McBean, E.A., Rajib , M.A., and Rahman, M.M., “Improved sustainability of water supply options in areas with arsenic-impacted groundwater”, Water, pp. p. 1941-1951; 3 tab.; 5 fig., 2013.

Ferdous, J., Ahmed, K.M., Sultana, S., Amini, M., Berg, M., and Johnston, R., “Using logistic regression to model arsenic risk in Dhaka City, Bangladesh”, SANDEC news, p. p.24; 1 fig., 2012.

Escamilla, V., Wagner, B., Yunus, M., Streatfield, P.K., Geen, A. van, and Emch, M., “Effect of deep tube well use on childhood diarrhoea in Bangladesh”, Bulletin of the World Health Organization, pp. p. 521 - 527 : 2 fig., 1 tab., 2011.

Amin, N., “Developing an environmentally appropriate, socially acceptable and gender-sensitive technology for safe-water supply to households in arsenic affected areas in rural Bangladesh”. Agricultural University Wageningen, Wageningen, The Netherlands, p. x, 243 p.; 48 tab.; 45 fig., 2010.

Duarte, A.A.L.S., Cardoso, S.J.A., and Alçada, A.J., “Emerging and innovative techniques for arsenic removal applied to a small water supply system”, Sustainability, pp. P. 1288-1304 : 6 fig., 3 tab., 2009.

Hanchett, S., “Management of the Arsenic Problem in Bangladesh : Some Challenges : statements, presented at International Learning Exchange : Arsenic in Bangladesh..”. S.n., S.l., p. 5 p., 2009.

Shafiquzzaman, M., Azam, S., Mishima, I, Nakajima, J., and Department of Environmental Systems Engineering, Ritsumeikan University - Shiga, JP, “Technical and social evaluation of arsenic mitigation in rural Bangladesh”, Journal of health, population and nutrition, pp. P. 674-683; 1 tab.; 7 fig., 2009.

Cherry, N., Shaikh, K., McDonald, C., and Chowdhury, Z., “Stillbirth in rural Bangladesh : arsenic exposure and other etiological factors : a report from Gonoshasthaya Kendra”, Bulletin of the World Health Organization, pp. p. 172-177 : 2 tab., 2008.

Petrusevski, B., Sharma, S., Schippers, J.C., Shordt, K., and IRC International Water and Sanitation Centre, The Hague, NL, “Arsenic in drinking water”, vol. no. 17. IRC, Delft, The Netherlands, p. 57 p. : 11 fig., 3 tab., 2007.

Mahmud, S.G., Shamsuddin, S.A.J., Ahmed, M.F., Davison, A., Deere, D., and Howard, G., “Development and implementation of water safety plans for small water supplies in Bangladesh : benefits and lessons learned”, Journal of water and health, pp. p. 585-597, 2007.

Kemper, K.E., “Implementation completion and results report (ida-31240 swtz-21082) on a credit in the amount of sdr 24.2 million (us$ 44.4 million equivalent) to B..”, vol. ICR 000028. World Bank, S.l., p. vii, 66 p.; 4 maps; tab.; fig., 2007.

Duxbury, J. and Panaullah, G., “Remediation of arsenic for agriculture sustainability, food security and health in Bangladesh”. Food and Agriculture Organization (FAO), Rome, Italy, p. 28 p. : 17 fig., 4 tab., 2007.

Howard, G., Ahmed, M.F., Shamsuddin, A.J., Mahmud, S.G., Deere, D., and United Kingdom. Department for International Development -GB, DFID, “Risk assessment of arsenic mitigation options in Bangladesh”, Journal of health, population and nutrition, pp. p. 346-355 : 3 fig., 4 tab., 2006.

Ahmad, J., Misra, S., and Goldar, B., “Rural communities' preferences for arsenic mitigation options in Bangladesh”, Journal of water and health, pp. p. 463-477 : 2 fig., 4 tab., 2006.

Milton, A.H., Smith, W., Rahman, H., Shrestha, R., and Dear, K., “Water consumption patterns in rural Bangladesh : are we underestimating total arsenic load?”, Journal of water and health, pp. p. 431-436 : 1 fig., 5 tab., 2006.

Hanchett, S. and Howard, G., “Arsenic in domestic water sources : the human side of the Bangladesh and West Bengal crisis ”. S.n., S.l., p. 31 p.; 4 tab., 2005.

Fewtrell, L., Fuge, R., and Kay, D., “An estimation of the global burden of disease due to skin lesions caused by arsenic in drinking water”, Journal of water and health, pp. p. 101-107 : 2 fig., 4 tab., 2005.

Sultana, F., “Gender concerns in arsenic mitigation in Bangladesh : trends and challenges : report submitted to the Arsenic Policy Support Unit (APSU), Local Government Division, Ministry of Local Government, Rural Development and Cooperatives, Government of Bangladesh”. University of Minnesota, Minneapolis, MN, USA, p. 41 p. : boxes, fig., tab., 2005.

Warner, D.B., Green Abate, C., and Catholic Relief Services East Africa Regional Office -Nairobi, KE, “Guidelines for the development of small-scale rural water supply and sanitation projects in East Africa : a policy and planning framework for activities funded by USAID under the Title II (Food for Peace) Program and by other donors”. Catholic Relief Services (CRS) East Africa Regional Office, Nairobi, Kenya, p. 50 p., 2005.

Ahmed, M.F., Shamsuddin, A.J., Mahmud, S.G., Rashid, H.U., Deere, D., and Howard, G., Risk assessment of arsenic mitigation options (RAAMO) : final report. Dhaka, Bangladesh: Bangladesh, Department of Public Health Engineering, Arsenic Policy Support Unit, APSU, 2005, p. 120 p. + 26 p. annexes : 3 fig., 4 tab.

World Bank -New Delhi, IN, “Towards a more effective operational response : arsenic contamination of groundwater in South and East Asian countries. Volume II. Technical report”. World Bank, New Delhi, India, p. 261 p. : 6 boxes, 27 fig., 18 photogr., 53 tab., 2005.

Water and Sanitation Program - South Asia -New Delhi, IN, “Towards a more effective operational response : arsenic contamination of groundwater in South and East Asian countries. Volume I. Policy report”. World Bank, Washington, DC, USA, p. 63 p. : 1 box, 5 fig., 8 tab., 2005.

Brunt, R., Vasak, L., and Griffioen, J., “Arsenic in groundwater : probability of occurrence of excessive concentration on global scale”. International Groundwater Resources Assessment Centre (IGRAC), Utrecht, The Netherlands, p. i, 9 p. + 4 p. appendices : 6 fig., 2004.

Luzi, S., Berg, M., Pham, T.K.T, Pham, H.V., and Schertenleib, R., Household sand filters for arsenic removal : an option to mitigate arsenic from iron-rich groundwater. Duebendorf, Switzerland: Swiss Federal Institute for Environmental Science and Technology (EAWAG), 2004, p. 31 p. : 12 fig., 2 tab.

Rosenboom, J.-W., “Not just red or green : an analysis of arsenic data in 15 upazilas in Bangladesh”. Bangladesh, Department of Public Health Engineering, Arsenic Policy Support Unit, APSU, Dhaka, Bangladesh, p. xv, 203 p. : 55 fig, 49 tab. , 2004.