Arsenic adsorption and its fractions on aquifer sediment: Effect of pH, arsenic species, and iron/manganese minerals

Water, Air, and Soil Pollution

Volumn 226, Issue 8, 2015, Pages

  Ma, Jie ^a,b,c   Guo, Huaming ^a,b   Lei, Mei ^c   Zhou, Xiaoyong ^c   Li, Fulan ^a,b   Yu, Tian ^a,b   Wei, Rongfei ^c   Zhang, Hanzhi ^c   Zhang, Xi ^c   Wu, Yang ^c  

^a CHINA UNIVERSITY OF GEOSCIENCES   (China)

^b CHINA UNIVERSITY OF GEOSCIENCES   (China)

^c INSTITUTE OF GEOGRAPHIC SCIENCES AND NATURAL RESOURCES RESEARCH   (China)

Author keywords

Adsorption; Aquifer sediments; Arsenic; Arsenic species; Fe Mn minerals; Fraction; pH

Indexed keywords

ADSORPTION; AQUIFERS; ARSENIC; ISOTHERMS; MINERALS; PH; SEDIMENTS;

ADSORPTION PROCESS; AQUIFER SEDIMENTS; ARSENIC ADSORPTION; ARSENIC SPECIES; FRACTION; MONOLAYER ADSORPTION; NONSPECIFIC ADSORPTION; SEQUENTIAL EXTRACTION;

PH EFFECTS;

ARSENIC; FERRIC OXIDE; IRON; MANGANESE;

ADSORPTION; AQUIFER; ARSENIC; IRON; MANGANESE; MINERAL; PH; SEDIMENT POLLUTION;

ADSORPTION; AQUIFER; ARTICLE; CONTROLLED STUDY; DIFFUSION; ISOTHERM; KINETICS; PH; SEDIMENT; STATIC ELECTRICITY;

EID: 84937819850     PISSN: 00496979     EISSN: 15732932     Source Type: Journal    
DOI: 10.1007/s11270-015-2524-1     Document Type: Article

References (68)

