Emerging technologies for arsenic removal from drinking water in rural and peri-urban areas: Methods, experience from, and options for Latin America.

[1]  Raed A. Al-Juboori,et al.  Biochar versus bone char for a sustainable inorganic arsenic mitigation in water: What needs to be done in future research? , 2019, Environment international.

[2]  M. Herrera-Trejo,et al.  Enhanced removal of arsenic and chromium contaminants from drinking water by electrodeposition technique using graphene composites , 2019, Materials Chemistry and Physics.

[3]  R. Vijay,et al.  Review of processes controlling arsenic retention and release in soils and sediments of Bengal basin and suitable iron based technologies for its removal , 2019, Groundwater for Sustainable Development.

[4]  L. Rietveld,et al.  Arsenic contamination of rural community wells in Nicaragua: A review of two decades of experience. , 2019, The Science of the total environment.

[5]  T. Mlsna,et al.  Pharmaceuticals of Emerging Concern in Aquatic Systems: Chemistry, Occurrence, Effects, and Removal Methods. , 2019, Chemical reviews.

[6]  M. Panigatti,et al.  Arsenic adsorption by soil from Misiones province, Argentina , 2019, Environmental Technology & Innovation.

[7]  Daniel C W Tsang,et al.  Exploring the arsenic removal potential of various biosorbents from water. , 2019, Environment international.

[8]  C. Nieto-Delgado,et al.  Modified activated carbon with interconnected fibrils of iron-oxyhydroxides using Mn2+ as morphology regulator, for a superior arsenic removal from water. , 2019, Journal of environmental sciences.

[9]  Silvia A. Fuente,et al.  Electronic and magnetic properties of the adsorption of As harmful species on zero-valent Fe surfaces, clusters and nanoparticules , 2019, Applied Surface Science.

[10]  J. Nava,et al.  Simultaneous removal of fluoride and arsenic from groundwater by electrocoagulation using a filter-press flow reactor with a three-cell stack , 2018, Separation and Purification Technology.

[11]  A. Bhatnagar,et al.  FeOOH-modified clay sorbents for arsenic removal from aqueous solutions , 2016, Environmental Technology & Innovation.

[12]  Ming Zhang,et al.  Biochar for Anionic Contaminants Removal From Water , 2019, Biochar from Biomass and Waste.

[13]  C. Fall,et al.  As(V) sorption by different natural zeolite frameworks modified with Fe, Zr and FeZr , 2019, Microporous and Mesoporous Materials.

[14]  Raquel O. Cristóvão,et al.  As(III) and Cr(VI) oxyanion removal from water by advanced oxidation/reduction processes—a review , 2018, Environmental Science and Pollution Research.

[15]  M. Herrera-Trejo,et al.  Concrete/maghemite nanocomposites as novel adsorbents for arsenic removal , 2018, Journal of Molecular Structure.

[16]  M. Torres-Rodríguez,et al.  Natural Mexican Zeolite Modified with Iron to Remove Arsenic Ions from Water Sources , 2018, Proceedings.

[17]  M. López-Muñoz,et al.  Adsorption of arsenite and arsenate on binary and ternary magnetic nanocomposites with high iron oxide content , 2018, Applied Surface Science.

[18]  Manish Kumar,et al.  Contemporary distribution and impending mobility of arsenic, copper and zinc in a tropical (Brahmaputra) river bed sediments, Assam, India. , 2018, Ecotoxicology and environmental safety.

[19]  N. Kumari,et al.  Leaf-extract mediated zero-valent iron for oxidation of Arsenic (III): Preparation, characterization and kinetics , 2018, Chemical Engineering Journal.

[20]  J. Nava,et al.  Removal of hydrated silica, fluoride and arsenic from groundwater by electrocoagulation using a continuous reactor with a twelve-cell stack. , 2018, Chemosphere.

[21]  P. Palenzuela,et al.  Techno-economic assessment of a multi-effect distillation plant installed for the production of irrigation water in Arica (Chile). , 2018, The Science of the total environment.

[22]  I. E. dell’Erba,et al.  Hybrid mineral@silsesquioxane particles for water remediation: synthesis, characterization and application as adsorbent of As(V) and other water pollutants , 2018, Journal of Materials Science.

[23]  S. Cano-Andrade,et al.  Effects of the presence of organic matter on the removal of arsenic from groundwater , 2018 .

[24]  G. García-Rosales,et al.  Fe-TiOx nanoparticles on pineapple peel: Synthesis, characterization and As(V) sorption , 2018 .

[25]  K. Fontana,et al.  Comparision of photocatalysis and photolysis processes for arsenic oxidation in water. , 2018, Ecotoxicology and environmental safety.

[26]  J. Bundschuh,et al.  Iron-based subsurface arsenic removal technologies by aeration: A review of the current state and future prospects. , 2018, Water research.

