| About the book series |
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xxi | |
| Dedication |
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xxiii | |
| Organizers |
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xxv | |
| Sponsors and Contributors |
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xxvii | |
| Scientific Committee |
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xxix | |
| Foreword (Director General, Institute of Urban Environment, Chinese Academy of Sciences) |
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xxxiii | |
| Foreword (Vice President, China University of Geosciences, Beijing) |
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xxxv | |
| Foreword (KTH Royal Institute of Technology) |
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xxxvii | |
| Foreword (Deputy Vice Chancellor, University of Southern Quensland) |
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xxxix | |
| Foreword (Director, KWR Watercycle Research Institute) |
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xli | |
| Foreword (Vice Chancellor and President, The University of Newcastle) |
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xliii | |
| Editors' foreword |
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xlv | |
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xlvii | |
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Sedimentological and hydro-biogeochemical processes controlling arsenic behavior in the Holocene and upper Pleistocene aquifers of the central Yangtze River Basin |
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3 | (2) |
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Groundwater Assessment Platform (GAP): A new GIS tool for risk forecasting and mitigation of geogenic groundwater contamination |
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5 | (2) |
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Arsenic biogeochemistry from paddy soil to rice |
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7 | (2) |
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Mechanism of As(IIl) S-adenosylmethionine methyltransferases and the consequences of human polymorphisms in hAS3MT |
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9 | (3) |
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Genetic susceptibility and alterations in relation to arsenic exposure, metabolism and toxicity |
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12 | (3) |
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Arsenic oral bioavailability in soils, housedust, and food: implications for human health |
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15 | (3) |
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Arsenic removal by iron-based nanomaterials |
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18 | (4) |
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Distribution of arsenic hazard in public water supplies in the United Kingdom -- methods, implications for health risks and recommendations |
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22 | (7) |
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Section 1 Arsenic behaviour in changing environmental media |
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1.1 Sources, transport and fate of arsenic in changing groundwater systems |
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AdvectAs challenge: multidisciplinary research on groundwater arsenic dissolution, transport, and retardation under advective flow conditions |
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29 | (3) |
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Arsenic in the Baltic Sea sediments -- past, present, and future |
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32 | (2) |
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The role of aquifer flushing on groundwater arsenic across a 35-km transect in the upper Brahmaputra River in Assam, India |
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34 | (2) |
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Geographical controls on arsenic variability in groundwater of Upper Indus Basin, Punjab, Pakistan |
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36 | (3) |
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The influence of irrigation-induced water table fluctuation on iron redistribution and arsenic fate in unsaturated zone |
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39 | (2) |
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Towards imaging the spatial distribution of geochemical heterogeneities and arsenic sources |
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41 | (2) |
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Source of arsenic bearing detrital minerals in shallow aquifer of southeastern Bangladesh |
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43 | (2) |
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Groundwater arsenic contamination in selected area of Bihar |
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45 | (2) |
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Naturally occurring arsenic in geothermal systems in Turkey |
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47 | (3) |
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Exploring arsenic and other geogenic groundwater contaminants in the vast and scarcely studied Amazon Basin |
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50 | (2) |
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Arsenic volume estimates in Holocene clay plug sediments in Bihar, India |
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52 | (2) |
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Steady-state groundwater arsenic concentrations in reducing aquifers |
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54 | (2) |
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Arsenic and polymetallic contaminants in groundwater of the arid regions of South Africa |
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56 | (2) |
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Effect of recharging water from Meghna River on the arsenic contaminated groundwater |
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58 | (2) |
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Groundwater arsenic distribution reconnaissance survey in Myanmar |
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60 | (2) |
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Potential arsenic contamination in drinking water sources of Tanzania and its link with local geology |
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62 | (2) |
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Spatial variability of trace elements with Moran's I Analysis for shallow groundwater quality in the Lower Katari Basin, Bolivian Altiplano |
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64 | (2) |
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Influence of hydrothermal fluids enriched in As and F on the chemistry of groundwaters of the Duero Basin, Spain |
