Arsenic in shallow aquifer in the eastern region of Bangladesh: insights from principal component analysis of groundwater compositions

Probable sources and mechanisms of arsenic (As) release in shallow aquifer in eastern Bangladesh are evaluated using statistical analysis of groundwater compositions. Dissolved As in 39 samples ranged from 8.05 to 341.5 μg/L with an average of 95.14 μg/L. Ninety seven percent of wells exceed the WHO limit (10 μg/L) for safe drinking water. Principal component analysis is applied to reduce 16 measured compositional variables to five significant components (principal components—PCs) that explain 86.63% of the geochemical variance. Two component loadings, namely PC 1 and PC 2 (45.31% and 23.05%) indicate the natural processes within the aquifers in which organic matter is a key reactant in the weathering reactions. Four groups of wells are defined by the PCA and each group of wells represents distinct physicochemical characteristics. Among them, group III groundwater shows higher As concentration together with high concentrations of Fe, Mn, dissolved organic carbon, $\text{PO}_{4}^{3-}$ and $\text{HCO}_{3}^{-}$ than groups I and II. Speciation calculations suggest that only wells of group III are saturated with respect to siderite, and all groups of samples are supersaturated with respect of rhodochrosite. The relationship of As with these parameters in the different groups of wells of the study area suggests that reductive dissolution of Fe–Mn oxyhydroxides with microbially mediated degradation of organic matter is considered to be the dominant processes to release As in groundwater.

[1]  M. Stute,et al.  Redox control of arsenic mobilization in Bangladesh groundwater , 2004 .

[2]  M. F. Hossain Arsenic contamination in Bangladesh : An overview , 2006 .

[3]  J. Wal,et al.  Human impact on regional groundwater composition through intervention in natural flow patterns and changes in land use , 1992 .

[4]  Richard J. Howarth,et al.  Natural organic matter in sedimentary basins and its relation to arsenic in anoxic ground water: the example of West Bengal and its worldwide implications , 2004 .

[5]  Ashutosh Kumar Singh,et al.  Factor analytical approaches for evaluating groundwater trace element chemistry data , 2003 .

[6]  K. Ahmed,et al.  Arsenic poisoning of Bangladesh groundwater , 1998, Nature.

[7]  A. Mukherjee,et al.  Regional hydrostratigraphy and groundwater flow modeling in the arsenic-affected areas of the western Bengal basin, West Bengal, India , 2007 .

[8]  Kikuo Kato,et al.  Geochemical occurrence of arsenic in groundwater of Bangladesh: sources and mobilization processes , 2003 .

[9]  A. Smith,et al.  Contamination of drinking-water by arsenic in Bangladesh: a public health emergency. , 2000, Bulletin of the World Health Organization.

[10]  N. R. Rajagopal,et al.  GROUNDWATER DEVELOPMENT IN THE ARSENIC-AFFECTED ALLUVIAL BELT OF WEST BENGAL : SOME QUESTIONS , 1996 .

[11]  Huaming Guo,et al.  Groundwater geochemistry and its implications for arsenic mobilization in shallow aquifers of the Hetao Basin, Inner Mongolia. , 2008, The Science of the total environment.

[12]  Prosun Bhattacharya,et al.  Distribution and mobility of arsenic in the Río Dulce alluvial aquifers in Santiago del Estero Province, Argentina. , 2006, The Science of the total environment.

[13]  K. Jinno,et al.  Hydrogeochemistry and arsenic contamination of groundwater in the Ganges Delta Plain, Bangladesh. , 2009, Journal of hazardous materials.

[14]  K. Balke,et al.  Groundwater chemistry and occurrence of arsenic in the Meghna floodplain aquifer, southeastern Bangladesh , 2008 .

[15]  J. Perrin,et al.  Arsenic in groundwater of the Bengal Basin, Bangladesh: Distribution, field relations, and hydrogeological setting , 2005 .

[16]  Prosun Bhattacharya,et al.  Occurrence of Arsenic-contaminatedGroundwater in Alluvial Aquifers from Delta Plains, Eastern India: Options for Safe Drinking Water Supply , 1997 .

[17]  René Lefebvre,et al.  Multivariate statistical analysis of geochemical data as indicative of the hydrogeochemical evolution of groundwater in a sedimentary rock aquifer system , 2008 .

[18]  A. Melloul,et al.  The ‘principal components’ statistical method as a complementary approach to geochemical methods in water quality factor identification; application to the Coastal Plain aquifer of Israel , 1992 .

