| About the book series |
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v | |
| Foreword (President, KTH) |
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xxi | |
| Foreword (Vice-Chancellor and President, USQ) |
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xxiii | |
| Foreword (Senior Deputy Vice Chancellor UQ) |
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xxv | |
| Organizers |
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xxvii | |
| Scientific committee |
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xxix | |
| Editors' foreword |
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xxxi | |
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xxxiii | |
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Bioavailability and bio-accessibility of arsenic for ecological and human health risk assessment: The geological and health interface |
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3 | (8) |
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Health hazards and susceptibility biomarkers of arsenic in the environment: Gene-environment interactions |
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11 | (4) |
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Arsenic in the geosphere meets the anthroposphere |
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15 | (8) |
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Section I Geology and hydrogeology of arsenic |
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I.1 Geogenic and anthropogenic sources of arsenic: Significance and characterisation |
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Arsenic mobilization during seawater inundation of acid sulfate soils---hydrogeochemical coupling at the tidal fringe |
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23 | (2) |
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Seasonal hydrological connectivity and arsenic dynamics across an acid sulfate soil affected coastal wetland |
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25 | (2) |
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Arsenic concentrations and speciation in acid sulfate environments |
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27 | (2) |
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The impact of microbial sulfate-reduction on subsurface arsenic mobility |
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29 | (2) |
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Natural arsenic in groundwater of Indus delta in the province of Sindh, Pakistan |
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31 | (2) |
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Sediment and hydrogeochemical contrasts between low and very high arsenic affected areas west and east of river Bhagirathi, West Bengal, India |
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33 | (3) |
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Evolution of arsenic and groundwater isotopes along a sharp gradient in arsenic concentrations in Van Phuc, Vietnam |
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36 | (2) |
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Arsenic and other heavy metal contamination in central India |
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38 | (2) |
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Regional soil arsenic inputs and loading rates from animal manure |
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40 | (3) |
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Arsenic pollution of the Ganga Plain and its impact on the most populated region of the world: Uttar Pradesh and its geo-environment |
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43 | (1) |
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Relationship of arsenic contamination and ecology environment |
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44 | (3) |
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Arsenic contamination in groundwater of Surma basin of Assam and Mizoram, North Eastern India |
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47 | (3) |
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Floodplain morphology and relation to the spatial distribution of arsenic in the aquifers of Matlab, Southeastern Bangladesh |
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50 | (2) |
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Biogeochemical relationships of arsenic in the Haor Basin of Bangladesh |
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52 | (2) |
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Groundwater arsenic chemistry and redox process comparison in three physiographic settings of deltaic West Bengal, India |
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54 | (5) |
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I.2 Hydrogeolocial / sedimentological control on arsenic distribution I heterogeneity |
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Arsenic binding onto phyllosilicates and glutathione: Soil immobilisation and human excretion mechanisms |
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59 | (4) |
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Arsenic in groundwaters of the central Gangetic plain regions of India |
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63 | (2) |
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Spatial heterogeneity of arsenic in a deltaic groundwater environment of West Bengal, India |
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65 | (2) |
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Potentiality of shallow brown sand aquifers as an alternative safe drinking water source in Bengal Basin |
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67 | (2) |
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Monsoonal influence on stable isotope signature and arsenic distribution in groundwaters of rural West Bengal: A spatio-temporal study |
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69 | (2) |
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Potentiality of intermediate depth aquifer as a source of arsenic and manganese safe tubewells in Bangladesh |
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71 | (3) |
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Hydrogeology of an arsenic-mineralized fractured phyllite, and implications for groundwater arsenic dispersion |
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74 | (2) |
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Generalization of results from a pilot study by numerical modeling |
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76 | (4) |
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Vertical distribution and mobilization of arsenic in shallow alluvial aquifers of Chapai-Nawabganj, Northwestern Bangladesh |
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80 | (2) |
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Flow paths and travel time of groundwater from arsenic contaminated zone to deeper aquifer units under different development stresses |
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82 | (3) |
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Geological origin of arsenic groundwater contamination in Bihar, India |
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85 | (3) |
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Groundwater arsenic from parts of the Middle Ganga Plain, India: Influence of fluvial geomorphology and Quaternary morphostratigraphy |
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88 | (3) |
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An overview of arsenic occurrence in the groundwater of Mexico |
