Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic

Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic

Bangladesh faces multi-faceted problems in relation to groundwater. At present there is a new threat - arsenic contamination in groundwater. Arsenic is a shiny, grey, brittle element possessing both metallic and non-metallic properties (Train, 1979). The source of arsenic in drinking water is geo...

ver descrição completa

Detalhes bibliográficos
Autor principal: Jakariya, Md.
Formato: Research report
Idioma:English
Publicado em: BRAC Research and Evaluation Division (RED) 2019
Assuntos:
Tubewell water
Community Nutrition Centres (CNC)
Bangladesh Integrated Nutrition Project (BINP)
Arsenic
BRAC
Food relief > Bangladesh.
Nutrition policy > Bangladesh.
Nutrition physiology.
Community health services > Bangladesh.
Health, Nutrition, and Population Program (BRAC)
Acesso em linha:http://hdl.handle.net/10361/13049
id 10361-13049
record_format dspace
institution Brac University
collection Institutional Repository
language English
topic Tubewell water
Community Nutrition Centres (CNC)
Bangladesh Integrated Nutrition Project (BINP)
Arsenic
BRAC
Food relief -- Bangladesh.
Nutrition policy -- Bangladesh.
Nutrition physiology.
Community health services -- Bangladesh.
Health, Nutrition, and Population Program (BRAC)
spellingShingle Tubewell water
Community Nutrition Centres (CNC)
Bangladesh Integrated Nutrition Project (BINP)
Arsenic
BRAC
Food relief -- Bangladesh.
Nutrition policy -- Bangladesh.
Nutrition physiology.
Community health services -- Bangladesh.
Health, Nutrition, and Population Program (BRAC)
Jakariya, Md.
Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic
description Bangladesh faces multi-faceted problems in relation to groundwater. At present there is a new threat - arsenic contamination in groundwater. Arsenic is a shiny, grey, brittle element possessing both metallic and non-metallic properties (Train, 1979). The source of arsenic in drinking water is geological. Arsenic occurs naturally in the sediments of Bangladesh bound to amorphous iron oxyhydroxide. However, there are lots of controversies over the origin of arsenic in the groundwater. Bangladesh achieved remarkable success in providing safe drinking water to almost 97% of its rural population. But the recent discovery of arsenic in groundwater has ruined this decade-long success and the access to safe drinking water has now dropped to almost 80% (UNICEF, 1999). To mitigate the arsenic problem, a number of alternative safe water options are available in Bangladesh. Some of these options are based on surface water and some are based on treating the arsenic-contaminated water. Malnutrition, which is a serious health concern in Bangladesh and poor socio-economic conditions aggravate the hazards of arsenic toxicity. The recent remarkable strides achieved in the health sector in Bangladesh have been slow down in the reduction of malnutrition (lahan and Hossain, 1998). Fifty percent of the country's child mortality is reported to be associated directly or indirectly with malnutrition CBBS, 1994). The Bangladesh Integrated Nutrition Project (BINP) is the first major attempt of the government of Bangladesh to develop a comprehensive well coordinated inter-sectoral programme financially supported by the World Bank (The World Bank, 1995). Tubewell water is the only source of water for drinking and mixing the supplementary food at the CNCs for the pregnant women and children. Therefore, it is important to check tubewells of all the CNCs for presence of arsenic and subsequently to arrange alternative safe water options, if tubewell water is contaminated with arsenic at a dangerous level (i.e. >50~1). Accordingly, tubewell water of all the CNCs were tested with MERCK field testing kit and it was observed that only 26% tubewells found to be contaminated with arsenic more than the acceptable limit for Bangladesh. Ullfortunately, it was observed that these contaminated tubewells were using for preparing food at the CNCs. in order to develop the mitigation plan for the arsenic affected CNCs it is important to assess the average daily requirement of water by members of each CNCs to develop mitigation plans. It was observed that the daily requirement of water of almost all the CNCs was within the range of 20 litres per day, which means either small community-based option or household unit with good flow rate could be the suitable alternative safe water options for the arsenic affected CNCs. An attempt was made to check the source of drinking water of the CNC members at their home, since they spend only a few hours at CNCs. It was observed that drinking water source of more than 80% CNC members at home is tubewell water and their arsenic status was not known the owners at the time of testing. Focus group discussions were organized at the arsenic contaminated CNCs to get an idea about their preferred mitigation methods. Among the options preferred by the respondents deep hand set tubewell was found to be the most popular options (42%) followed by three-pitcher filters (25%). Since there is no curative measure for this disease except drinking arsenic-free waler (Smith 2002), alternative suitable safe water options should be made available without any delay for the exposed pregnant women and children from further exposure to arsenic contaminated water.