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66 | (5) |
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1.2 Origin and reactivity of organic matter in high arsenic groundwater systems Arsenic methylation and its relationship to abundance and diversity of arsM Genes in composting manure |
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71 | (24) |
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Hydrogeological and geochemical comparison of high and low arsenic groundwaters in the Hetao Basin, Inner Mongolia |
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73 | (2) |
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Effects of sediment properties and organic matter on biomobilization of arsenic from aquifer sediments in microcosms |
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75 | (2) |
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Organic acid effect on arsenate bioaccessibility in gastric and alveolar simulated biofluid systems |
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77 | (2) |
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Abundance, size distribution and dissolved organic matter binding of arsenic in reducing aquifer |
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79 | (2) |
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Sedimentological controls on the formation of high arsenic aquifers in the central Yangtze River Basin since the Last Glacial Maximum |
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81 | (2) |
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Roles of dissolved organic matter on seasonal arsenic variation in shallow aquifers of the central Yangtze River Basin by EEM-PARAFAC analysis |
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83 | (2) |
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Roles of iron and/or arsenic reducing bacteria in controlling the mobilization of arsenic in high arsenic groundwater aquifer |
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85 | (2) |
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The DOM characteristic in As-affected aquifer of Chaobai River in the North China Plain |
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87 | (2) |
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Sulfurated fertilizers enhance the microbial dissolution and release of arsenic from soils into groundwater by activating arsenate-respiring prokaryotes |
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89 | (6) |
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1.3 Biogeochemical processes controlling arsenic mobility, redox transformation and climate change impacts |
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Structural insight into the catalytic mechanism of arsenate reductase from Synechocystis sp. PCC 6803 |
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95 | (40) |
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Impacts of environmental factors on arsenate biotransformation and release in Microcystis aeruginosa using Taguchi experimental design |
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97 | (2) |
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Elevated oxidizing compounds influencing the biogeochemistry of arsenic in subsurface environments |
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99 | (3) |
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Multiple species of arsenic biotransformation occur in Nostoc sp. PCC 7120 |
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102 | (2) |
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Irrigation activities affecting arsenic mobilization in topsoil in Datong Basin, northern China |
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104 | (2) |
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Effects of microbial communities on arsenic mobilization and enrichment in groundwater from the Datong Basin, China |
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106 | (2) |
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The effects of the bioanode on the microbial community and element profile in paddy soil |
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108 | (2) |
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Role of carbonate on arsenic mobilization in groundwater |
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110 | (2) |
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Effect of symbiotic bacteria on the accumulation and transformation of arsenite by Chlorella salina |
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112 | (2) |
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Arsenic transformation mediated by Pantoea sp. IMH in spent nZVI waste residue |
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114 | (2) |
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Land scale biogeography of arsenic biotransformation genes in estuarine wetland |
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116 | (3) |
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Arsenic, manganese, and dissolved organic matter biogeochemistry in the Bengal Basin (India) and Southern Pampean plain (Argentina) |
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119 | (2) |
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Arsenic mobilization in shallow aquifer of Bengal Delta Plain: role of microbial community and pathogenic bacteria |
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121 | (2) |
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Distribution and hydrogeochemical behavior of arsenic-enriched groundwater in the sedimentary aquifers: Comparison between Datong Basin, China and Kushtia District, Bangladesh |
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123 | (2) |
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Unravelling the role of microorganisms in arsenic mobilization using metagenomic techniques |
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125 | (2) |
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Understanding arsenic evolution in a shallow, reducing aquifer in the lower Mekong basin, Cambodia using geochemical tracers |
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127 | (2) |
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Significance of arsenic resistant prokaryotes in climate change perspective |
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129 | (2) |
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Microbial study related with the arsenic hydrogeochemistry of the Xichii River in Guanajuato, Mexico |
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131 | (4) |
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1.4 Arsenic and other trace elements in groundwater of China |
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Nano-TiO2 both increases and decreases arsenic toxicity: Evidence from different aquatic animal experiments |
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135 | (2) |
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Interfacial interaction of arsenic(V) with Mg-containing calcite and calcite |
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137 | (2) |