1. Amstaetter, K., Borch, T., Karese-casanova, P., & Kappler, A. (2010). Redox transformation of arsenic by Fe(II)-activated goethite (α-FeOOH). Environmental Science & Technology, 44(1), 102-108.
2. Anawar, H. M., Akai, J., & Sakugawa, H. (2004). Mobilization of arsenic from subsurface sediments by effect of bicarbonate ions in groundwater. Chemosphere, 54(6), 753-762.
3. Asta, M. P., Cama, J., Martínez, M., & Giménez, J. (2009). Arsenic removal by goethite and jarosite in acidic conditions and its environmental implications. Journal of Hazardous Materials, 171(1-3), 965-972.
4. Banerjee, K., Amy, G. L., Prevost, M., Nour, S., Jekel, M., Gallagher, P. M., & Blumenschein, C. D. (2008). Kinetic and thermodynamic aspects of adsorption of arsenic onto granular ferric hydroxide (GFH). Water Research, 42(13), 3371-3378.
5. Campbell, K. M., Malasarn, D., Saltikov, C. W., Newman, D. K., & Hering, J. G. (2006). Simultaneous microbial reduction of iron (III) and arsenic (V) in suspensions of hydrous ferric oxide. Environmental Science & Technology, 40(19), 5950-5955.
6. Chang, M. Y., & Juang, R. S. (2004). Adsorption of tannic acid, humic acid, and dyes from water using the composite of chitosan and activated clay. Journal of Colloid and Interface Science, 278(1), 18-25.
7. Costagliola, P., Bardelli, F., Benvenuti, M., Benedetto, F. D., Lattanzi, P., Romanelli, M., Paolieri, M., Rimondi, V., & Vaggelli, G. (2013). Arsenic-bearing calcite in natural travertines: evidence from sequential extraction, μXAS, and μXRF. Environmental Science & Technology, 47(12), 6231-6238.
8. Deschamps, E., Ciminelli, V. S. T., Weidler, P. G., & Ramos, A. Y. (2003). Arsenic sorption onto soils enriched in Mn and Fe minerals. Clays and Clay Minerals, 51(2), 197-204.
9. Devesa-Rey, R., Paradelo, R., Díaz-Fierros, F., & Barral, M. T. (2008). Fractionation and bioavailability of arsenic in the bed sediments of the Anllóns River (NW Spain). Water, Air, & Soil Pollution, 195(1), 189-198.
10. Doušová, B., Martaus, A., Filippi, M., & Koloušek, D. (2008). Stability of arsenic species in soils contaminated naturally and in an anthropogenic manner. Water, Air, & Soil Pollution, 187(1-4), 233-241.
11. Fendorf, S., Eick, M. J., Grossl, P., & Sparks, D. L. (1997). Arsenate and chromate retention mechanisms on goethite. 1. Surface structure. Environmental Science & Technology, 31(2), 315-320.
12. Fendorf, S., Michael, H. A., & van Geen, A. (2010). Spatial and temporal variations of groundwater arsenic in South and Southeast Asia. Science, 328(5982), 1123-1127.
13. Fritzsche, A., Rennert, T., & Totsche, K. U. (2011). Arsenic strongly associates with ferrihydrite colloids formed in a soil effluent. Environmental Pollution, 159(5), 1398-1405.
14. Gao, X. B., Su, C. L., Wang, Y. X., & Hu, Q. H. (2013). Mobility of arsenic in aquifer sediments at Datong Basin, northern China: effect of bicarbonate and phosphate. Journal of Geochemical Exploration, 135(5), 93-103.
15. Giral, M., Zagury, G. J., Deschênes, L., & Blouin, J. (2010). Comparison of four extraction procedures to assess arsenate and arsenite species in contaminated soils. Environmental Pollution, 158(5), 1890-1898.
16. Goldberg, S., & Johnstonm, C. T. (2001). Mechanisms of arsenic adsorption on amorphous oxides evaluated using macroscopic measurements, vibrational spectroscopy, and surface complexation modelling. Journal of Colloid and Interface Science, 234(1), 204-216.
17. Gunduz, O., Simsek, C., & Hasozbek, A. (2010). Arsenic pollution in the groundwater of Simav Plain, Turkey: its impact on water quality and human health. Water, Air, & Soil Pollution, 205(1), 43-62.
18. Guo, H. M., Stüben, D., & Berner, Z. (2007). Adsorption of arsenic(III) and arsenic(V) from groundwater using natural siderite as the adsorbent. Journal of Colloid and Interface Science, 315(1), 47-53.
19. Guo, H. M., Li, Y., & Zhao, K. (2010). Arsenate removal from aqueous solution using synthetic siderite. Journal of Hazardous Materials, 176(1), 174-180.
20. Guo, H. M., Ren, Y., Liu, Q., Zhao, K., & Li, Y. (2013). Enhancement of arsenic adsorption during mineral transformation from siderite to goethite: mechanism and application. Environmental Science & Technology, 47(2), 1009-1016.
21. Guo, H. M., Wen, D. G., Liu, Z. Y., Jia, Y. F., & Guo, Q. (2014). A review of high arsenic groundwater in Mainland and Taiwan, China: Distribution, characteristics and geochemical processes. Applied Geochemistry, 41, 196-217.
22. Gupta, V. K., Saini, V. K., & Jain, N. (2005). Adsorption of As(III) from aqueous solutions by iron oxide-coated sand. Journal of Colloid and Interface Science, 288(1), 55-60.
23. Han, F. X., Kingery, W. L., Selim, H. M., Gerard, P. D., Cox, M. S., & Oldham, J. L. (2004). Arsenic solubility and distribution in poultrywaste and long-term amended soil. Science of the Total Environment, 320(1), 51-61.
