Efficacy of indigenous soil microbes in arsenic mitigation from contaminated alluvial soil of India

Environmental Science and Pollution Research

Volumn 20, Issue 8, 2013, Pages 5645-5653

  Majumder, Aparajita ^a   Bhattacharyya, Kallol ^a   Kole, S C ^a   Ghosh, Sagarmoy ^b  

^a BIDHAN CHANDRA KRISHI VISWAVIDYALAYA   (India)

^b UNIVERSITY OF CALCUTTA   (India)

Author keywords

Arsenic; Bioremediation; Soil bacteria; Volatilization

Indexed keywords

ARSENIC; ARSENIC ACID; ARSENIC ACID DERIVATIVE; ARSENIC TRIOXIDE; ARSENOUS ACID DERIVATIVE; BACTERIAL RNA; RNA 16S;

ARSENIC; BACTERIUM; BIOREMEDIATION; MANURE; OXIC CONDITIONS; SOIL MICROORGANISM; SOIL POLLUTION; VOLATILIZATION;

AEROBIC METABOLISM; ANAEROBIC GROWTH; ARTICLE; BACTERIUM; BIOREMEDIATION; DRUG EFFECT; GENETICS; INDIA; METABOLISM; MICROBIAL SENSITIVITY TEST; MICROBIOLOGY; SEQUENCE ANALYSIS; SOIL POLLUTANT; VOLATILIZATION;

AEROBIOSIS; ANAEROBIOSIS; ARSENATES; ARSENIC; ARSENITES; BACTERIA; BIODEGRADATION, ENVIRONMENTAL; INDIA; MICROBIAL SENSITIVITY TESTS; RNA, BACTERIAL; RNA, RIBOSOMAL, 16S; SEQUENCE ANALYSIS, RNA; SOIL MICROBIOLOGY; SOIL POLLUTANTS; VOLATILIZATION;

BACTERIA (MICROORGANISMS);

EID: 84880578440     PISSN: 09441344     EISSN: 16147499     Source Type: Journal    
DOI: 10.1007/s11356-013-1560-x     Document Type: Article

References (48)