format Research report
author Jakariya, Md.
author_facet Jakariya, Md.
author_sort Jakariya, Md.
title Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic
title_short Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic
title_full Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic
title_fullStr Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic
title_full_unstemmed Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic
title_sort testing of tubewell water of the community nutrition centres (cnc) under the bangladesh integrated nutrition project (binp) for presence of arsenic
publisher BRAC Research and Evaluation Division (RED)
publishDate 2019
url http://hdl.handle.net/10361/13049
work_keys_str_mv AT jakariyamd testingoftubewellwaterofthecommunitynutritioncentrescncunderthebangladeshintegratednutritionprojectbinpforpresenceofarsenic
_version_ 1814309355768512512
spelling 10361-130492019-11-21T21:01:36Z Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic Jakariya, Md. Tubewell water Community Nutrition Centres (CNC) Bangladesh Integrated Nutrition Project (BINP) Arsenic BRAC Food relief -- Bangladesh. Nutrition policy -- Bangladesh. Nutrition physiology. Community health services -- Bangladesh. Health, Nutrition, and Population Program (BRAC) Bangladesh faces multi-faceted problems in relation to groundwater. At present there is a new threat - arsenic contamination in groundwater. Arsenic is a shiny, grey, brittle element possessing both metallic and non-metallic properties (Train, 1979). The source of arsenic in drinking water is geological. Arsenic occurs naturally in the sediments of Bangladesh bound to amorphous iron oxyhydroxide. However, there are lots of controversies over the origin of arsenic in the groundwater. Bangladesh achieved remarkable success in providing safe drinking water to almost 97% of its rural population. But the recent discovery of arsenic in groundwater has ruined this decade-long success and the access to safe drinking water has now dropped to almost 80% (UNICEF, 1999). To mitigate the arsenic problem, a number of alternative safe water options are available in Bangladesh. Some of these options are based on surface water and some are based on treating the arsenic-contaminated water. Malnutrition, which is a serious health concern in Bangladesh and poor socio-economic conditions aggravate the hazards of arsenic toxicity. The recent remarkable strides achieved in the health sector in Bangladesh have been slow down in the reduction of malnutrition (lahan and Hossain, 1998). Fifty percent of the country's child mortality is reported to be associated directly or indirectly with malnutrition CBBS, 1994). The Bangladesh Integrated Nutrition Project (BINP) is the first major attempt of the government of Bangladesh to develop a comprehensive well coordinated inter-sectoral programme financially supported by the World Bank (The World Bank, 1995). Tubewell water is the only source of water for drinking and mixing the supplementary food at the CNCs for the pregnant women and children. Therefore, it is important to check tubewells of all the CNCs for presence of arsenic and subsequently to arrange alternative safe water options, if tubewell water is contaminated with arsenic at a dangerous level (i.e. >50~1). Accordingly, tubewell water of all the CNCs were tested with MERCK field testing kit and it was observed that only 26% tubewells found to be contaminated with arsenic more than the acceptable limit for Bangladesh. Ullfortunately, it was observed that these contaminated tubewells were using for preparing food at the CNCs. in order to develop the mitigation plan for the arsenic affected CNCs it is important to assess the average daily requirement of water by members of each CNCs to develop mitigation plans. It was observed that the daily requirement of water of almost all the CNCs was within the range of 20 litres per day, which means either small community-based option or household unit with good flow rate could be the suitable alternative safe water options for the arsenic affected CNCs. An attempt was made to check the source of drinking water of the CNC members at their home, since they spend only a few hours at CNCs. It was observed that drinking water source of more than 80% CNC members at home is tubewell water and their arsenic status was not known the owners at the time of testing. Focus group discussions were organized at the arsenic contaminated CNCs to get an idea about their preferred mitigation methods. Among the options preferred by the respondents deep hand set tubewell was found to be the most popular options (42%) followed by three-pitcher filters (25%). Since there is no curative measure for this disease except drinking arsenic-free waler (Smith 2002), alternative suitable safe water options should be made available without any delay for the exposed pregnant women and children from further exposure to arsenic contaminated water. 2019-11-21T04:48:44Z 2019-11-21T04:48:44Z 2002-09 Research report Jakariya, M. (2002, September). Testing of tubewell water of the Community Nutrition Centres (CNC) under the Bangladesh Integrated Nutrition Project (BINP) for presence of arsenic. Research Reports (2002): Health Studies, Vol - XXXIII , 13–54. http://hdl.handle.net/10361/13049 en application/pdf BRAC Research and Evaluation Division (RED)

Registros relacionados