24. Ho, Y. S. (2004). Citation review of Lagergren kinetic rate equation on adsorption reactions. Scientometrics, 59(1), 171-177.
25. Ho, Y. S., & Mckay, G. (1999). Pseudo-second order model for sorption processes. Process Biochemistry, 34(5), 451-465.
26. Huang, G. X., Chen, Z. Y., Wang, J. C., Sun, J. C., Liu, J. T., & Zhang, Y. (2013). Adsorption of arsenite onto a soil irrigated by sewage. Journal of Geochemical Exploration, 132, 164-172.
27. Huang, G. X., Chen, Z. Y., Sun, J. C., Liu, F., Wang, J., & Zhang, Y. (2015). Effect of sample pretreatment on the fractionation of arsenic in anoxic soils. Environmental Science and Pollution Research, 22(11), 8367-8374.
28. Hug, S. J., & Leupin, O. (2003). Iron-catalyzed oxidation of arsenic(III) by oxygen and by hydrogen peroxide: pH-dependent formation of oxidants in the Fenton reaction. Environmental Science & Technology, 37(12), 2734-2742.
29. Islam, F. S., Gault, A. G., Boothman, C., Polya, D. A., Charnock, J. M., Chatterjee, D., & Lloyd, J. R. (2004). Role of metal-reducing bacteria in arsenic release from Bengal delta sediments. Nature, 430(6995), 68-71.
30. Javed, M. B., Kachanoski, G., & Siddique, T. (2013). A modified sequential extraction method for arsenic fractionation in sediments. Analytica Chimica Acta, 787(17), 102-110.
31. Jessen, S., Larsen, F., Koch, C. B., & Avin, E. (2005). Sorption and desorption of arsenic to ferrihydrite in a sand filter. Environmental Science & Technology, 39(20), 8045-8051.
32. Katsoyiannis, I. A., Ruettimann, T., & Hug, S. J. (2008). pH dependence of Fenton reagent generation and As(III) oxidation and removal by corrosion of zero valent iron in aerated water. Environmental Science & Technology, 42(19), 7424-7430.
33. Keon, N. E., Swartz, C. H., Brabander, D. J., Harveyand, C., & Hemond, H. F. (2001). Validation of an arsenic sequential extraction method for evaluating mobility in sediments. Environmental Science & Technology, 35(13), 2778-2784.
34. Kim, E. J., Yoo, J., & Baek, K. (2014). Arsenic speciation and bioaccessibility in arsenic-contaminated soils: sequential extraction and mineralogical investigation. Environmental Pollution, 186, 29-35.
35. Kosmulski, M. (2009). Compilation of PZC and IEP of sparingly soluble metal oxides and hydroxides from literature. Advances in Colloid and Interface Science, 152(1), 14-25.
36. Kumar, K. V., Ramamurthi, V., & Sivanesan, S. (2005). Modeling the mechanism involved during the sorption of methylene blue onto fly ash. Journal of Colloid and Interface Science, 284(1), 14-21.
37. Lenz, C., Behrends, T., Jilbert, T., Silveira, M., & Slomp, C. P. (2014). Redox-dependent changes in manganese speciation in Baltic Sea sediments from the Holocene Thermal Maximum: An EXAFS, XANES and LA-ICP-MS study. Chemical Geology, 370(26), 49-57.
38. Liang, Q. Q., & Zhao, D. Y. (2014). Immobilization of arsenate in a sandy loam soil using starch-stabilized magnetite nanoparticles. Journal of Hazardous Materials, 271(30), 16-23.
39. Livesey, N. T., & Huang, P. M. (1981). Adsorption of arsenate by soils and its relation to selected chemical properties and anions. Soil Science, 131(2), 88-94.
40. Maji, S. K., Pal, A., Pal, T., & Adak, A. (2007). Adsorption thermodynamics of arsenic on laterite soil. Journal of Surface Science and Technology, 22(3-4), 161-176.
41. Mamindy-Pajany, Y., Hurel, C., Marmier, N., & Roméo, M. (2011). Arsenic (V) adsorption from aqueous solution onto goethite, hematite, magnetite and zero-valent iron: effects of pH, concentration and reversibility. Desalination, 281(17), 93-99.
42. Manning, B. A., Fendorf, S. E., & Goldberg, S. (1998). Surface structures and stability of arsenic(III) on goethite: spectroscopic evidence for inner-sphere complexes. Environmental Science & Technology, 32(16), 2383-2388.
43. Manning, B. A., Fendorf, S. E., Bostick, B., & Suarez, D. L. (2002a). Arsenic(III) oxidation and arsenic(V) adsorption reactions on synthetic birnessite. Environmental Science & Technology, 36(5), 976-981.
44. Manning, B. A., Hunt, M. L., Amrhein, C., & Yarmoff, J. A. (2002b). Arsenic(III) and arsenic(V) reactions with zero valent iron corrosion products. Environmental Science & Technology, 36(24), 5455-5461.
45. Mohan, D., & Pittman, C. U., Jr. (2007). Arsenic removal from water/wastewater using adsorbents - a critical review. Journal of Hazardous Materials, 142(1-2), 1-53.
46. Mukherjee, A., Scanlon, B. R., Fryar, A. E., Saha, D., Ghosh, A., Chowdhuri, S., & Mishra, R. (2012). Solute chemistry and arsenic fate in aquifers between the Himalayan foothills and Indian craton (including central Gangetic plain): influence of geology and geomorphology. Geochimica et Cosmochimica Acta, 90(1), 283-302.
