Dynamics of organic and inorganic arsenic in the solution phase of an acidic fen in Germany

Geochimica et Cosmochimica Acta

Volumn 70, Issue 8, 2006, Pages 2023-2033

  Huang, J H ^a   Matzner, E ^a  

^a UNIVERSITY OF BAYREUTH   (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

ARSENIC; FEN; MICROBIAL ACTIVITY; PH; POLLUTANT TRANSPORT; REDOX POTENTIAL; SPATIAL VARIATION; WETLAND;

EID: 33645853157     PISSN: 00167037     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.gca.2006.01.021     Document Type: Article

References (55)

1. Adriano D.C. Trace elements in the terrestrial environments: biogeochemistry, bioavailability and risks of metals. second ed. (2001), Springer, New York
2. Anawar H.M., Akai J., Komaki K., Terao H., Yasjioka T., Ishizuka T., Safiullah S., and Kato K. Geochemical occurrence of arsenic in groundwater of Bangladesh: sources and mobilization processes. J. Geochem. Explor. 77 (2003) 109-131
3. Bednar A.J., Garbarino J.R., Ranville J.F., and Wildeman T.R. Effects of iron on arsenic speciation and redox chemistry in acid mine water. J. Geochem. Explor. 85 (2005) 55-62
4. Bentley R., and Chasteen T.G. Microbial methylation of metalloids: arsenic, antimony, and bismuth. Microbiol. Mol. Biol. R. 66 (2002) 250-271
5. Bhattacharya, P., Tandukar, N., Mukherjee, A.B., Valero, A.A., Jacks, G., 2003. Redox chemistry of arsenic in groundwaters of Terai Belt of Nepal. Oral. 7th international conference on biogeochemistry of trace element, Uppsala, Sweden (June 2003), vol. 2, pp. 10-11.
6. Bissen M., and Frimmel F.H. Arsenic-a review. Part I: occurrence, toxicity, speciation, mobility. Acta Hydrochim. Hydrobiol. 31 (2003) 9-18
7. 2). Geochim. Cosmochim. Acta 67 (2003) 909-921
8. Chatterjee A.D., Das D., Mandal B.K., Chowdhury T.R., Samanta G., and Chakraborty D. Arsenic in ground water in 6 districts of West Bengal, India-the biggest arsenic calamity in the world. A. Arsenic species in drinking water and urine of the affected people. Analyst 120 (1995) 643-650
9. Chiu V.Q., and Hering J.G. Arsenic adsorption and oxidation at manganite surfaces. 1. Method for simultaneous determination of adsorbed and dissolved arsenic species. Environ. Sci. Technol. 34 (2000) 2029-2034
10. Cox, D.P., 1975. Microbiological methylation of arsenic. In: Woolson, E.A. (Ed.), Arsenical pesticides, ACS Symp. Ser 7, 81-96.
11. Cullen W.R., and Reimer K.J. Arsenic speciation in the environment. Chem. Rev. 89 (1989) 713-764
12. Dembitsky V.M., and Levitsky D.O. Arsenolipids. Prog. Lipid Res. 43 (2004) 403-448
13. Garcia-Manyes S., Jiménez G., Padró A., Rubio R., and Rauret G. Arsenic speciation in contaminated soils. Talanta 58 (2002) 97-109
14. Geiszinger A., Gössler W., and Kosmus W. Organoarsenic compounds in plants and soil on top of an ore vein. Appl. Organomet. Chem. 16 (2002) 245-249
15. Gerstberger P., Foken T., and Kalbitz K. The Lehstenbach and Steinkreuz catchments in NE Bavaria, Germany. Ecol. Stud. 172 (2004) 15-44
16. Hanaoka K., Dote Y., Yosida K., Kaise T., Kuroiwa T., and Maeda S. Arsenic compounds accumulated in sedimentary microorganisms cultivated in media containing several arsenicals. Appl. Organomet. Chem. 10 (1996) 683-688
17. Holm T.R., Anderson M.A., Stanforth R.R., and Iverson D.G. Influence of adsorption on the rates of microbial-degradation of arsenic species in sediments. Limnol. Oceanogr. 25 (1980) 23-30