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91 | (2) |
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Characterization of subsurface sediments and its implication on arsenic mobilization in Gangetic plain |
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93 | (3) |
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The relationship between the concentration of arsenic and the hydraulic gradient along the shallow groundwater flow-path of Hetao plain, Northern China |
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96 | (5) |
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I.3 Mobility and transport of arsenic (geochemical modelling, environmental fate and risk assessment) |
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Arsenic biotransformation and transfer from rhizosphere to plant |
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101 | (3) |
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Phytoremediation of arsenic---does it work? |
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104 | (2) |
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Effect of organic fertilization practiced in paddy soils in Bangladesh on arsenic dynamics |
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106 | (2) |
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Microbial involvement in the dynamics of arsenic in irrigated agricultural systems of Bangladesh |
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108 | (2) |
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Air-filled porosity controls on dissolved arsenic and cadmium concentrations in paddy soils |
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110 | (2) |
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The effects of organics on the transformation and release of arsenic |
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112 | (3) |
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Human exposure to arsenic and manganese in groundwater in the Red River Delta, Vietnam |
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115 | (3) |
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Adsorption of arsenic to different natural solids: Soils, stream sediments and peats |
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118 | (2) |
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Occurrence, distribution, and release mechanism of arsenic in aquifers of Yinchuan Plain in China |
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120 | (2) |
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Arsenic, selenium and antimony adsorption behavior in different soil types |
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122 | (2) |
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Arsenate adsorption onto two-line ferrihydrite for abandoned mine drainage |
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124 | (2) |
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Leaching test for arsenic mobilization assessment from vanadium mining samples |
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126 | (2) |
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Arsenic bioavailability and mobility in contaminated soils and mine tailings |
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128 | (2) |
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Characteristics of potential arsenic leaching in paddy field soils |
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130 | (2) |
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Distribution and mobility of geogenic arsenic in the shallow aquifers of the northeast of La Pampa, Argentina |
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132 | (3) |
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Naturally occurring arsenic and metals in coastal streams and intertidal sediments and biota |
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135 | (4) |
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Section II Medical and health issues of arsenic |
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II.1 Chronic arsenic effects and epidemiological studies |
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The importance and validity of ecologic studies concerning arsenic in drinking water |
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139 | (4) |
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Clinical trial involving selenium supplementation to counter arsenic toxicity among rural population in Bangladesh |
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143 | (5) |
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Ingested inorganic arsenic, eigarettes smoking and risk of urinary cancer in Taiwan |
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148 | (3) |
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An update of findings on arsenic exposure and respiratory outcomes from the Health Effects of Arsenic Longitudinal Study (HEALS) |
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151 | (2) |
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The association between arsenic exposure from drinking water and arterial embolism and thrombosis in Northeastern Taiwan: Preliminary results |
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153 | (2) |
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Arsenic metabolism, lactate dehydrogenase and electrocardiogram abnormality among residents in the arseniasis-endemic areas of southwestern Taiwan |
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155 | (2) |
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Arsenic exposure in pregnancy increases the risk of adverse birth outcomes of newborn in Taiwan |
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157 | (2) |
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Chronic exposure to arsenic and prevalence of diabetes in Mexico |
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159 | (3) |
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Ground water arsenic contamination in West Bengal, India: Health effects, genetic susceptibility and its mitigation |
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162 | (3) |
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An update of findings on arsenic exposure and cardiovascular disease outcomes from the Health Effects of Arsenic Longitudinal Study (HEALS) |
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165 | (3) |
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Mental health burden and neuropsychiatric deficits of chronic arsenic exposure: First results of the Vietnamese field study |
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168 | (3) |
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Arsenic methylation pattern and its association with oxidative stress status in populations exposed to arsenic in drinking water in China |
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171 | (2) |
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Effects of early-life arsenic exposure on child health and development |
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173 | (2) |
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Toxicological significance of arsenic in groundwater: A case study from India |
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175 | (5) |
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Arsenic toxicity scenario and challenges for Bangladesh |
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180 | (5) |
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II.2 Recent advances in arsenic toxicology I biochemistry and food web transfer |
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Pathways of arsenic biotransformations: The arsenic methylation cycle |