47. Namasivayam, C., & Senthilkumar, S. (1998). Removal of arsenic(V) from aqueous solution using industrial solid waste: adsorption rates and equilibrium studies. Industrial & Engineering Chemistry Research, 37(12), 4816-4822.
48. Nath, B., Sahu, S. J., Jana, J., Mukherjee-Goswami, A., Roy, S., & Sarkar, M. J. (2008). Hydrochemistry of arsenic-enriched aquifer from rural West Bengal, India: a study of the arsenic exposure and mitigation option. Water, Air, & Soil Pollution, 190(1-4), 95-113.
49. Nesbitt, H. W., Canning, G. W., & Bancroft, G. M. (1998). XPS study of reductive dissolution of 7 Å-birnessite by H3AsO3, with constraints on reaction mechanism. Geochimica et Cosmochimica Acta, 62(12), 2097-2110.
50. Ona-Nguema, G., Morin, G., Wang, Y. H., Foster, A. L., Juillot, F., Calas, G., & Brown, G. E. (2010). XANES evidence for rapid arsenic(III) oxidation at magnetite and ferrihydrite surfaces by dissolved O2 via Fe2+-mediated reactions. Environmental Science & Technology, 44(14), 5416-5422.
51. Oscarson, D. W., Huang, P. M., & Liaw, W. K. (1981). Role of manganese in the oxidation of arsenite by freshwater lake sediments. Clays and Clay Minerals, 29(3), 219-225.
52. Osorio-López, C., Seco-Reigosa, N., Garrido-Rodríguez, B., Cutillas-Barreiro, L., Arias-Estévez, M., Fernández-Sanjurjo, M. J., Álvarez-Rodríguez, E., & Núñez-Delgado, A. (2014). As(V) adsorption on forest and vineyard soils and pyritic material with or without mussel shell: kinetics and fractionation. Journal of the Taiwan Institute of Chemical Engineers, 45(3), 1007-1014.
53. Partey, F., Norman, D., Ndur, S., & Nartey, R. (2008). Arsenic sorption onto laterite iron concretions: temperature effect. Journal of Surface Science and Technology, 321(2), 493-500.
54. Poulton, S. W., & Canfield, D. E. (2005). Development of a sequential extraction procedure for iron: implications for iron partitioning in continentally derived particulates. Chemical Geology, 214(3-4), 209-221.
55. Qi, Y. Q., & Donahoe, R. J. (2008). The environmental fate of arsenic in surface soil contaminated by historical herbicide application. Science of the Total Environment, 405(1-3), 246-254.
56. Qiao, J. L., Jiang, Z., Sun, B., Sun, Y. K., Wang, Q., & Guan, X. H. (2012). Arsenate and arsenite removal by FeCl3: effects of pH, As/Fe ratio, initial As concentration and co-existing solutes. Separation and Purification Technology, 92(18), 106-114.
57. Ramesh, A., Hasegawa, H., Maki, T., & Ueda, K. (2007). Adsorption of inorganic and organic arsenic from aqueous solutions by polymeric Al/Fe modified montmorillonite. Separation and Purification Technology, 56(1), 90-100.
58. Ravenscroft, P., Brammer, H., & Richards, K. (2009). Arsenic pollution: a global synthesis. Oxford: Wiley-Blackwell.
59. Robert, L. C., Hug, S. J., Ruettimann, T., Billah, M. M., Khan, A. W., & Rahman, M. T. (2004). Arsenic removal with iron(II) and iron(III) in waters with high silicate and phosphate concentrations. Environmental Science & Technology, 38(1), 307-315.
60. Salameh, Y., Al-Lagtah, N., Ahmad, M. N. M., Allen, S. J., & Walker, G. M. (2010). Kinetic and thermodynamic investigations on arsenic adsorption onto dolomitic sorbents. Chemical Engineering Journal, 160(2), 440-446.
61. Smedley, P. L., & Kinniburgh, D. G. (2002). A review of the source, behaviour and distribution of arsenic in natural waters. Applied Geochemistry, 17(5), 517-568.
62. Stanic, T., Dakovic, A., Zivanovic, A., Tomasevic-Canovic, M., Dondur, V., & Milicevic, S. (2009). Adsorption of arsenic(V) by iron III-modified natural zeolitic tuff. Environmental Chemistry Letters, 7(2), 161-166.
63. Teppen, B. J., Yu, C. H., Newton, S. Q., Miller, D. M., & Schtifer, L. (1998). Ab initio investigations pertaining to aluminum in tetrahedral octahedral sites of clay minerals. Journal of Molecular Structure, 445(1-3), 65-88.
64. Tessier, A., Campbell, P. G. C., & Bisson, M. (1979). Sequential extraction procedure for the speciation of particulate trace metals. Analytical Chemistry, 51(7), 844-851.
65. Tufano, K. J., Reyes, C., Saltikov, C. W., & Fendof, S. (2008). Reductive processes controlling arsenic retention: revealing the relative importance of iron and arsenic reduction. Environmental Science & Technology, 42(22), 8283-8289.
66. Wenzel, W. W., Kirchbaumer, N., Prohaska, T., Stingeder, G., Lombi, E., & Adriano, D. C. (2001). Arsenic fractionation in soils using an improved sequential extraction procedure. Analytica Chimica Acta, 436(2), 309-323.
67. Ying, C., Kocar, B. D., & Fendorf, S. (2012). Oxidation and competitive retention of arsenic between iron- and manganese oxides Samantha. Geochimica et Cosmochimica Acta, 96(1), 294-303.
68. Zhang, H., & Selim, H. M. (2005). Kinetics of arsenate adsorption-desorption in soils. Environmental Science & Technology, 39(16), 6101-6108.