[27]  Ningyuan Zhu,et al.  Synthesis of mesoporous bismuth-impregnated aluminum oxide for arsenic removal: Adsorption mechanism study and application to a lab-scale column. , 2018, Journal of environmental management.

[28]  Leonardo Mena-Rivera,et al.  Assessment of drinking water suitability in low income rural areas: a case study in Sixaola, Costa Rica. , 2018, Journal of water and health.

[29]  R. Froes-Silva,et al.  Comparing chemometric and Langmuir isotherm for determination of maximum capacity adsorption of arsenic by a biosorbent , 2018 .

[30]  MeurisGurgel Carlos da Silva,et al.  Adsorption of Pharmaceuticals from Water and Wastewater Using Nonconventional Low-Cost Materials: A Review , 2018 .

[31]  P. B. Punjabi,et al.  Fenton and Photo-Fenton Processes , 2018 .

[32]  S. Singh,et al.  An analysis of the cost-effectiveness of arsenic mitigation technologies: Implications for public policy , 2017 .

[33]  M. Cebrián,et al.  Genetic susceptibility to breast cancer risk associated with inorganic arsenic exposure. , 2017, Environmental toxicology and pharmacology.

[34]  M. Cebrián,et al.  Standards for arsenic in drinking water: Implications for policy in Mexico , 2017, Journal of Public Health Policy.

[35]  F. Cui,et al.  Efficient removal of arsenite through photocatalytic oxidation and adsorption by ZrO2-Fe3O4 magnetic nanoparticles , 2017 .

[36]  T. Mlsna,et al.  Biochar based removal of antibiotic sulfonamides and tetracyclines in aquatic environments: A critical review. , 2017, Bioresource technology.

[37]  M. Cebrián,et al.  Arsenic metabolism and cancer risk: A meta‐analysis , 2017, Environmental research.

[38]  Xia Yang,et al.  Electrocoagulation treatment of arsenic in wastewaters: A comprehensive review , 2017 .

[39]  Arturo I. Martinez,et al.  Arsenic adsorption on cobalt and manganese ferrite nanoparticles , 2017, Journal of Materials Science.

[40]  Fenglian Fu,et al.  Novel mesoporous FeAl bimetal oxides for As(III) removal: Performance and mechanism. , 2017, Chemosphere.

[41]  H. Beldoménico,et al.  Total arsenic in selected food samples from Argentina: Estimation of their contribution to inorganic arsenic dietary intake. , 2016, Food chemistry.

[42]  Arpan Sarkar,et al.  The global menace of arsenic and its conventional remediation - A critical review. , 2016, Chemosphere.

[43]  K. Hudson-Edwards,et al.  The role of nano-sized manganese coatings on bone char in removing arsenic(V) from solution: Implications for permeable reactive barrier technologies. , 2016, Chemosphere.

[44]  J. Yáñez,et al.  Arsenic sorption onto an aluminum oxyhydroxide-poly[(4-vinylbenzyl)trimethylammonium chloride] hybrid sorbent , 2016 .

[45]  I. Han,et al.  Effects of dissolved ions and natural organic matter on electrocoagulation of As(III) in groundwater , 2016 .

[46]  J. Bundschuh,et al.  Innovative Materials and Methods for Water Treatment Solutions for Arsenic and Chromium Removal , 2016 .

[47]  Marta I. Litter,et al.  Latin American experiences in arsenic removal from drinking water and mining effluents , 2016 .

[48]  M. Villanueva,et al.  Chitin hydrogel reinforced with TiO2 nanoparticles as an arsenic sorbent , 2016 .

[49]  J. Nava,et al.  Arsenic and fluoride removal from groundwater by electrocoagulation using a continuous filter-press reactor. , 2016, Chemosphere.

[50]  S. Lata,et al.  Removal of arsenic from water using nano adsorbents and challenges: A review. , 2016, Journal of environmental management.

[51]  D. Chakraborti Is WHO guideline value of arsenic in drinking water 10 ppb in the developing countries safe to drink? , 2016 .

[52]  A. Ribó,et al.  Heavy metals and pesticide exposure from agricultural activities and former agrochemical factory in a Salvadoran rural community , 2016, Environmental Science and Pollution Research.

[53]  Agustina Briatore,et al.  Epidemiology of chronic disease related to arsenic in Argentina: A systematic review. , 2015, The Science of the total environment.

[54]  I. Ray,et al.  Safe Drinking Water for Low-Income Regions , 2015 .

[55]  E. L. Soto,et al.  Iron-Modification of Pyroclastic Material from PCCVC Eruption (Chile): Characterization and Application to Remove Arsenic from Groundwater , 2015 .

[56]  Kiran Singh,et al.  Functionalized nanocrystalline cellulose: Smart biosorbent for decontamination of arsenic , 2015 .