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185 | (4) |
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Arsenic-protein binding: A quantitative overview |
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189 | (4) |
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Using X-ray absorption spectroscopy and microprobe synchrotron radiation-X-ray fluorescence imaging for understanding the mode of action of arsenic anti-leukaemia agents |
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193 | (3) |
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Effects of arsenite on macropinocytotic and autophagic activities in CHO-K1 cells |
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196 | (3) |
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Synergistic toxic effects among arsenic, chromium and copper associated with chrome copper arsenate-treated wood |
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199 | (2) |
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Arsenic exposure in cows from a high contaminated area in the Chaco-Pampean plain, Argentina |
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201 | (2) |
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Bilirubin oxidative metabolites: Novel biomarkers for acute arsenite exposure? |
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203 | (3) |
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Arsenic trioxide enhances radiation sensitivity of androgen-dependent and independent human prostate cancer cells |
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206 | (3) |
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The arsenic stress defense mechanism of Corynebaterium glutamicum revealed |
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209 | (2) |
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Non-invasive linear polarized light irradiation on the stellate ganglion improves skin blood flow in patients with Blackfoot disease |
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211 | (2) |
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Exogenous alpha lipoic acid supplementation modulates sodium arsenite induced functional and structural alterations in developing rat cerebellum |
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213 | (2) |
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ABCA1 reducing cellular arsenic accumulation in mammalian cells |
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215 | (3) |
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Genome-wide DNA methylation pattern of urothelial carcinoma with arsenic exposure |
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218 | (2) |
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Mitigating symptoms of chronic arsenic toxicity in rats using high selenium lentil diets |
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220 | (2) |
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Health risk assessment for inorganic arsenic in seafood from a polluted lagoon in Italy |
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222 | (2) |
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Arsenic and fluoride in groundwater in northern Santa Fe province, Argentina |
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224 | (2) |
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Arsenic content and source of food in "coal-burning" endemic fluorosis area of Zhaotong City, eastern Yunnan |
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226 | (3) |
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Arsenic toxicity in local cultivars of rice (Oryza sativa L.) In Bihar, India |
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229 | (2) |
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Transfer concentrations of arsenic in the structures of barley (Hordeum vulgare) |
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231 | (4) |
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Section III Remediation and policy |
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III.1 Arsenic in soils, plants and food chain: Bioavailability, bioaccessibility, uptake and toxicity |
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Incidental ingestion of arsenic contaminated soil and dust: Refining exposure through bioavailability and bioaccessibility assessment |
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235 | (4) |
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"Arsenic in rice is not a problem because everybody eats it": The past, present and future of regulation of arsenic in drinking water and food |
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239 | (5) |
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Organic matter and water regime management to mitigate arsenic toxicity in rice |
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244 | (2) |
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Arsenic from groundwater into soils, plants and the food chain: Complementary case studies from West Bengal, Inner Mongolia and the Red River Delta, Vietnam |
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246 | (3) |
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Arsenic and its bioavailability in surface waters in a black schist area in northern Sweden |
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249 | (2) |
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Bioavailability and toxicity of arsenic to earthworms in three soils |
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251 | (2) |
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M.A. Ayanka Wijayawardena |
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Content of arsenic and heavy metals in the soils around the Novocherkassk Power Station |
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253 | (3) |
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Effect of diet on bio accessibility and biotransformation of arsenic |
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256 | (3) |
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Effect of biochar amendment in reducing the availability of arsenic uptake by sweet corn (Zea Mays L.) |
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259 | (4) |
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III.2 Remediation and water treatment |
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Arsenic removal from groundwater by small-scale reverse osmosis unit in rural Bihar, India |
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263 | (4) |
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Emerging options for solving the arsenic problems of rural and periurban areas in Latin America |
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267 | (4) |
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Fate of arsenate adsorbed on nano-titanium dioxide with sulfate reducing bacteria |
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271 | (2) |
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Application of mine sludge for arsenic adsorption from mine drainage and comparison of removal efficiency by reactor design |
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273 | (2) |
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The strangely simple effect of silicic acid on arsenic sorption by ferrihydrite |
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275 | (3) |
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Arsenic removal by subsurface flow constructed wetlands |
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278 | (2) |
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Role of phosphate in mobilizing arsenic from soil to groundwater in West Bengal: Experimental investigation |