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Temporal dynamics of microbial community structure and its effect on arsenic mobilization and transformation in Quaternary aquifers of the central Yangtze River Basin |
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139 | (2) |
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Variation of Extracellular Polymeric Substances (EPS) of Chlamydomonas reinhardtii under arsenic stress |
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141 | (2) |
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The connection of manganese and arsenic in unconfined groundwater and shallow confined groundwater of Jianghan plain, China |
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143 | (2) |
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Functions and unique diversity of genes and microorganisms involved in arsenic methylation in the arsenic-rich shallow and deep sediments of Jianghan Plain |
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145 | (5) |
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Characteristics and mechanisms of arsenic behavior during the microbial oxidation-reduction of iron |
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150 | (2) |
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Microbial community in high arsenic groundwater aquifers from Hetao Plain of Inner Mongolia, China |
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152 | (5) |
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1.5 Spatial and temporal evolution of arsenic in mine waste and tailings |
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Application of stable isotopes on bioaccumulation and trophic transfer of arsenic in aquatic organisms around a closed realgar mine |
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157 | (2) |
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Arsenic characteristics in the terrestrial environment in the vicinity of the Shimen realgar mine, China |
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159 | (2) |
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Hydrochemical characteristics and the genesis of high arsenic groundwater in the ecotone between polymetallic sulfide mining area and irrigated agricultural area |
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161 | (2) |
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Potential threat of arsenic contamination of water sources from gold mining activities in Lake Victoria areas, Tanzania |
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163 | (6) |
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1.6 Arsenic mobility and fate in contaminated soils and sediments |
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Effect of humic acid on microbial arsenic reduction in anoxic paddy soil |
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169 | (2) |
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Arsenic relative bioavailability in contaminated soils: comparison of animal models, dosing schemes, and biological endpoints |
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171 | (2) |
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Facilitated release of arsenic from polluted sediment in Plateau Lakeshore Wetland by phosphorus input |
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173 | (2) |
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Quantification of arsenic adsorption and oxidation on manganese oxides |
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175 | (3) |
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A novel MAs(III)-selective ArsR transcriptional repressor |
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178 | (2) |
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A preliminary investigation on adsorption behavior of As(III) and As(V) in Jianghan Plain |
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180 | (3) |
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Surface complexation modeling of arsenic mobilization from goethite: Interpretation of in-situ experiments in a sedimentary basin of Inner Mongolia, China |
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183 | (2) |
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Effects of carbonate and Fe(II) on As(III) adsorption and oxidation on hydrous manganese oxide |
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185 | (3) |
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Effects of the seeding phenomenon in the scorodite precipitation process |
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188 | (2) |
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Effect of microbial sulfate reduction on arsenic mobilization in aquifer sediments from the Jianghan Plain, Central Yangtze River Basin |
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190 | (2) |
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Assessing arsenic ecotoxicity in tropical soils for regulatory purposes: Which endpoints are more appropriate? |
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192 | (4) |
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Arsenic and trace metal mobility in alum shale areas in Sweden |
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196 | (5) |
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1.7 Arsenic in dust and road deposits |
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Trends in antimony pollution near exposed traffic nodes: comparison with arsenic |
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201 | (2) |
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Arsenic contaminated dust and the mud accident in Fundao (Brazil) |
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203 | (7) |
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1.8 Advances and challenges in arsenic analysis in solid and aqueous matrix |
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Effects of arsenite oxidation on metabolic pathways and the roles of the regulator AioR in Agrobacterium tumefaciens GW |
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207 | |
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Sulfur-arsenic interactions and formation of thioarsenic complexes in the environment |
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210 | (2) |
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Application of spectral gamma and magnetic susceptibility in an As-bearing loessic aquifer, Argentina |
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212 | (3) |
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Speciation of arsenic in sediment and groundwater |
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215 | (2) |
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Total arsenic and inorganic arsenic speciation and their correlation with fluoride, iron and manganese levels in groundwater intended for human consumption in Uruguay |
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217 | (2) |
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Optimization of the high pressure leaching of Complex Copper Concentrates of Codelco using a process simulator |