[57]  Z. Lou,et al.  Fe3O4 and MnO2 assembled on honeycomb briquette cinders (HBC) for arsenic removal from aqueous solutions. , 2015, Journal of hazardous materials.

[58]  Gabriela Ungureanu,et al.  Arsenic and antimony in water and wastewater: overview of removal techniques with special reference to latest advances in adsorption. , 2015, Journal of environmental management.

[59]  Nalini Sankararamakrishnan,et al.  Concurrent removal of As(III) and As(V) using green low cost functionalized biosorbent – Saccharum officinarum bagasse , 2015 .

[60]  R. Brandi,et al.  Arsenic sorption onto titanium dioxide, granular ferric hydroxide and activated alumina: Batch and dynamic studies , 2015, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[61]  Jochen Bundschuh,et al.  Geothermal arsenic: Occurrence, mobility and environmental implications , 2015 .

[62]  M. Litter Mechanisms of removal of heavy metals and arsenic from water by TiO2-heterogeneous photocatalysis , 2015 .

[63]  Ann Helwege Challenges with resolving mining conflicts in Latin America , 2015 .

[64]  Manish Kumar,et al.  SPECIATION OF HEAVY METALS IN SURFACE SEDIMENT OF THE BRAHMAPUTRA RIVER, ASSAM, INDIA , 2015 .

[65]  Xinhua Xu,et al.  Arsenic removal from natural water using low cost granulated adsorbents: a review. , 2015 .

[66]  C. Trois,et al.  South African sands as a low cost alternative solution for arsenic removal from industrial effluents in permeable reactive barriers: Column tests , 2015 .

[67]  D. Stanković,et al.  Microwave-hydrothermal method for the synthesis of composite materials for removal of arsenic from water , 2015, Environmental Science and Pollution Research.

[68]  A. M. Ingallinella,et al.  Remoción de arsénico (as) y fluoruros (f-) en aguas subterráneas mediante coagulación, adsorción y doble filtración , 2014, Cuadernos del CURIHAM.

[69]  P. Pastén,et al.  Arsenic speciation in sinter mineralization from a hydrothermal channel of El Tatio geothermal field, Chile , 2014 .

[70]  Prosun Bhattacharya,et al.  Provenance and fate of arsenic and other solutes in the Chaco-Pampean Plain of the Andean foreland, Argentina: From perspectives of hydrogeochemical modeling and regional tectonic setting , 2014 .

[71]  Franklin Obiri-Nyarko,et al.  An overview of permeable reactive barriers for in situ sustainable groundwater remediation. , 2014, Chemosphere.

[72]  C. M. George,et al.  Exposition à l'arsenic dans l'eau potable: Une menace méconnue pour la santé au Pérou , 2014 .

[73]  D. Sabatini,et al.  Water-supply options in arsenic-affected regions in Cambodia: targeting the bottom income quintiles. , 2014, The Science of the total environment.

[74]  A. Martínez-Luévanos,et al.  Blast furnace residues for arsenic removal from mining-contaminated groundwater , 2014, Environmental technology.

[75]  Dinesh Mohan,et al.  Organic and inorganic contaminants removal from water with biochar, a renewable, low cost and sustainable adsorbent--a critical review. , 2014, Bioresource technology.

[76]  J. Nava,et al.  Removal of arsenic from a deep well by electrocoagulation in a continuous filter press reactor , 2014 .

[77]  P. Brandão,et al.  Environmental occurrence of arsenic in Colombia: a review. , 2014, Environmental pollution.

[78]  N. Bolan,et al.  Biochar as a sorbent for contaminant management in soil and water: a review. , 2014, Chemosphere.

[79]  G. Mckay,et al.  Mechanism of arsenic removal using chitosan and nanochitosan. , 2014, Journal of colloid and interface science.

[80]  P. Smedley,et al.  Arsenic and selenium , 2014 .

[81]  Shaoxian Song,et al.  Chapter 11 – Arsenic Removal from Water by the Coagulation Process , 2014 .

[82]  C. Bonilla,et al.  Differential arsenic binding in the sediments of two sites in Chile's lower Loa River basin. , 2014, The Science of the total environment.

[83]  H. Beldoménico,et al.  Distribution of inorganic arsenic species in groundwater from Central-West Part of Santa Fe Province, Argentina , 2013 .

[84]  J. Bundschuh,et al.  Co-occurrence of arsenic and fluoride in groundwater of semi-arid regions in Latin America: genesis, mobility and remediation. , 2013, Journal of hazardous materials.

[85]  N. Curi,et al.  Increasing arsenic sorption on red mud by phosphogypsum addition. , 2013, Journal of hazardous materials.

[86]  C. Fajardo,et al.  Comparing Two Operating Configurations in a Full-Scale Arsenic Removal Plant. Case Study: Guatemala , 2013 .

[87]  B. Gao,et al.  Removal of arsenic, methylene blue, and phosphate by biochar/AlOOH nanocomposite , 2013 .