18. Horn M., Matthies C., Küsel K., Schramm A., and Drake H.L. Hydrogenotrophic methanogenesis by moderately acid-tolerant methanogens of a methane-emitting acidic peat. Appl. Environ. Microb. 69 (2003) 74-83
19. Huang J.-H., and Ilgen G. Factors affecting arsenic speciation in environmental samples: sample drying and storage. Int. J. Environ. Anal. Chem. 86 (2006) 347-358
20. Huysmans K.D., and Frankenberger Jr. W.T. Evolution of trimethylarsine by a Penicillium sp. isolated from agricultural evaporation pond water. Sci. Total Environ. 105 (1991) 13-28
21. Jackson C.R., Jackson E.F., Dugas S.L., Gamble K., and Williams S.E. Microbial transformation of arsenite and arsenate in natural environments. Recent Res. Dev. Microbiol. 7 (2003) 103-118
22. Kirk M.F., Holm T.R., Park J., Jin Q., Sanford R.A., Fouke B.W., and Bethke C.M. Bacterial sulphate reduction limits natural arsenic contamination in groundwater. Geology 32 (2004) 953-956
23. Kühnelt D., and Gössler W. Organoarsenic compounds in the terrestrial environment. In: Craig P.J. (Ed). Organometallic Compounds in the Environment (2003), Wiley, NY 223-275
24. Küsel K., and Alewell C. Riparian zones in a forested catchment: hot spots for microbial reductive processes, Germany. Ecol. Stud. 172 (2004) 377-395
25. Lafferty B.J., and Loeppert R.H. Methyl arsenic adsorption and desorption behavior on iron oxides. Environ. Sci. Technol. 39 (2005) 2120-2127
26. Langner H.W., and Inskeep W.P. Microbial reduction of arsenate in the presence of ferrihydrite. Environ. Sci. Technol. 34 (2000) 3131-3136
27. Lindberg S.E., Wallschläger D., Prestbo E.M., Bloom N.S., Price J., and Reinhart D. Methylated mercury species in municipal waste landfill gas sampled in Florida, USA. Atmos. Environ. 35 (2001) 4011-4015
28. Loy A., Küsel K., Lehner A., Drake H.L., and Wagner M. Microarray and functional gene analyses of sulfate-reducing prokaryotes in low-sulfate, acidic fens reveal cooccurrence of recognized genera and novel lineages. Appl. Environ. Microbiol. 70 (2004) 6998-7009
29. Mandal B.K., and Suzuki K.T. Arsenic round the world: a review. Talanta 58 (2002) 201-235
30. Meng X.G., Jing C.Y., and Korfoatis G.P. A review of redox transformation of arsenic in aquatic environments. In: Cai Y., and Braid O.C. (Eds). Biogeochemistry of Environmentally Important Element (2003), American Chemical Society, Washington, DC 70-83
31. Michalke K., Wickenheiser E.B., Mehring M., Hirner A.V., and Hensel R. Production of volatile derivatives of metal(loid)s by microflora involved in anaerobic digestion of sewage sludge. Appl. Environ. Microbiol. 66 (2000) 2791-2796
32. Moore J.N., Flcklin W.H., and John C. Partitioning of arsenic and metals in reducing sulfidic sediments. Environ. Sci. Technol. 22 (1988) 432-437
33. Nickson R., McArthur J., Burgess W., Ahmed K.M., Ravenscorft P., and Rahman M. Arsenic poisoning of Bangladesh groundwater. Nature 395 (1998) 338
34. O'day P.A., Vlassopoulos D., Root R., and Rivera N. The influence of sulfur and iron on dissolved arsenic concentrations in the shallow subsurface under changing redox conditions. Proc. Natl. Acad. Sci. USA 101 (2004) 13703-13708
35. Oremland R.S., Stolz J.F., and Hollibaugh J.T. The microbial arsenic cycle in Mono lake, California. FEMS Microbiol. Ecol. 48 (2004) 15-27