1. Abedin MJ, Feldmann J, Meharg AA (2002) Uptake kinetics of arsenic species in rice plants. Plant Physiol 128: 1120-1128.
2. Bentley R, Chasteen TG (2002) Microbial methylation of metalloids: arsenic, antimony, and bismuth. Microbiol Mol Biol Rev 66: 250-271.
3. Cernansky S, Kolencik M, Sevc J, Urik M, Hiller E (2009) Fungal volatilization of trivalent and pentavalent arsenic under laboratory conditions. Bioresource Technol 100: 1037-1040.
4. Challenger F (1945) Biological methylation. Chem Rev 36: 315-361.
5. Chandraprabha MN, Natarajan KA (2011) Mechanism of arsenic tolerance and bioremoval of arsenic by Acidithiobacilus ferrooxidans. J Biochem Tech 3(2): 257-265.
6. Cullen WR, Reimer KJ (1989) Arsenic speciation in the environment. Chem Rev 89: 713-764.
7. Edvantoro BB, Naidu R, Megharaj M, Singleton I (2004) Microbial formation of volatile arsenic in cattle dip site soils contaminated with arsenic and DDT. Appl Soil Ecol 25: 207-217.
8. Frankenberger W, Arshad M (2002) Volatilization of arsenic in environmental chemistry of arsenic. In: W Frankenberger (eds). Marcel Dekker, New York. pp 363-380.
9. Gao S, Burau RG (1997) Environmental factors affecting rates of arsine evolution from and mineralisation of arsenicals in soil. J Environ Qual 26: 753-763.
10. Goessler W, Kuehnett D (2002) Analytical methods for the determination of arsenic and arsenic compounds in the environment. In: Frankenberger Jr WTT (eds). Marcel Dekker, New York. pp 27-50.
11. Heikens A, Panaullah GM, Meharg AA (2007) Arsenic behaviour from groundwater and soil to crops: impacts on agriculture and food safety. Rev Environ Contam Toxicol 189: 43-87.
12. Hering JG, Chen PY, Wilkie JA, Elimelech M (1996) Arsenic removal by ferric chloride. J Am Water Works Assoc 88: 155-167.
13. Holtz JD (1993) Bergey's manual of determinative bacteriology, 9th edn. Williams and Wilkins, Baltimore.
14. Hughes MF (2002) Arsenic toxicity and potential mechanisms of action. Toxicol Lett 133: 1-16.
15. Hymer CB, Caruso JA (2004) Arsenic and its speciation analysis using high-performance liquid chromatography and inductively coupled plasma mass spectrometry. J Chromatogr 1045: 1-13.
16. Islam SMA, Fukushi K, Yamamoto K, Saha GC (2007) Estimation of biologic gasification potential of arsenic from contaminated natural soil by enumeration of arsenic methylating bacteria. Arch Environ Contam Toxicol 52: 332-338.
17. Joshi N, Wang X, Montgomery L, Elfick A, French CE (2009) Novel approaches to biosensors for detection of arsenic in drinking water. Desalination 248(1): 517-523.
18. Lee JU, Lee SW, Kim KW, Yoon CH (2005) The effects of different carbon sources on microbial mediation of arsenic in arsenic-contaminated sediment. Environ Geochem Hlth 27: 159-168.
19. Liu S, Zhang F, Chen J, Sun G (2011) Arsenic removal from contajminated soil via biovolatilization by genetically engineered bacteria under laboratory conditions. J Environ Sci 23(9): 1544-1550.
20. Mahimairaja S, Bolan NS, Adriano DC, Robinson B (2005) Arsenic contamination and its risk management in complex environmental settings. Adv Agron 86: 1-82.
21. Mandal BK, Suzuki KT (2002) Arsenic round the world: a review. Talanta 58: 201-235.
22. Mateos LM, Ordonez E, Letek M, Gil JA (2006) Corynebacterium glutamicum as a model bacterium for the bioremediation of arsenic. Int Microbiol 9: 207-215.
23. Meharg AA, Hartley-Whitaker J (2002) Arsenic uptake and metabolism in arsenic resistant and non-resistant plant species. New Phytol 154: 29-43.
24. Mohapatra D, Mishrab D, Roy Chaudhury G, Das RP (2008) Removal of arsenic from arsenic rich sludge by volatilization using anaerobic microorganisms treated with cow dung. Soil Sediment Contam 17: 301-311.
25. Mukhopadhyay R, Rosen BP (2002) Arsenate reductases in prokaryotes and eukaryotes. Environ Health Perspect 110(Suppl 5): 745-748.
26. Pearce RB, Callow ME, Macaskie LE (1998) Fungal volatilisation of arsenic and antimony and the sudden infant death syndrome. FEMS Microbiol Lett 158: 261-265.
27. Penrose WR (1974) Arsenic in the marine and aquatic environments. Analysis, occurrence and significance. CRC Crit Rev Environ Control 4: 465-482.