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219 | (2) |
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Comparative genomic analysis reveals organization, function and evolution of ars genes in Pantoea spp |
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221 | (2) |
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Thioarsenic compounds exist in the drinking groundwater |
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223 | (2) |
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Arsenic speciation of groundwater and agricultural soils in central Gangetic basin, India |
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225 | (2) |
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Single-particle identification of trace arsenic constituents in environmental samples |
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227 | (6) |
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Section 2 Arsenic in a changing agricultural ecosystem and food chain effects |
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2.1 Processes and pathways of arsenic in agricultural ecosystems |
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Derivation of soil thresholds for arsenic applying species sensitivity distribution |
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233 | (2) |
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Spatial variation of arsenic in irrigation well water from three flood plains (Ravi, Chenab and Jhelum) of Punjab, Pakistan |
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235 | (2) |
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Occurrence of arsenic in agricultural soils from the Chaco-Pampean plain (Argentina) |
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237 | (2) |
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Arsenic and antimony concentrations in Chinese typical farmland soils |
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239 | (2) |
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Characterization of an agricultural site historically polluted by the destruction of arsenic-containing chemical weapons |
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241 | (2) |
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Absorption and distribution of phosphorus from Typha under arsenic |
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243 | (2) |
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Adsorption of arsenic by birnessite-loaded biochar in water and soil |
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245 | (2) |
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The application of organics promotes arsenic methylation in paddy soils |
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247 | (2) |
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Traceability of arsenic in agricultural water in Irrigation District 005, Mexico |
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249 | (2) |
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M.L. Ballinas-Casarrubias |
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Arsenic data availability in agricultural soils and waters in Europe |
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251 | (2) |
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Arsenic in cattle: Evaluation of possible exposure biomarkers |
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253 | (4) |
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2.2 Arsenic dynamics in rhizosphere |
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Bioelectrochemical arsenite oxidation in rice rhizosphere in plant-microbial fuel cells |
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257 | (2) |
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Thioarsenate formation in paddy soils |
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259 | (2) |
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The role of radial oxygen loss on the flux of arsenic and other elements in rice rhizosphere |
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261 | (4) |
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2.3 Microbial ecology of arsenic biotransformation in soils |
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Microbial transformation of arsenic in Bengal floodplain |
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265 | (3) |
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Concurrent methylation and demethylation of arsenic in fungal cells |
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268 | (2) |
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Response of soil microbial communities to elevated antimony and arsenic contamination indicates the relationship between the innate microbiota and contaminant fractions |
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270 | (2) |
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Transformation of roxarsone by Enterobacter sp. CZ-1 isolated from an arsenic-contaminated paddy soil |
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272 | (2) |
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Functional microbial communities in high arsenic groundwater |
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274 | (5) |
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2.4 Molecular mechanisms of plant arsenic uptake |
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Heterologous expression of PvACR3;1 decreased arsenic accumulation in plant shoots |
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279 | (2) |
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Exploration of biochemical properties of soil and groundwater in arsenic affected blocks of Murshidabad district and isolation of potential arsenic resistant bacteria |
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281 | (2) |
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An effective rhizoinoculation restraints arsenic translocation in peanut and maize plants exposed to a realistic groundwater metalloid dose |
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283 | (6) |
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2.5 Speciation and toxicity of arsenic in food chain |
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Arsenic speciation in soil-water system and their uptake by rice (Oryza sativa) |
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289 | (2) |
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Application of nanofilms for arsenic speciation using surface-enhanced Raman spectroscopy (SERS) |
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291 | (2) |
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Interannual variability of dissolved and rice grain concentrations of arsenic and cadmium in paddy fields subjected to different water managements |
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293 | (2) |
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The effects of different arsenic species in relation to straighthead disease in rice |
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295 | (2) |