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280 | (2) |
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Arsenic removal from natural groundwater using cupric oxide |
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282 | (2) |
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Arsenic uptake by aquatic macrophytes: Possibilities for phytoremediation of arsenic-contaminated waters |
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284 | (3) |
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Room temperature synthesized granular adsorbent for arsenic removal from drinking water |
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287 | (2) |
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Evaluation of arsenic removal potential of few indigenous materials through batch study |
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289 | (2) |
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Removal of arsenic and selenium with rehydrated clay minerals |
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291 | (2) |
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Monitored natural attenuation for an arsenic contaminated industrial site with sulfate reducing aquifer conditions: A twelve year case study |
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293 | (2) |
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Biological filtration applied in Vietnam to remove arsenite from well water without a pre-oxidation step |
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295 | (3) |
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Removal of arsenic from aqueous solution by granular modified natural siderite: Characterization and behavior |
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298 | (3) |
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Peat based sorbents for arsenic removal |
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301 | (2) |
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Arsenite (bio) immobilization using Sulfur Reducing Bacteria (SRB) |
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303 | (2) |
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Natural arsenic occurrence and its removal from drinking water using a tubular photo-reactor enhanced with a solar concentrator in Cochabamba, Bolivia |
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305 | (2) |
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Arsenic removal from water by bio-iron produced from bacterial precipitation |
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307 | (3) |
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Removal of arsenic from water using modified highly selective adsorbents |
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310 | (2) |
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Removal of arsenic from drinking water using non-hazardous natural citrate sources |
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312 | (2) |
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Fate of arsenate adsorbed on nano-titanium dioxide with sulfate reducing bacteria |
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314 | (5) |
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III.3 Risk assessment and management of environmental arsenic |
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Bioremediation of arsenic contaminated water: Prospects and recent advances |
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319 | (4) |
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Agronomic treatments enhance growth and arsenic uptake by Chinese brake fern (Pteris vittata L.) |
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323 | (3) |
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Immobilisation of arsenic in landfilled soil using amendments |
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326 | (2) |
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Phytostablization of arsenic: Is it possible by growing Salix spp. in the contaminated sites? |
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328 | (2) |
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Phytoremediation of arsenic contaminated mined soils: Combination of fern species and arbuscular mycorrizhal fungi |
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330 | (2) |
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Arsenic response in roots of Eucalyptus spp. |
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332 | (3) |
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Arsenic fractionation in soils in mining region of the Bolivian Altiplano |
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335 | (2) |
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Discontinuity in arsenic slope factor based on SW Taiwan data |
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337 | (2) |
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Geogenic arsenic attributable health risks in Europe |
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339 | (3) |
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Exposure of goby fish to manganese and arsenic mobilized from sediment in Lake Biwa under hypoxia |
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342 | (3) |
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Arsenic sorption onto (oxy) hydroxide in comparison with antimony and phosphorus |
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345 | (2) |
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In-situ remediation of an anthropogenic arsenic contamination |
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347 | (3) |
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Effect of arsenic on Hibiscus cannabinus L. (kenaf) behaviour and evaluation of its use in phytoremediation |
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350 | (2) |
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Effect of phosphate fertilizers on arsenic mobility in arsenic-contaminated soil: Possible assistance in phytoremediation |
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352 | (2) |
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Oxidation of arsenic (III) by a Stenotrophomonas sp. isolated from soil |
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354 | (2) |
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Uptake of arsenate and arsenite by two Pteris vittata ecotypes |
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356 | (2) |
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Health, labor supply and productivity: An econometric study of Cambodian farm households and arsenic consumption |
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358 | (5) |
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Section IV Analytical methods for arsenic |
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IV.1 Analysis: Recent advances and challenges |
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Arsenic in marine organisms: New species and new analytical approaches |
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363 | (4) |
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Arsenic mobilization in sediments: An investigation using in situ sampling techniques |
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367 | (3) |
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Homogeneity and stability testing of a candidate reference material for the determination of total arsenic in tuna fish sample |
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370 | (3) |
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Arsenic and other metals in rice |
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373 | (3) |