36. Pizarro I., Comez M., Camara C., and Palacios M.A. Arsenic speciation in environmental and biological samples. Extraction and stability studies. Anal. Chim. Acta 495 (2003) 85-98
37. Pongratz R. Arsenic speciation in environmental samples of contaminated soil. Sci. Total Environ. 224 (1998) 133-141
38. Roulet M., Guimaraes J.-R.D., and Lucotte M. Methylmercury production and accumulation in sediments and soils of an Amazonian floodplain-effect of seasonal inundation. Water Air Soil Pollut. 128 (2001) 41-60
39. Sadiq M. Arsenic chemistry in soils: an overview of thermodynamic predictions and field observations. Water Air Soil Pollut. 93 (1997) 117-136
40. Smedley P.L., and Kinniburgh D.G. A review of the source, behaviour and distribution of arsenic in natural waters. Appl. Geochem. 17 (2002) 517-568
41. Takamatsu T., Aoki H., and Yoshida T. Determination of arsenate, arsenite, monomethylarsenate and dimethylarsinate in soil polluted with arsenic. Soil Sci. 133 (1982) 239-246
42. Thanabalasingam P., and Pickering W.F. Arsenic sorption by humic acids. Environ. Pollut. B 12 (1986) 233-246
43. Tiedje J.M., Sexstone A.J., Parkin T.B., Revesbech N.P., and Shelton D.R. Anaerobic processes in soil. Plant Soil 76 (1984) 197-212
44. Tlustoš P., Gössler W., Száková J., and Balík J. Arsenic compounds in leaves and roots of radish grown in soil treated by arsenite, arsenate and dimethylarsinic acid. Appl. Organomet. Chem. 16 (2002) 216-220
45. Turner A.W. Bacterial oxidation of arsenite. Nature 164 (1949) 76-77
46. Wallschläger D., Hintelmann H., Evans R.D., and Wilken R.D. Volatization of dimethylmercury and elemental mercury from river Elbe Flood plan soils. Water Air Soil Pollut. 80 (1995) 1325-1329
47. Wauchope R.D. Fixation of arsenical herbicides, phosphate, and arsenate in alluvial soils. J. Environ. Qual. 4 (1975) 355-358
48. Weber J.H., Evans R., Jones S.H., and Hines M.E. Conversion of mercury(II) into mercury(0), monoethylmercury cation, and dimethylmercury in saltmarsh sediment slurries. Chemosphere 36 (1998) 1669-1687
49. Wilkie J.E., and Hering J.G. Adsorption of arsenic onto hydrous ferric oxide: effects of adsorbate-adsorbent ratios and cooccurring solutes. Colloid Surface A 107 (1996) 97-124
50. Wolthers M., Charlet L., van der Weijden C.H., van der Linde P.R., and Rickard D. Arsenic mobility in the ambient sulfidic environment: sorption of arsenic(V) and arsenic(III) onto disordered mackinawite. Geochim. Cosmochim. Acta 69 (2005) 3483-3492
51. Wood J.M. Biologocal cycles for toxic elements in the environment. Science 183 (1974) 1049-1052
52. Xu H., Allard B., and Grimvall A. Effects of acidification and natural organic materials on the mobility of arsenic in the environment. Water Air Soil Pollut. 57-58 (1991) 269-278
53. Yan X.-P., Kerrich R., and Hendry M.J. Distribution of arsenic(III) and arsenic(V) and total arsenic in porewaters from a thick till and clay-rich aquitard sequence, Saskatchewan, Canada. Geochim. Cosmochim. Acta 62 (2000) 2637-2648
54. Zheng Y., Stute M., van Geen A., Gavrieli I., Dhar R., Simpson H.J., Schlosser P., and Ahmed K.M. Redox control of arsenic mobilization in Bangladesh groundwater. Appl. Geochem. 19 (2004) 201-214
55. Zobrist J., Dowdle P.R., Davis J.A., and Oremland R.S. Mobilization of arsenite by dissimilatory reduction of adsorbed arsenate. Environ. Sci. Technol. 34 (2000) 4747-4753