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Effects of foliar application of silicon on uptake and translocation of arsenite and DMA in rice (Oryza sativa) |
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297 | (2) |
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Persistence and plant uptake of methylarsenic in continuously- and intermittently-flooded rice paddies |
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299 | (2) |
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Geographical variation of arsenic in rice from Bangladesh: Cancer risk |
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301 | (2) |
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Translocation of arsenic in food chain: A case study from villages in Gangetic basin, India |
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303 | (4) |
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2.6 Threshold values of food arsenic |
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Bioaccessibility and arsenic speciation in carrots, beets and quinoa from a contaminated area of Chile |
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307 | (2) |
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Contribution of (factors) cooking water, raw rice, and traditional cooking method on cooked rice arsenic level |
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309 | (2) |
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Study of arsenic in drinking water and food in three different districts of Bihar, India |
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311 | (2) |
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Effects of arsenic on growth, saponins and flavoids yield of Panax notoginseng (Burk. EH. Chen) and its control measurements |
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313 | (4) |
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Section 3 Health impacts of environmental arsenic |
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3.1 Exposure and epidemiology of arsenic impacts on human health |
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Arsenic, DNA damage, and cancers of bladder and kidney -- a long-term follow-up of residents in arseniasis endemic area of north-eastern Taiwan |
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317 | (2) |
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Arsinothricin: a novel arsenic-containing antibiotic |
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319 | (3) |
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Arsenic induces Thl/Th2 imbalance in immune and non-immune organs |
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322 | (2) |
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Thiolation in arsenic metabolism: a chemical perspective |
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324 | (2) |
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AS3MT polymorphisms, arsenic metabolites and pregnancy |
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326 | (2) |
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Prevalence of cancer incidences in Bihar, India due to poisoning in groundwater |
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328 | (3) |
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Arsenic exposure from drinking water and the occurrence of micro- and macrovascular complications of type 2 diabetes |
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331 | (2) |
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Chronic arsenic exposure, endothelial dysfunction and risk of cardiovascular diseases |
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333 | (3) |
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Arsenic exposure, lung function, vitamin D and immune modulation in the Health Effects of Arsenic Longitudinal Study (HEALS) cohort |
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336 | (3) |
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Arsenic in drinking water and childhood mortality: A 13-year follow-up findings |
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339 | (4) |
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3.2 Genetic predisposition of chronic arsenic poisoning |
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OsRCS3 functions as a cytosolic O-acetylserine(thiol)lyase and regulates arsenic accumulation in rice |
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343 | (2) |
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Epigenomic alterations in the individuals exposed to arsenic through drinking water in West Bengal, India |
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345 | (2) |
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Identification of arsenic susceptibility by using the micronucleus assay and Single Nucleotide Polymorphisms (SNP) |
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347 | (2) |
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Alternative splicing of arsenic (III oxidation state) methyltransferase |
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349 | (4) |
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3.3 Reliable biomarkers for arsenic exposure |
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Drinking water arsenic exposure, thyroid hormone biomarkers and neurobehavioral outcomes in adolescents |
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353 | (2) |
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Arsenic exposure in the Canadian general population: levels of arsenic species measured in urine, and associated demographic, lifestyle or dietary factors |
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355 | (4) |
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3.4 Risk assessment of chronic ingestion |
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Beyond the wells: role of diet on arsenic induced toxicity in exposed populations of Bihar, India |
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359 | (2) |
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Effects of folate on arsenic methylation pattern and methionine cycle in sub chronic arsenic-exposed mice |
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361 | (2) |
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Health risk assessment of arsenic dispersion from mining in Mount Isa |
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363 | (2) |
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Assessing drinking water quality at high dependent point of sources and potential health risk of massive population: A view from Tala Upazila of Satkhira District in Bangladesh |
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365 | (4) |
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Health impact of chronic arsenic exposure in the population of Gyaspur-Majhi village, Patna, Bihar India |
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369 | (2) |
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Health risks related to seafood consumption and arsenic speciation in fish and shellfish from North Sea (Southern Bight) and Acu Port area (Brazil) |