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Concentration of arsenic, cadmium and lead in home garden vegetables of Bangladesh |
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376 | (2) |
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Investigation of biogeochemical interactive reaction processes of arsenic in Choushui river alluvial fan and Lanyang plain using isotopic methods, Taiwan |
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378 | (3) |
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Evidences of arsenic (III) precipitation on iron (III) oxy-hydroxides from the combination of Raman spectroscopy, density functional theory calculations, and extended X-ray absorption fine structure spectroscopy |
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381 | (3) |
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Arsenic speciation in rice using liquid chromatography and flow injection atomic fluorescence spectrometry (FI-HPLC-HG-AFS) |
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384 | (2) |
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Arsenic cycling in marine phytoplankton: The importance of representative experiments |
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386 | (3) |
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Speciation of inorganic arsenic in marine waters by stripping analysis at a gold microwire electrode |
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389 | (2) |
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Arsenic species in soils: Ecological aspects |
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391 | (2) |
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Histopathological alterations in the tissues of fresh water fish Channa punctatus (Bloch.) due to sodium arsenite exposure |
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393 | (1) |
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Biodegradable chelating ligands for iron and arsenic bioavailability and uptake in rice (Oryza sativa L.) |
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394 | (3) |
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Speciation analysis and distribution characteristics of arsenic in Pteris vittata L. grown on arsenic ectopic remediation site |
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397 | (3) |
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Improved rinsing procedure for samples containing sulfide and organic interferences in determination of arsenic by voltammetry |
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400 | (2) |
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Determination of arsenic species using the Diffusive Gradients in Thin films (DGT) device |
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402 | (2) |
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Performance characteristics of diffusive gradients in thin films with a mixed-binding layer gel for the measurement of inorganic arsenic and metals |
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404 | (3) |
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The use of ion chromatography hydride generation atomic fluorescence spectrometry (HPLC-HG-AFS) for arsenic speciation in apple juice |
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407 | (4) |
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Section S1 Special Topic 1: Risk assessment of arsenic from mining |
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Conveners: Jochen Bundschuh (AU, SE), Ma, Teresa Alarcon Herrara (MX), Luiz Roberto Guimaraes Guilherme (BR), Virginia Ciminelli (BR), Beverley Hale (CA), Sandra Leticia Rodriguez (MX), Jack Ng (AU), Barry Noller (AU) |
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Arsenic from mining old and new: Legacies and challenges |
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411 | (4) |
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Bioavailability and pharmacokinetics of arsenic in rats are influenced by cadmium: Health risk assessment of mine wastes |
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415 | (3) |
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Arsenic management at a low-grade, large-scale gold mine |
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418 | (5) |
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Evaluation of 10 years stability of concentrated arsenic-sulfide tailings |
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423 | (3) |
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Temporal variation and co-occurrence of fluoride and arsenic in aquifers of the central semi-arid region of Chihuahua, Mexico |
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426 | (2) |
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Arsenic speciation and bioaccessibility in gold mining tailings, Cuba |
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428 | (3) |
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Preliminary validation of modelled environmental PM10 arsenic trioxide (As2O3) dust fallout from a copper smelter in Namibia |
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431 | (2) |
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Impacts of iron and manganese mining activities: Arsenic in marine and wetland sediments |
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433 | (2) |
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Development of pragmatic and risk based solutions for sites impacted by historic mining activities |
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435 | (2) |
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Arsenic speciation in surface water polluted from cinnabar ore mining and processing at Red Devil, Alaska |
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437 | (2) |
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Arsenic speciation of lead-zinc mine wastes using X-ray absorption spectroscopy |
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439 | (4) |
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Chemical immobilisation of complex arsenic co-contaminated industrial waste |
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443 | (3) |
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Integrated remediation and development of an arsenic contaminated site |
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446 | (5) |
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Section S2 Special Topic 2: Geomicrobiology of arsenic |
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Conveners: Thomas Kulp (US), Joanne Santini (UK), Jochen Bundschuh (AU, SE), Jiin-Shuh Jean (TW) |
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Microbial arsenic metabolism and the impact on arsenic bioremediation |
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451 | (3) |
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Isolation of an arsenite-oxidizing bacterium in the arsenic contaminated shallow alluvial aquifer in the Blackfoot disease endemic area: Its potential for remediation of arsenic in groundwater |
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454 | (2) |
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Vertical and lateral distribution of microbial communities in groundwater and sediment in high arsenic shallow aquifers of Hetao Basin, Inner Mongolia |
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456 | (2) |
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Microbial influence on arsenic speciation: In search of the origins of arsenic resistance |
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458 | (3) |
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Kinetic modelling of microbial iron (II) oxidation, iron (III) hydrolysis, and arsenic (III) oxidation in acid waters |