[88]  A. Figoli,et al.  Remediation of inorganic arsenic in groundwater for safe water supply: a critical assessment of technological solutions. , 2013, Chemosphere.

[89]  Simultaneous removal of arsenate and arsenite by a nanostructured zirconium-manganese binary hydrous oxide: behavior and mechanism. , 2013, Journal of colloid and interface science.

[90]  Ying Yao,et al.  Preparation and characterization of a novel magnetic biochar for arsenic removal. , 2013, Bioresource technology.

[91]  G. García-Rosales,et al.  Synthesis, characterization and adsorptive properties of carbon with iron nanoparticles and iron carbide for the removal of As(V) from water. , 2013, Journal of environmental management.

[92]  J. Rangel-Mendez,et al.  Arsenic removal by modified activated carbons with iron hydro(oxide) nanoparticles. , 2013, Journal of environmental management.

[93]  W. Ela,et al.  Adsorption of arsenic on pre-treated zeolite at different pH levels , 2013 .

[94]  C. Jain,et al.  Technological options for the removal of arsenic with special reference to South East Asia. , 2012, Journal of environmental management.

[95]  M. Fabbricino,et al.  Use of chitosan and chitosan-derivatives to remove arsenic from aqueous solutions--a mini review. , 2012, Carbohydrate research.

[96]  Prosun Bhattacharya,et al.  Arsenic in Latin America, an unrevealed continent : Occurrence, health effects and mitigation , 2012 .

[97]  Prosun Bhattacharya,et al.  Arsenic in the human food chain: the Latin American perspective. , 2012, The Science of the total environment.

[98]  J. Bundschuh,et al.  Arsenic in volcanic geothermal fluids of Latin America. , 2012, The Science of the total environment.

[99]  Tyler R. McClintock,et al.  Arsenic exposure in Latin America: biomarkers, risk assessments and related health effects. , 2012, The Science of the total environment.

[100]  Jiin-Shuh Jean,et al.  One century of arsenic exposure in Latin America: a review of history and occurrence from 14 countries. , 2012, The Science of the total environment.

[101]  S. Garrido,et al.  Small-scale and household methods to remove arsenic from water for drinking purposes in Latin America. , 2012, The Science of the total environment.

[102]  C. Nieto-Delgado,et al.  Anchorage of iron hydro(oxide) nanoparticles onto activated carbon to remove As(V) from water. , 2012, Water research.

[103]  Shaoxian Song,et al.  Arsenic Removal from Water by Adsorption Using Iron Oxide Minerals as Adsorbents: A Review , 2012 .

[104]  C. Hurel,et al.  Arsenic (V) adsorption from aqueous solution onto goethite, hematite, magnetite and zero-valent iron: Effects of pH, concentration and reversibility , 2011 .

[105]  T. Hirajima,et al.  Numerical simulation for reactive solute transport of arsenic in permeable reactive barrier column including zero-valent iron , 2011 .

[106]  A. M. Ingallinella,et al.  Simultaneous removal of arsenic and fluoride from groundwater by coagulation-adsorption with polyaluminum chloride. , 2011, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[107]  Natural contamination with arsenic and other trace elements in groundwater of the Central-West region of Chaco, Argentina. , 2011, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[108]  Prosun Bhattacharya,et al.  Arsenic removal from groundwater of the Chaco-Pampean plain (Argentina) using natural geological materials as adsorbents. , 2011, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[109]  I. Aljundi Bromate formation during ozonation of drinking water: A response surface methodology study , 2011 .

[110]  R. Leyva-Ramos,et al.  Adsorption of arsenic (V) from a water solution onto a surfactant-modified zeolite , 2011 .

[111]  Lucy Camacho,et al.  Occurrence and treatment of arsenic in groundwater and soil in northern Mexico and southwestern USA. , 2011, Chemosphere.

[112]  Tanya J. Gallegos,et al.  FeS-coated sand for removal of arsenic(III) under anaerobic conditions in permeable reactive barriers. , 2011, Water research.

[113]  J. Greneche,et al.  Adsorption of As(III) on chitosan-Fe-crosslinked complex (Ch-Fe). , 2011, Chemosphere.

[114]  P. Calabrò,et al.  Heavy metals removal and hydraulic performance in zero-valent iron/pumice permeable reactive barriers. , 2010, Journal of environmental management.

[115]  M. M. Fidalgo de Cortalezzi,et al.  Fabrication and characterization of iron oxide ceramic membranes for arsenic removal. , 2010, Water research.

[116]  Jan Hoinkis,et al.  Emerging mitigation needs and sustainable options for solving the arsenic problems of rural and isolated urban areas in Latin America - a critical analysis. , 2010, Water research.

[117]  X. Querol,et al.  Fly ash from a Mexican mineral coal I: Mineralogical and chemical characterization. , 2010, Journal of hazardous materials.

