Stable groundwater quality in deep aquifers of Southern Bangladesh: The case against sustainable abstraction

• Published in: The Science of the total environment Vol. 454-455; pp. 627 - 638
• Main Authors: Ravenscroft, P., McArthur, J.M., Hoque, M.A.
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier B.V 01.06.2013; Elsevier
• Subjects: Applied sciences; Aquifers; Arsenic; Bangladesh; Conservation of Natural Resources - methods; Deep aquifer; Drinking Water - analysis; Economics; Exact sciences and technology; Groundwater; Groundwater - chemistry; Groundwaters; Health; Humans; Natural water pollution; Pollution; Salinity; Seasons; Sustainability; Tapping; Water Pollutants, Chemical - analysis; Water Quality; Water treatment and pollution; Asia; Bangladesh; ISW, Bangladesh; ISW, India, Bengal Basin; Bangladesh; Arsenic; Groundwater; Sustainability; Deep aquifer; Salinity; Stability; Water resource management; Aquifers; Trace element; Carcinogen; Water quality; Sustainable management; Water pollution; Ground water
• ISSN: 0048-9697; 1879-1026
• DOI: 10.1016/j.scitotenv.2013.02.071

In forty six wells >150m deep, from across the arsenic-polluted area of south-central Bangladesh, groundwater composition remained unchanged between 1998 and 2011. No evidence of deteriorating water quality was found in terms of arsenic, iron, manganese, boron, barium or salinity over this period of 13years. These deep tubewells have achieved operating lives of more than 20years with minimal institutional support. These findings confirm that tubewells tapping the deep aquifers in the Bengal Basin provide a safe, popular, and economic, means of arsenic mitigation and are likely to do so for decades to come. Nevertheless, concerns remain about the sustainability of a resource that could serve as a source of As-safe water to mitigate As-pollution in shallower aquifers in an area where tens of millions of people are exposed to dangerous levels of arsenic in well water. The conjunction of the stable composition in deep groundwater and the severe adverse health effects of arsenic in shallow groundwater lead us to challenge the notion that strong sustainability principles should be applied to the management of deep aquifer abstraction in Bangladesh is, the notion that the deep groundwater resource should be preserved for future generations by protecting it from adverse impacts, probably of a minor nature, that could occur after a long time and might not happen at all. Instead, we advocate an ethical approach to development of the deep aquifer, based on adaptive abstraction management, which allows possibly unsustainable exploitation now in order to alleviate crippling disease and death from arsenic today while also benefiting future generations by improving the health, education and economy of living children. •Tens of millions of people in Bangladesh are affected by arsenic pollution of groundwater.•Deep wells in potentially non-renewable aquifers are the dominant form of mitigation.•Water quality in these aquifers has remained stable for 13years and probably >50years.•The deep aquifers are predicted to provide long-term sources of safe water.•An ethical case is made for temporary unsustainable abstraction to alleviate current human suffering.