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371 | (2) |
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A dietary intervention in Bangladesh to counteract arsenic toxicity |
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373 | (2) |
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Arsenic contamination in drinking water from groundwater sources and health risk assessment in the Republic of Dagestan, Russia |
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375 | (4) |
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3.5 Multi-metal synergies in chronic exposure cases |
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Interaction of polyaromatic hydrocarbons and metals on bioaccessibility and toxicity of arsenic |
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379 | (2) |
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Contamination of arsenic and heavy metals in coal exploitation area |
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381 | (5) |
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Contamination of water, soil and plant with arsenic and heavy metals |
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386 | (5) |
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3.6 Assessment of global burden of arsenic in drinking water and health care systems for exposed population |
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Pharmacodynamic study of the selenium-mediated arsenic excretion in arsenicosis patients in Bangladesh |
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391 | (4) |
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Exposure levels to various arsenic species and their associated factors in Korean adults |
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395 | (2) |
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A medical geology perspective of arsenic as a poison and medicinal agents |
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397 | (4) |
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Section 4 Technologies for arsenic immobilization and clean water blueprints |
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|
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4.1 Adsorption and co-precipitation for arsenic removal |
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Interaction of arsenic with co-precipitated Fe(II,III) (hydr)oxides |
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401 | (2) |
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Adsorptive removal of arsenic by calcined Mg-Fe-(CO3) LDH: An artificial neural network model |
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403 | (2) |
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Influence of Fe(II), Fe(III) and Al on arsenic speciation in treatment of contaminated water by Fe and Al (hydr)oxides co-precipitation |
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405 | (2) |
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Sorption of toxic oxyanions to modified kaolines |
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407 | (2) |
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Efficient removal of arsenic species by green rust sulfate (GRsca) |
|
|
409 | (3) |
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Arsenite removal from water by an iron-bearing Layered Double Hydroxide (LDH) |
|
|
412 | (2) |
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Effect of Ca2+ and PO34- on As(III) and As(V) adsorption at goethite-water interface: Experiments and modeling |
|
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414 | (2) |
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An insight into As(III) adsorption behavior on ß-cyclodextrin functional ized hydrous ferric oxide: Synthesis and characterization |
|
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416 | (2) |
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Iron-based subsurface arsenic removal by aeration (SAR) -- results of a pilot-scale plant in Vietnam |
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418 | (2) |
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|
A new material could effectively treatment of arsenic-contaminated water |
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420 | (2) |
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Decrease of arsenic in water from the Pampean plain (Argentina) by calcium salts addition |
|
|
422 | (2) |
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Adsorption and photocatalytic study of calcium titanate (CaTiC>3) for the arsenic removal from water |
|
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424 | (2) |
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|
TiO2 facet-dependent arsenic adsorption and photooxidation: Spectroscopic and DFT study |
|
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426 | (2) |
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|
Sorption studies and characterization of developed biochar composites for As(III) adsorption from water |
|
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428 | (2) |
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|
Evaluating the arsenic removal potential of Japanese oak wood biochar in aqueous solutions and groundwater |
|
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430 | (2) |
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Modeling arsenic removal by co-precipitation under variable redox conditions |
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|
432 | (3) |
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|
Visual MINTEQ simulation for prediction of the adsorption of arsenic on ferrihydrite |
|
|
435 | (2) |
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Clay-biochar composite for arsenic removal from aqueous media |
|
|
437 | (2) |
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|
Iron coated peat as a sorbent for the simultaneous removal of arsenic and metals from contaminated water |
|
|
439 | (4) |
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|
|
4.2 Ion exchange and membrane technologies |
|
|
|
Development of membrane by using iron-containing synthetic materials for arsenic removal from water |
|
|
443 | (2) |
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As(V) rejection by NF membranes for drinking water from high temperature sources |
|
|
445 | (2) |
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|
|
As(III) oxidation during full-scale aeration and rapid filtration |
|
|
447 | (4) |
|
|
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|
|
4.3 Nanotechnological applications in arsenic treatment |
|
|
|
Combined effect of weak magnetic fields and anions on arsenite sequestration by zerovalent iron |
|
|
451 | (2) |
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|
|
Remediation of arsenic contaminated groundwater with magnetite (Fe3O4) and chitosan coated Fe3O4 nanoparticles |
|
|
453 | (2) |
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|
|
Removal of arsenic from wastewater treated by means of nanoparticles and magnetic separation |
|
|
455 | (2) |
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|