[118]  J. Almanza,et al.  Fly ash from a Mexican mineral coal. II. Source of W zeolite and its effectiveness in arsenic (V) adsorption. , 2010, Journal of hazardous materials.

[119]  H. Beldoménico,et al.  Evaluation of the influence of arsenical livestock drinking waters on total arsenic levels in cow's raw milk from Argentinean dairy farms , 2010 .

[120]  G. Maia,et al.  Specific adsorption of arsenic and humic acid on Pt and PtO films , 2010 .

[121]  C. Airoldi,et al.  Adsorption of arsenic ions on Brazilian sepiolite: effect of contact time, pH, concentration, and calorimetric investigation. , 2010, Journal of colloid and interface science.

[122]  J. Bundschuh,et al.  Possible treatments for arsenic removal in Latin American waters for human consumption. , 2010, Environmental pollution.

[123]  D. Bahnemann,et al.  Low-cost solar technologies for arsenic removal in drinking water , 2010 .

[124]  Xu Zhao,et al.  Practical performance and its efficiency of arsenic removal from groundwater using Fe-Mn binary oxide. , 2010, Journal of environmental sciences.

[125]  Croatian Experience REMOVAL OF ARSENIC FROM DRINKING WATER , 2010 .

[126]  A. Celzard,et al.  Arsenic removal by iron-doped activated carbons prepared by ferric chloride forced hydrolysis. , 2009, Journal of hazardous materials.

[127]  G. Silva,et al.  Molecular modeling of iron and arsenic interactions with carboxy groups in natural biomass , 2009 .

[128]  Jianfu Zhao,et al.  Geochemical processes controlling fate and transport of arsenic in acid mine drainage (AMD) and natural systems. , 2009, Journal of hazardous materials.

[129]  A. Celzard,et al.  Synthesis, characterization and performance in arsenic removal of iron-doped activated carbons prepared by impregnation with Fe(III) and Fe(II). , 2009, Journal of hazardous materials.

[130]  M. Litter,et al.  Arsenic (V) removal with nanoparticulate zerovalent iron: Effect of UV light and humic acids , 2009 .

[131]  V. Sharma,et al.  Aquatic arsenic: toxicity, speciation, transformations, and remediation. , 2009, Environment international.

[132]  S. Kaul,et al.  Nano‐adsorbents for the removal of metallic pollutants from water and wastewater , 2009, Environmental technology.

[133]  P. Bennett,et al.  Partitioning geochemistry of arsenic and antimony, El Tatio Geyser Field, Chile , 2009 .

[134]  Prosun Bhattacharya,et al.  Occurrence, health effects and remediation of arsenic in groundwaters of Latin America , 2009 .

[135]  K. Richards,et al.  Arsenic Pollution: A Global Synthesis , 2009 .

[136]  E. Tombácz pH-dependent surface charging of metal oxides , 2009 .

[137]  H. Mansilla,et al.  In field arsenic removal from natural water by zero-valent iron assisted by solar radiation. , 2008, Environmental pollution.

[138]  E. Flores-Valverde,et al.  Feasibility of arsenic removal from contaminated water using indigenous limestone , 2008 .

[139]  N. Marchetti,et al.  Total arsenic content in vegetables cultivated in different zones in Chile , 2008 .

[140]  S. Garrido,et al.  Arsenic removal from water of Huautla, Morelos, Mexico using capacitive deionization , 2008 .

[141]  Arsenic mobilization in aquatic sediments of an impacted mining area, north-central Mexico , 2008 .

[142]  H. Poggi‐Varaldo,et al.  Effect of wastewater irrigation on arsenic concentration in soils and selected crops in the state of Hidalgo, Mexico , 2008 .

[143]  A. M. Ingallinella,et al.  Arsenic removal from groundwater by coagulation with polyaluminum chloride and double filtration , 2008 .

[144]  L. Cumbal,et al.  Polymer-supported Fe(III) oxide particles: An arsenic-selective sorbent , 2008 .

[145]  Adsorption of As(V) onto goethite: Experimental statistical optimization , 2008 .

[146]  Raymond L D Whitby,et al.  Use of iron-based technologies in contaminated land and groundwater remediation: a review. , 2008, The Science of the total environment.

[147]  M. Pérez-Cruz,et al.  In situ and ex situ study of the enhanced modification with iron of clinoptilolite-rich zeolitic tuff for arsenic sorption from aqueous solutions. , 2008, Journal of colloid and interface science.

[148]  S. Rath,et al.  Arsenic removal from water employing heterogeneous photocatalysis with TiO2 immobilized in PET bottles. , 2008, Chemosphere.

[149]  M. Armienta,et al.  Arsenic and fluoride in the groundwater of Mexico , 2008, Environmental geochemistry and health.

