 9.5 and 4.2 million, respectively. In West Bengal alone, 26 million people are potentially at risk from drinking arsenic-contaminated water (above 10 microg/L). Studying information for water from different depths from 107 253 tube wells, we noted that arsenic concentration decreased with increasing depth. Measured arsenic concentration in two tube wells in Kolkata for 325 and 51 days during 2002-2005, showed 15% oscillatory movement without any long-term trend. Regional variability is dependent on sub-surface geology. In the arsenic-affected flood plain of the river Ganga, the crisis is not having too little water to satisfy our needs, it is the crisis of managing the water.
Subject(s)
Arsenic/analysis , Water Pollutants, Chemical/analysis , Water Supply/analysis , Arsenic/toxicity , Humans , India , Iron/analysisABSTRACT
Two hundred and twenty-six breast milk samples were collected from lactating women from 3 blocks of North-24 Paragans, one of the arsenic-affected districts of West Bengal, India. Out of 226 samples, only in 39 samples arsenic was detected. Urine, hair, and nail samples were also analyzed to know the arsenic body burden of the lactating women. Arsenic in drinking water was also analyzed. Principle component analysis (PCA) revealed that hair and nail arsenic was highly correlated with water arsenic concentrations, whereas arsenic in urine and breast milk did not cluster with water arsenic. Our present study indicated that among the lactating women who had high arsenic body burden and arsenical skin lesions, they had elevated level of arsenic in their breast milk. Arsenic in hair, nails, and urine samples of infants were analyzed, and the results showed significantly high-body burden of infants in those areas. PCA showed the age-dependent relationship between the hair and nail arsenic concentrations of the mothers and their babies.
Subject(s)
Arsenic/analysis , Lactation , Milk, Human/chemistry , Water Supply/analysis , Adult , Arsenic/urine , Arsenic Poisoning/etiology , Arsenic Poisoning/pathology , Arsenic Poisoning/urine , Child, Preschool , Environmental Exposure/adverse effects , Environmental Exposure/analysis , Female , Geography , Hair/chemistry , Humans , India , Infant , Male , Nails/chemistryABSTRACT
In arsenic contaminated areas of the Ganga-Meghna-Brahmaputra (GMB) plain (area 569,749 sq. km; population over 500 million) where traditionally cow dung cake is used as a fuel in unventilated ovens for cooking purposes, people are simply exposed to 1859.2 ng arsenic per day through direct inhalation, of which 464.8 ng could be absorbed in respiratory tract.
Subject(s)
Arsenic/administration & dosage , Arsenic/analysis , Cooking , Energy-Generating Resources , Environmental Exposure/analysis , Feces/chemistry , Inhalation Exposure/analysis , Air Pollutants/adverse effects , Air Pollutants/analysis , Animals , Arsenic Poisoning/epidemiology , Cattle , Environmental Exposure/adverse effects , Humans , India/epidemiology , Inhalation Exposure/adverse effects , Particulate Matter/analysis , Particulate Matter/chemistry , Rural Health/statistics & numerical dataABSTRACT
In the recent past, arsenic contamination in groundwater has emerged as an epidemic in different Asian countries, such as Bangladesh, India, and China. Arsenic removal plants (ARP) are one possible option to provide arsenic-safe drinking water. This paper evaluates the efficiency of ARP projects in removing arsenic and iron from raw groundwater, on the basis of our 2-year-long study covering 18 ARPs from 11 manufacturers, both from home and abroad, installed in an arsenic affected area of West Bengal, India, known as the Technology Park Project (TP project). Immediately after installation of ARPs on August 29, 2001, the villagers began using filtered water for drinking and cooking, even though our first analysis on September 13, 2001 found that 10 of 13 ARPs failed to remove arsenic below the WHO provisional guideline value (10 microg/L), while six plants could not achieve the Indian Standard value (50 microg/L). The highest concentration of arsenic in filtered water was observed to be 364 microg/L. Our 2-year study showed that none of the ARPs could maintain arsenic in filtered water below the WHO provisional guideline value and only two could meet the Indian standard value (50 microg/L) throughout. Standard statistical techniques showed that ARPs from the same manufacturers were not equally efficient. Efficiency of the ARPs was evaluated on the basis of point and interval estimates of the proportion of failure. During the study period almost all the ARPs have undergone minor or major modifications to improve their performance, and after our study, 15 (78%) out of 18 ARPs were no longer in use. In this study, we also analyzed urine samples from villagers in the TP project area and found that 82% of the samples contained arsenic above the normal limit.
Subject(s)
Arsenic/isolation & purification , Iron/isolation & purification , Water Pollutants, Chemical/isolation & purification , Water Purification/methods , Water Supply , Arsenic/toxicity , Equipment Failure , Filtration , India , Iron/toxicity , Seasons , Time Factors , Water Pollutants, Chemical/toxicityABSTRACT
An in-depth study was carried out in Rajapur, an arsenic-affected village in West Bengal, India, to determine the degree of groundwater contamination with arsenic and the impact of this contamination on residents. The flow injection hydride generation atomic absorption spectrometry (FI-HG-AAS) method was used to measure arsenic concentrations in water and biological samples. Dermatologists recorded the dermatological features of arsenicosis. Out of a total of 336 hand-pumped tube-wells in Rajapur, 91% (307/336) contained arsenic at concentrations > 10 microg/l, and 63% (213/336) contained arsenic at > 50 microg/l. The type of arsenic in groundwater, the variation in concentrations of arsenic as the depth of tube-wells changed, and the iron concentration in the wells were also measured. Altogether 825 of 3500 residents were examined for skin lesions; of these, 149 had lesions caused by exposure to arsenic. Of the 420 biological samples collected and analysed, 92.6% (389) contained arsenic at concentrations that were above normal. Thus many villagers might be subclinically affected. Although five arsenic-filtering devices had been installed in Rajapur, it appears that villagers are still exposed to raised concentrations of arsenic in their drinking-water. Detailed village-level studies of arsenic-affected areas in West Bengal are required in order to understand the magnitude of contamination and its effects on people. Villagers are ill-informed about the dangers of drinking arsenic-contaminated water. The contamination could be brought under control by increasing community awareness of the dangers and implementing proper watershed management techniques that involve local people.