|
A synergistic Cu-AI-Fe nano adsorbent for significant arsenic remediation and As(0) supported mitigation in aqueous systems |
|
|
457 | (2) |
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|
|
Exploring the scope of nanoparticles for arsenic removal in groundwater |
|
|
459 | (2) |
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|
|
Immobilization of magnetite nanoparticles for the removal of arsenic and antimony from contaminated water |
|
|
461 | (2) |
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|
|
Arsenic retention on technosols prepared with nanoparticles for treatment of mine drainage water |
|
|
463 | (4) |
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|
|
4.4 Arsenic solidification and immobilization for contaminated soils |
|
|
|
Reciprocal influence of arsenic and iron on the long-term immobilization of arsenic in contaminated soils |
|
|
467 | (3) |
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|
|
Evaluation of chemical stabilizers for the retention in a mining tailing contaminated soil |
|
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470 | (2) |
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|
Treatment of low-level As contaminated excavated soils using ZVI amendment followed by magnetic retrieval |
|
|
472 | (2) |
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|
|
Arsenic remediation through magnetite based in situ immobilization |
|
|
474 | (5) |
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|
|
4.5 Phytoremediation of arsenic-contaminated soils |
|
|
|
Phytate enhanced dissolution of As-goethite and uptake by As-hyperaccumulator Pteris vittata |
|
|
479 | (2) |
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|
|
Development of a phyto-stabilization strategy based on the optimization of endogenous vegetal species development on a former arsenic-bearing mine waste |
|
|
481 | (2) |
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|
|
Phytoremediation of arsenic using a chemical stabilizer and Eleocharis macrostachya in a contaminated mining soil |
|
|
483 | (4) |
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|
|
4.6 Innovative technologies |
|
|
|
Removal of arsenic by fungal strains of Fusarium |
|
|
487 | (2) |
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|
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|
|
Permanent remediation of toxic arsenic trioxide in Canada's North |
|
|
489 | (2) |
|
|
|
Identification arsenic (V) by cyclic voltammetry and recovery of arsenic by electrodeposition |
|
|
491 | (2) |
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|
|
Constructed wetlands as an alternative for arsenic removal |
|
|
493 | (3) |
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|
|
Simultaneous electricity production and arsenic mitigation in paddy soils by using microbial fuel cells |
|
|
496 | (2) |
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|
|
Arsenic removal from groundwater by capacitive deionization (CDI): findings of laboratory studies with model water |
|
|
498 | (2) |
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|
|
As(III) removal in natural groundwaters: influence of HPO2-4, H4SiO4, Ca2+, Mg2+ and humic acid in complex, realistic water matrices |
|
|
500 | (2) |
|
|
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|
|
Fecal contamination of drinking water in arsenic-affected area of rural Bihar: tube-well and storage container survey |
|
|
502 | (2) |
|
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|
|
Biomineralization of charophytes and their application in arsenic removal from aquatic environment |
|
|
504 | (2) |
|
|
|
|
|
|
|
Efficient generation of aqueous Fe in electrocoagulation systems for low-cost arsenic removal |
|
|
506 | (2) |
|
|
|
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|
|
|
Arsenic removal without thio-As formation in a sulfidogenic system driven by sulfur reducing bacteria under acidic condition |
|
|
508 | (2) |
|
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|
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|
|
|
Arsenic retention and distribution in a-treatment wetland prototype |
|
|
510 | (2) |
|
|
|
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|
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|
|
|
Reactive transport modeling to understand attenuation of arsenic concentrations in anoxic groundwater during Fe(l I) oxidation by nitrate |
|
|
512 | (2) |
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|
|
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|
|
Simultaneous oxidation of As(lll) and reduction of Cr(VI) by Alcaligenus sp. |
|
|
514 | (2) |
|
|
|
|
|
|
|
|
|
|
|
Nitrate respirers mediate anaerobic As(III) oxidation in filters |
|
|
516 | (5) |
|
|
|
|
|
Section 5 Sustainable mitigation and management |
|
|
|
5.1 Societal involvement for mitigations of long-term exposure |
|
|
|
Sustainable arsenic mitigation and management through community participation |
|
|
521 | (2) |
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|
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|
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|
|
|
Community effects on safe water selection -- the case of West Bengal |
|
|
523 | (2) |
|
|
|
|
|
|
|
|
|
Likelihood of adoption of arsenic-mitigation technologies under perceived risks to health, income, and social discrimination to arsenic contamination |
|
|
525 | (5) |
|
|
|
|
|
Social approach to arsenic mitigation in Gangetic belt, India |
|
|
530 | (5) |
|
|
|
|
|
5.2 Policy instruments to regulate arsenic exposure |
|
|
|
Integrating policy, system strengthening, research and harmonized services delivery for scaling up drinking water safety in Bangladesh |
|
|
535 | (6) |
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|
|
|
|
|
5.3 Risk assessments and remediation of contaminated land and water environments -- Case studies |
|
|
|
Effect of arsenic risk assessment in Pakistan on mitigation action |
|
|
541 | (2) |
|
|
|
|
|
|
|
Alleviation of altered ultrastructure in arsenic stressed rice cultivars under proposed irrigation practice in Bengal Delta Basin |
|
|
543 | (2) |
|
|
|
|
|
|
|
|
|
|
|
Arsenic linked to a former mining activity in the Hunan province: distribution at the local scale and bacterial As(III) oxidation |
|
|
545 | (2) |
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|
|
|
|
|
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|
|
|
|
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|
|
Assessing the phytoremediation potential of a flowering plant Zinnia angustifolia for arsenic contaminated soil |
|
|
547 | (2) |
|
|
|
|
|
Evaluation of leaf proteomics responses during selenium mediated tolerance of arsenic toxicity in rice (Oryza sativa L.) |
|
|
549 | (2) |
|
|
|
|
|
|
|
|
|
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|
|
Evaluation of proteomics responses of rice (Oryza sativa) during arsenic toxicity amelioration by a potential microbial consortium |
|
|
551 | (2) |
|
|
|
|
|
|
|
|
|
Evaluation of nitrogen supply on arsenic stress responses of rice (Oryza sativa L.) seedlings |
|
|
553 | (2) |
|
|
|