[150]  Ravi Naidu,et al.  Permeable reactive barrier for groundwater remediation , 2008 .

[151]  S. Luby,et al.  Difficulties in bringing point-of-use water treatment to scale in rural Guatemala. , 2008, The American journal of tropical medicine and hygiene.

[152]  M. Walker,et al.  Effectiveness of household reverse-osmosis systems in a Western U.S. region with high arsenic in groundwater. , 2008, The Science of the total environment.

[153]  J. Bundschuh,et al.  Volcanic arsenic and boron pollution of Ilopango Lake, El Salvador , 2008 .

[154]  Cost-effectiveness of Arsenic Adsorbents , 2008 .

[155]  Arsenic in the Iberoamerican region. The IBEROARSEN Network and a possible economic solution for arsenic removal in isolated rural zones , 2008 .

[156]  D. Mishra,et al.  Arsenic adsorption mechanism on clay minerals and its dependence on temperature , 2007 .

[157]  A. F. Cirelli,et al.  Problemática del arsénico en la llanura sudeste de la provincia de Córdoba: Biotransferencia a leche bovina , 2007 .

[158]  Wu Rongcheng,et al.  Calcium‐Enhanced Ferric Hydroxide Co‐Precipitation of Arsenic in the Presence of Silicate , 2007 .

[159]  L. D. Del Razo,et al.  Chronic arsenic exposure increases TGFalpha concentration in bladder urothelial cells of Mexican populations environmentally exposed to inorganic arsenic. , 2007, Toxicology and applied pharmacology.

[160]  L. D. Del Razo,et al.  Inorganic arsenic exposure and type 2 diabetes mellitus in Mexico. , 2007, Environmental research.

[161]  Dinesh Mohan,et al.  Sorption of arsenic, cadmium, and lead by chars produced from fast pyrolysis of wood and bark during bio-oil production. , 2007, Journal of colloid and interface science.

[162]  D. Mohan,et al.  Arsenic removal from water/wastewater using adsorbents--A critical review. , 2007, Journal of hazardous materials.

[163]  Lara Duro,et al.  Arsenic sorption onto natural hematite, magnetite, and goethite. , 2007, Journal of hazardous materials.

[164]  R. Angélica,et al.  Arsenic occurrence in Brazil and human exposure , 2007, Environmental geochemistry and health.

[165]  Daniel Cicerone,et al.  Arsenic(V) Adsorption onto Biogenic Hydroxyapatite: Solution Composition Effects , 2007 .

[166]  S. Hoyos,et al.  Removal arsenic in drinking water by capacitive deionization , 2009 .

[167]  H. Morrás,et al.  Content and distribution of arsenic in soils, sediments and groundwater environments of the southern Pampa region, Argentina , 2006, Environmental toxicology.

[168]  M. Berg,et al.  Arsenite and arsenate binding to dissolved humic acids: influence of pH, type of humic acid, and aluminum. , 2006, Environmental science & technology.

[169]  B. Mohanty,et al.  Laboratory based approaches for arsenic remediation from contaminated water: recent developments. , 2006, Journal of hazardous materials.

[170]  Meenakshi,et al.  Fluoride in drinking water and its removal. , 2006, Journal of hazardous materials.

[171]  Ana María Sancha,et al.  Review of Coagulation Technology for Removal of Arsenic: Case of Chile , 2006, Journal of health, population, and nutrition.

[172]  Suiling Wang,et al.  Occurrence of arsenic contamination in Canada: sources, behavior and distribution. , 2006, The Science of the total environment.

[173]  M. Benvenuti,et al.  Arsenic incorporation in natural calcite lattice: Evidence from electron spin echo spectroscopy , 2006 .

[174]  C. Ferreccio,et al.  Arsenic exposure and its impact on health in Chile. , 2006, Journal of health, population, and nutrition.

[175]  A. Ribeiro,et al.  Biosorption of arsenic(V) with Lessonia nigrescens , 2006 .

[176]  H. K. Hansen,et al.  Electrocoagulation as a remediation tool for wastewaters containing arsenic , 2006 .

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

[178]  Markus Bauer,et al.  Mobilization of arsenic by dissolved organic matter from iron oxides, soils and sediments. , 2006, The Science of the total environment.

[179]  M. Esparza Presencia de arsénico en el agua de bebida en América Latina y su efecto en la salud pública , 2006 .

[180]  K. Hudson-Edwards,et al.  Aqueous exposure and uptake of arsenic by riverside communities affected by mining contamination in the Río Pilcomayo basin, Bolivia , 2005, Mineralogical Magazine.

[181]  A B M Badruzzaman,et al.  Arsenic removal from Bangladesh tube well water with filter columns containing zerovalent iron filings and sand. , 2005, Environmental science & technology.

[182]  Manish Patel,et al.  Removal of arsenic from groundwater by granular titanium dioxide adsorbent. , 2005, Chemosphere.