28. Rahman MM, Sengupta MK, Kumar M, Ahamed S, Chowdhury UK, Hossain MK, Das B, Lodh D, Saha KC, Pati S, Kaies I, Barua AK, Chakroborty D (2005) The magnitude of arsenic contamination in groundwater and its health effects to the inhabitants of the Jalangi-one of the 85 arsenic affected blocks in West Bengal, India. Sci Total Environ 338(3): 189-200.
29. Rodriguez RR (1999) An in-vitro gastro-intestinal method to assess bioavailable arsenic in contaminated soils and solid media. Environ Sci Technol 33: 642-649.
30. Saltikov C, Olson B (2002) Homology of Escherichia coli R773 arsA, arsB, and arsC genes in arsenic-resistant bacteria isolated from raw sewage and arsenic-enriched creek waters. Appl Environ Microbiol 68: 280-288.
31. Sambrook J, Russel DW (2001) Molecular cloning: a laboratory manual. Third edition. Cold Spring Harbor Laboratory, Cold Spring Harbor.
32. Sanz E, Muñoz-Olivas R, Cámara C, Sengupta MK, Ahamed S (2007) Arsenic speciation in rice, straw, soil, hair and nails samples from the arsenic-affected areas of middle and lower Ganga plain. J Environ Sci Health, Part A: Environ Sci Eng 42(12): 1695-1705.
33. Sarkar S, Basu B, Kundu CK, Patra PK (2012) Deficit irrigation; an option to mitigate arsenic load of rice grain in West Bengal India. Agric Ecosyst Environ 46: 147-152.
34. Simeonova D, Lievremont D, Lagarde F, Muller D, Groudeva V, Lett MC (2004) Microplate screening assay for detection of AsIII-oxidizing and AsV-reducing bacteria. FEMS Microbiol Lett 237: 249-253.
35. Singh S, Mulchandani A, Chen W (2008) Highly selective and rapid arsenic removal by metabolically engineered Escherichia coli cells expressing Fucus vesiculosus metallothionein. Appl Environ Microbiol 74(9): 2924-2927.
36. Smith AH, Lingas EO, Rahman M (2000) Contamination of drinking-water by arsenic in Bangladesh: a public health emergency. Bull WHO 78: 1093-103.
37. Sparks DL, Page AL, Helmke PA, Leoppert RH, Solthanpour PN, Tabatabai MA, Johnston CT, Sumner ME (2006) Methods of soil analysis, part 3, chemical methods. Soil Science Society of America, Inc, Madison, pp 811-831.
38. Srivastava S, Verma PC, Singh A, Mishra M, Singh N, Sharma N, Singh N (2012) Isolation and characterization of Staphylococcus sp strain NBRIEAG-8 from arsenic contaminated site of West Bengal. Appl Microbial Biotechnol 95(5): 1275-1291.
39. Stugeron RE, Siu KWM, Willie SN, Berman SH (1989) Quantification of arsenic species in a river water reference material for trace metals by graphite furnace atomic absorption spectrometry technique. Analyst 114: 1393-1396.
40. Tripathi RD, Srivastava S, Mishra S, Singh N, Tuli R, Gupta DK, Maathuis FJM (2007) Arsenic hazards: strategies for tolerance and remediation by plants. Trends Biotechnol 25: 158-164.
41. Turpeinen R, Kallio MP, Kairesalo T (2002) Role of microbes in controlling the speciation of arsenic and production of arsines in contaminated soils. Sci Total Environ 285(1-3): 133-145.
42. Turpeinen R, Pantsar-Kallio M, Haggblom M, Kairesalo T (1999) Influence of microbes on the mobilization, toxicity and biomethylation of arsenic in soil. Sci Total Environ 236: 173-180.
43. Valls M, De Lorenzo V (2002) Exploiting the genetic and biochemical capacities of bacteria for the remediation of heavy metal pollution. FEMS Microbiol Rev 26(4): 327-338.
44. WHO (2001a) Arsenic and Arsenic Compounds Environmental Health Criteria 224 Second ed World Health Organization, Geneva.
45. WHO (2001b) Environmental Health Criteria 224: arsenic and arsenic compounds WHO, Geneva.
46. Williams PN, Lei M, Sun GX, Huang Q, Lu Y, Deacon C, Meharg AA, Zhu YG (2009) Occurrence and partitioning of cadmium, arsenic and lead in mine impacted paddy rice: Hunan, China. Environ Sci Technol 43(3): 637-642.
47. Woolson EA (1977) Fate of arsenicals in different environmental substrates. Environ Health Perspect 19: 73-81.
48. Zhu YG, Rosen BP (2009) Perspectives for genetic engineering for the photoremediation of arsenic contaminated environments: from imagination to reality? Curr Opin Biotechnol 20: 220-224.