Remediation of a heavy metals contaminated site in urban area: a case study from southern China |
|
|
555 | (2) |
|
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|
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|
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|
|
|
Influence of pH in the conditioning and dehydration processes of arsenic-containing sludge |
|
|
557 | (2) |
|
|
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|
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|
|
|
|
Assessment of environmental and health risks of arsenic in agricultural soils |
|
|
559 | (2) |
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|
|
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|
|
|
Acid induced arsenic removal from soil amended with clay-biochar composite |
|
|
561 | (4) |
|
|
|
|
|
|
|
5.4 Mitigation and management of arsenic in a sustainable way |
|
|
|
Implementation of arsenic mitigation: insights from Araihazar and Matlab -- two extensively studied areas in Bangladesh |
|
|
565 | (2) |
|
|
|
|
|
|
|
Mitigation actions performed to the remediation of groundwater contamination by arsenic in drinking water sources in Chihuahua, Mexico |
|
|
567 | (2) |
|
|
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|
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|
|
|
Microorganism: natural sweepers of arsenic in industrial wastewater |
|
|
569 | (2) |
|
|
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|
|
|
|
|
|
|
Smart phone Fe test kit as quick screening tool for identification of high risk areas for arsenic exposure |
|
|
571 | (2) |
|
|
|
|
|
Thiourea supplementation reduces arsenic accumulation in two selected rice (Oryza sativa L.) cultivars in a field study in Bengal Delta Basin, India |
|
|
573 | (2) |
|
M.K. Upadhyay S. Srivastava |
|
|
|
|
|
|
|
|
Effects of boron nutrition on arsenic uptake and efflux by rice seedlings |
|
|
575 | (3) |
|
|
|
|
|
Sustainable management of groundwater resources in China: the impact of anthropogenic and natural occurring arsenic pollution |
|
|
578 | (2) |
|
|
|
|
|
Simultaneous removal of arsenic and fluoride from water using iron and steel slags |
|
|
580 | (2) |
|
|
|
|
|
|
|
|
|
|
|
Mitigation of As accumulation in paddy rice (Oryza sativa L.) by amendments containing iron and manganese |
|
|
582 | (3) |
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|
|
|
|
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|
|
|
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|
|
Arsenic removal from water of the Peruvian rivers using low cost carbon base adsorbents produced from agro industry waste |
|
|
585 | (2) |
|
|
|
|
|
|
|
Arsenic oxidation by hypertolerant Bacillus sp. L-148 in artificial groundwater microcosm |
|
|
587 | (2) |
|
|
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Relation between As(III) oxidation potential and siderophore production: a study of tannery As(III) oxidizers |
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589 | (2) |
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Arsenic removal to 1 μg L-1 by coprecipitation with in-situ generated Fe(III) precipitates with and without advanced pre-oxidation |
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591 | (2) |
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Reduction of low arsenic concentrations in drinking water to below 1μgL-1 by adsorption onto granular iron (hydr)oxides |
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593 | (2) |
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Mitigating of arsenic accumulation in rice (Oryza sativa L.) from typical arsenic contaminated paddy soil of southern China using a-MnCh nano-flowers: pot experiment and field application |
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595 | (4) |
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Phycoremediation of arsenic by Chlorella sp. CB |
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597 | |
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Arsenic removal from natural contaminated groundwaters in Calabria Region (Italy) by nanofiltration |
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599 | (2) |
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Towards harmonizing approaches for scaling up access to arsenic safe water in Bangladesh: The Arsenic Safe Village Concept |
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601 | (3) |
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Harmonizing sector approaches for scaling up access to arsenic safe water in Bangladesh: The DPHE-UNICEF Arsenic Mitigation Protocol |
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604 | (3) |
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Iran's first waterworks with granular ferric hydroxide-based dearsenification -- a look back over the first two years of operation |
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607 | (6) |
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5.5 Drinking water regulations of water safety plan |
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Arsenic pollution in shallow drinking wells in Yuncheng Basin, China: occurrence and mechanisms |
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613 | (2) |
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Analysis of tubewell arsenic concentration test results using an updated arsenic information management system in Nepal |
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615 | (3) |
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Integrating arsenic in water safety planning in The Netherlands |
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618 | (5) |
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5.6 Arsenic in drinking water and implementation plan for safe drinking water supply from sustainable development perspectives |
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Sustainable small-scale, membrane based arsenic remediation for developing countries |
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623 | (4) |
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Identifying the arsenic-safe aquifers of the Ganges Delta: some insights into sustainable aquifer management |
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627 | (2) |
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ASMITAS -- a novel application for digital izing the SASMIT Sediment Color Tool to identify arsenic safe aquifers for drinking water supplies |
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629 | (4) |
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Deep hand tube-well water for achieving sustainable development goal in arsenic affected villages: Bangladesh experience |
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633 | (3) |
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Small-scale piped water supply: end-user inclusive water research in arsenic affected areas in India and Bangladesh (DELTAP) |
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636 | (3) |
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| Author index |
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639 | |