[183]  D. Loomis,et al.  Exposure to inorganic arsenic in drinking water and total urinary arsenic concentration in a Chilean population. , 2005, Environmental research.

[184]  O. Leupin,et al.  Oxidation and removal of arsenic (III) from aerated groundwater by filtration through sand and zero-valent iron. , 2005, Water research.

[185]  Mark D Johnson,et al.  Chemical reactions between arsenic and zero-valent iron in water. , 2005, Water research.

[186]  R. Marcos,et al.  Micronuclei assessment in buccal cells of people environmentally exposed to arsenic in northern Chile. , 2005, Toxicology letters.

[187]  M. Teixeira,et al.  Development of a biosorbent for arsenite: structural modeling based on X-ray spectroscopy. , 2005, Environmental science & technology.

[188]  Heechul Choi,et al.  Removal of arsenic(III) from groundwater by nanoscale zero-valent iron. , 2005, Environmental science & technology.

[189]  A. Ribeiro,et al.  Biosorption of Arsenic by Lessonia nigrescens in wastewater from copper smelting , 2005 .

[190]  R. Marcos,et al.  Evaluation of micronucleus induction in a Chilean population environmentally exposed to arsenic. , 2004, Mutation research.

[191]  D. Banks,et al.  Distribution, salinity and pH dependence of elements in surface waters of the catchment areas of the Salars of Coipasa and Uyuni, Bolivian Altiplano , 2004 .

[192]  M. G. García,et al.  Solar light induced removal of arsenic from contaminated groundwater: the interplay of solar energy and chemical variables , 2004 .

[193]  A. Cirelli,et al.  Aquatic macrophytes potential for the simultaneous removal of heavy metals (Buenos Aires, Argentina). , 2004, Chemosphere.

[194]  M. Bari,et al.  Feasibility of Water Treatment Technologies for Arsenic and Fluoride Removal from Groundwater , 2004 .

[195]  D. Dermatas,et al.  Arsenic immobilization by calcium-arsenic precipitates in lime treated soils. , 2004, The Science of the total environment.

[196]  M. Armienta,et al.  Arsenic Sorption by Carbonate-Rich Aquifer Material, a Control on Arsenic Mobility at Zimapán, México , 2004, Archives of environmental contamination and toxicology.

[197]  V. Ciminelli,et al.  Adsorption and desorption of arsenic on an oxisol and its constituents. , 2004, Water research.

[198]  Prosun Bhattacharya,et al.  Groundwater arsenic in the Chaco-Pampean Plain, Argentina : Case study from Robles County, Santiago del Estero Province , 2004 .

[199]  Prosun Bhattacharya,et al.  Behavior of arsenic and geochemical modeling of arsenic enrichment in aqueous environments , 2004 .

[200]  Leticia Carrizales,et al.  Arsenic and Heavy Metal Pollution of Soil, Water and Sediments in a Semi-Arid Climate Mining Area in Mexico , 2004 .

[201]  David M. Sherman,et al.  Surface complexation of arsenic(V) to iron(III) (hydr)oxides: structural mechanism from ab initio molecular geometries and EXAFS spectroscopy , 2003 .

[202]  I. Thornton,et al.  Arsenic enrichment in waters and sediments of the Rio Loa (Second Region, Chile) , 2003 .

[203]  Fritz H. Frimmel,et al.  Arsenic — a Review. Part II: Oxidation of Arsenic and its Removal in Water Treatment , 2003 .

[204]  A. Shraim,et al.  A global health problem caused by arsenic from natural sources. , 2003, Chemosphere.

[205]  Janet G Hering,et al.  Comparison of arsenic(V) and arsenic(III) sorption onto iron oxide minerals: implications for arsenic mobility. , 2003, Environmental science & technology.

[206]  W. Höll,et al.  Development of the Application of Magnetic Microsorbents for the Elimination of Hazardous Inorganic Contaminants from Natural Waters , 2003 .

[207]  I. Cohen,et al.  Natural contamination with arsenic and other trace elements in ground waters of Argentine Pampean Plain. , 2003, The Science of the total environment.

[208]  B. Rawlins,et al.  Geochemical distribution of arsenic in waters, sediments and weathered gold mineralized rocks from Iron Quadrangle, Brazil , 2003 .

[209]  R. Puls,et al.  In situ remediation of arsenic in simulated groundwater using zerovalent iron: laboratory column tests on combined effects of phosphate and silicate. , 2003, Environmental science & technology.

[210]  Min Yang,et al.  Arsenic(V) removal with a Ce(IV)-doped iron oxide adsorbent. , 2003, Chemosphere.

[211]  O. Leupin,et al.  Iron-catalyzed oxidation of arsenic(III) by oxygen and by hydrogen peroxide: pH-dependent formation of oxidants in the Fenton reaction. , 2003, Environmental science & technology.