[19]  P. Smedley,et al.  A review of the source, behaviour and distribution of arsenic in natural waters , 2002 .

[20]  R. Reyment,et al.  Statistics and Data Analysis in Geology. , 1988 .

[21]  H. W. Anderson,et al.  Nitrogen Isotopes as Indicators of Nitrate Sources in Minnesota Sand-Plain Aquifers , 1993 .

[22]  S. Nakano,et al.  Mineralogical and geomicrobiological investigations on groundwater arsenic enrichment in Bangladesh , 2004 .

[23]  N. Nahar Impacts of arsenic contamination in groundwater: case study of some villages in Bangladesh , 2009 .

[24]  J. Allison,et al.  MINTEQA2/PRODEFA2, a geochemical assessment model for environmental systems: Version 3. 0 user's manual , 1991 .

[25]  P. Viet,et al.  Hydrological and sedimentary controls leading to arsenic contamination of groundwater in the Hanoi area, Vietnam: The impact of iron-arsenic ratios, peat, river bank deposits, and excessive groundwater abstraction , 2008 .

[26]  L. Charlet,et al.  Arsenic in shallow, reducing groundwaters in southern Asia : An environmental health disaster , 2006 .

[27]  S. Sutton,et al.  Solid-phases and desorption processes of arsenic within Bangladesh sediments , 2006 .

[28]  Rasmus Jakobsen,et al.  Redox zonation: Equilibrium constraints on the Fe(III)/SO4-reduction interface , 1996 .

[29]  D. Chakraborti,et al.  Groundwater arsenic calamity in Bangladesh , 1997 .

[30]  Pradeep K. Aggarwal,et al.  Geochemical study of arsenic release mechanisms in the Bengal Basin groundwater , 2002 .

[31]  I. Jolliffe Principal Component Analysis , 2002 .

[32]  Debashis Chatterjee,et al.  Role of metal-reducing bacteria in arsenic release from Bengal delta sediments , 2004, Nature.

[33]  Prosun Bhattacharya,et al.  Arsenic enrichment in groundwater of the alluvial aquifers in Bangladesh: an overview , 2004 .

[34]  Anna Menció,et al.  Assessment by multivariate analysis of groundwater-surface water interactions in urbanized Mediterranean streams , 2008 .

[35]  D. Chakraborti,et al.  ARSENIC IN GROUNDWATER IN SEVEN DISTRICTS OF WEST BENGAL, INDIA : THE BIGGEST ARSENIC CALAMITY IN THE WORLD , 1996 .

[36]  David G. Kinniburgh,et al.  Arsenic contamination of groundwater in Bangladesh , 2001 .

[37]  D. L. Parkhurst,et al.  User's guide to PHREEQC (Version 2)-a computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations , 1999 .

[38]  R. Naidu,et al.  Arsenic in groundwater of sedimentary aquifers , 2004 .

[39]  A. Mukherjee,et al.  Deeper groundwater chemistry and geochemical modeling of the arsenic affected western Bengal basin, West Bengal, India , 2008 .

[40]  M. Thirlwall,et al.  Arsenic in groundwater: Testing pollution mechanisms for sedimentary aquifers in Bangladesh , 2001 .

[41]  Prosun Bhattacharya,et al.  Arsenic in shallow groundwater of Bangladesh: investigations from three different physiographic settings , 2007 .

[42]  B. Saha,et al.  Groundwater contamination with arsenic in Sherajdikhan, Bangladesh: geochemical and hydrological implications , 2009 .

[43]  J. Banfield,et al.  Biological impact on mineral dissolution: application of the lichen model to understanding mineral weathering in the rhizosphere. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[44]  Prosun Bhattacharya,et al.  Arsenic in Groundwater of the Bengal Delta Plain Aquifers in Bangladesh , 2002, Bulletin of environmental contamination and toxicology.

[45]  R. Berner A New Geochemical Classification of Sedimentary Environments , 1981 .

[46]  P. Viet,et al.  Contamination of drinking water resources in the Mekong delta floodplains: arsenic and other trace metals pose serious health risks to population. , 2008, Environment international.

[47]  Prosun Bhattacharya,et al.  Arsenic in the environment: Biology and Chemistry. , 2007, The Science of the total environment.

[48]  H. Kaiser The Application of Electronic Computers to Factor Analysis , 1960 .

[49]  K. Ahmed,et al.  Mechanism of arsenic release to groundwater, Bangladesh and West Bengal , 2000 .