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461 | (2) |
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The influence of sulfate reducing bacteria on arsenic, iron, and sulfate behaviour under anaerobic condition |
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463 | (2) |
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Colonization of freshwater periphyton under chronic arsenate exposure: Influence of nutrient status |
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465 | (3) |
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Fungal processes affecting speciation and mobility of arsenic |
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468 | (5) |
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Section S3 Special Topic 3: Geothermal arsenic |
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Conveners: Jochen Bundschuh (AU, SE), Thomas Pichler (DE), Jenny Webster-Brown (NZ), D. Kirk Nordstrom (US) |
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Biological processes affecting geothermal arsenic in a lowland river |
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473 | (4) |
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Arsenic in geothermal and mine drainage waters of the world |
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477 | (2) |
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Arsenic in Yellowstone's thermal waters: Trends and anomalies |
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479 | (2) |
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Case studies of arsenic in hydrothermal fluids of three different regimes: Menez Gwen (MAR), Manus Basin, and Panarea (Aolian Island-arc) |
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481 | (2) |
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Geothermal arsenic in Taiwan: Geochemistry and microbial diversity |
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483 | (3) |
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Occurrence of arsenic and related microbial signature of hydrothermal systems in Western Turkey |
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486 | (5) |
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Section S4 Special Topic 4: Rice arsenic and health perspective |
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Conveners: Jack Ng (AU), Yongguan Zhou (CN) |
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Potential strategies for mitigating arsenic contamination in rice grain |
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491 | (5) |
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Arsenic in soil-rice systems: Microbial ecology perspectives |
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496 | (3) |
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An analysis of institutional stakeholders' opinion on arsenic mitigation in Bangladesh |
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499 | (4) |
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Arsenic porewater dynamics and arsenic uptake by aman rice in intermittently and continuously flooded paddy fields in Bangladesh |
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503 | (2) |
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Arsenic exposure and health risk from consumption of brown rice in rural Bengal, India |
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505 | (3) |
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Arsenic concentration in soil, rice and straw in central India |
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508 | (5) |
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Section S5 Special Topic 5: Sustainable mitigation of arsenic: From field trials to policy implications |
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Conveners: Kazi Matin Ahmed (BD), Prosun Bhattacharya (SE), Abhijit Mukherjee (IN), Ravi Naidu (AU) |
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Groundwater arsenic mitigation in Bangladesh: Mission achievable or impossible? |
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513 | (2) |
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Tubewell platform color: Assessment of a tool for rapid screening of arsenic and manganese in well water |
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515 | (4) |
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Pay-for-use arsenic testing: Promoting demand-driven mitigation and monitoring in Bangladesh |
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519 | (3) |
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Wide spread arsenic in deeper groundwater of western Bengal basin, West Bengal, India: Implications for sustainable alternate drinking water sources |
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522 | (4) |
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Development of a successful institutional mechanism for arsenic screening in the Brahmaputra Floodplain in Assam |
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526 | (2) |
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Making economic sense for arsenic mitigation: A case study of Comilla District, Bangladesh |
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528 | (5) |
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Section S6 Special Topic 6: Biochemical processes of high arsenic groundwater in inland basins |
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Conveners: Huaming Guo (CN), George N. Breit (US) |
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Groundwater contamination by arsenic in a suburban setting in Perth, Western Australia: Geochemical changes and management implications |
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533 | (4) |
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Arsenic distribution in the vadose zone of arid basins |
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537 | (2) |
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Characteristics of iron isotopes in high arsenic groundwater systems of the Hetao basin, Inner Mongolia, P.R. China |
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539 | (3) |
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Enrichment of arsenic in groundwater from Datong Basin, Northern China: Indication from hydrochemical and factor analysis studies |
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542 | (2) |
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Adsorption-oxidation of arsenite by nano-iron-manganese binary oxide in synthesized groundwater |
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544 | (3) |
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Arsenic in saline groundwater in the Yuncheng Basin, northern China |
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547 | (3) |
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Distribution and enrichment of groundwater arsenic in shallow and deep aquifers of Yinchuan Plain, China |
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550 | (2) |
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Arsenite oxidizing bacterium isolated from high arsenic contaminated groundwater aquifers from Datong Basin, Northern China |
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552 | (3) |
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Comparison of hydrogeochemical processes controlling arsenic enrichment between shallow and deep aquifers in the Hetao Basin, Inner Mongolia |
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555 | (4) |
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| Author index |
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559 | |
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