[212]  C. Ayora,et al.  Evaluation of municipal compost/limestone/iron mixtures as filling material for permeable reactive barriers for in‐situ acid mine drainage treatment , 2003 .

[213]  P. Weidler,et al.  Arsenic sorption onto soils enriched in Mn and Fe minerals , 2003 .

[214]  A. Voegelin,et al.  Catalyzed oxidation of arsenic(III) by hydrogen peroxide on the surface of ferrihydrite: an in situ ATR FTIR study. , 2003, Environmental science & technology.

[215]  Thiruvenkatachari Viraraghavan,et al.  Arsenic Removal from Drinking Water using Iron Oxide-Coated Sand , 2003 .

[216]  J. Greenleaf,et al.  Arsenic removal using a polymeric/inorganic hybrid sorbent. , 2003, Water research.

[217]  A. Pérez-Hernández,et al.  REMOVAL OF ARSENIC AND FLUORIDE FROM DRINKING WATER WITH CAKE ALUM AND A POLYMERIC ANIONIC FLOCCULENT , 2003 .

[218]  C. Ayora,et al.  Treatment of acid mine drainage by sulphate-reducing bacteria using permeable reactive barriers: A review from laboratory to full-scale experiments , 2002 .

[219]  M. L. Hunt,et al.  Arsenic(III) and arsenic(V) reactions with zerovalent iron corrosion products. , 2002, Environmental science & technology.

[220]  M. Cebrián,et al.  Arsenic levels in cooked food and assessment of adult dietary intake of arsenic in the Region Lagunera, Mexico. , 2002, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[221]  Kazuo T. Suzuki,et al.  Arsenic round the world: a review. , 2002, Talanta.

[222]  Robert Y. Ning,et al.  Arsenic removal by reverse osmosis , 2002 .

[223]  D. Macalady,et al.  Natural organic matter affects arsenic speciation and sorption onto hematite. , 2002, Environmental science & technology.

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

[225]  W. Driehaus Arsenic removal - experience with the GEH® process in Germany , 2002 .

[226]  P. Smedley,et al.  Hydrogeochemistry of arsenic and other inorganic constituents in groundwaters from La Pampa, Argentina , 2002 .

[227]  S. Goldberg,et al.  Competitive Adsorption of Arsenate and Arsenite on Oxides and Clay Minerals , 2002 .

[228]  B. Merkel,et al.  Origin of arsenic in the groundwater of the Rioverde basin, Mexico , 2001 .

[229]  U. Gunten,et al.  Solar oxidation and removal of arsenic at circumneutral pH in iron containing waters. , 2001, Environmental science & technology.

[230]  R. Puls,et al.  Arsenate and arsenite removal by zerovalent iron: kinetics, redox transformation, and implications for in situ groundwater remediation. , 2001, Environmental science & technology.

[231]  H. Mango,et al.  Arsenic removal from contaminated water by the Soyatal Formation, Zimapán Mining District, Mexico – a potential low-cost low-tech remediation system , 2001, Geochemistry: Exploration, Environment, Analysis.

[232]  C. Johnston,et al.  Mechanisms of Arsenic Adsorption on Amorphous Oxides Evaluated Using Macroscopic Measurements, Vibrational Spectroscopy, and Surface Complexation Modeling. , 2001, Journal of colloid and interface science.

[233]  R. Wennrich,et al.  Application of natural zeolites for preconcentration of arsenic species in water samples. , 2001, Journal of environmental monitoring : JEM.

[234]  G. Dobbs,et al.  Inorganic Arsenic Removal by Zero-Valent Iron , 2000 .

[235]  M. Chaudhuri,et al.  Removal of arsenic from ground water by manganese dioxide-coated sand , 1999 .

[236]  M. Cebrián,et al.  Alteration in bilirubin excretion in individuals chronically exposed to arsenic in Mexico. , 1998, Toxicology letters.

[237]  J. Drever,et al.  Adsorption of arsenic by natural aquifer material in the San Antonio-El Triunfo mining area, Baja California, Mexico , 1998 .

[238]  M. Jekel,et al.  Granular ferric hydroxide—a new adsorbent for the removal of arsenic from natural water. , 1998 .

[239]  Menachem Elimelech,et al.  Arsenic Removal from Drinking Water during Coagulation , 1997 .

[240]  Ernest O. Kartinen,et al.  An overview of arsenic removal processes , 1995 .

[241]  M. Jekel,et al.  Oxidation of arsenate(III) with manganese oxides in water treatment , 1995 .

[242]  M. Edwards Chemistry of arsenic removal during coagulation and Fe-Mn oxidation , 1994 .

[243]  R. Delaune,et al.  Effect of redox potential and pH on arsenic speciation and solubility in a contaminated soil , 1991 .

[244]  Dennis C. Johnson,et al.  Electrocatalytic oxidation of As(III) , 1984 .