Influence of microbial and synthetic surfactant on the biodegradation of atrazine

Environmental Science and Pollution Research

Volumn 21, Issue 3, 2014, Pages 2088-2097

  Singh, Anil Kumar ^a   Cameotra, Swaranjit Singh ^a  

^a INSTITUTE OF MICROBIAL TECHNOLOGY   (India)

Author keywords

Bioavailability; Biodegradation; Rhamnolipids; Triton X 100

Indexed keywords

ATRAZINE; HERBICIDE; SURFACTANT;

ARTICLE; BIOREMEDIATION; CHEMICAL PHENOMENA; CHEMISTRY; METABOLISM; MICROBIOLOGY; SOIL; SOIL POLLUTANT; SOLUBILITY;

ATRAZINE; BIODEGRADATION, ENVIRONMENTAL; HERBICIDES; HYDROPHOBIC AND HYDROPHILIC INTERACTIONS; SOIL; SOIL MICROBIOLOGY; SOIL POLLUTANTS; SOLUBILITY; SURFACE-ACTIVE AGENTS;

EID: 84895072806     PISSN: 09441344     EISSN: 16147499     Source Type: Journal    
DOI: 10.1007/s11356-013-2127-6     Document Type: Article

References (36)

1. Abhilash PC, Srivastava S, Singh N (2011) Comparative bioremediation potential of four rhizospheric microbial species against lindane. Chemosphere 82: 56-63.
2. Al-Tahhan RA, Sandrin TR, Bodour AA, Maier RM (2000) Rhamnolipid-induced removal of lipopolysaccharide from Pseudomonas aeruginosa: effect on cell surface properties and interaction with hydrophobic substrates. Appl Environ Microbiol 66: 3262-3268.
3. Aronstein BN, Paterek JR (1995) Effect of nonionic surfactant on the degradation of glass-sorbed PCB congeners by integrated chemical-biological treatment. Environ Toxicol Chem 14: 749-754.
4. Brown DG, Jaffe PR (2006) Effects of nonionic surfactants on the cell surface hydrophobicity and apparent hamaker constant of a Sphingomonas sp. Environ Sci Technol 40: 195-201.
5. Calfee MW, Shelton JG, McCubrey JA, Pesci EC (2005) Solubility and bioactivity of the Pseudomonas quinolone signal are increased by a Pseudomonas aeruginosa-produced surfactant. Infect Immun 73: 878-882.
6. Candrasekaran EV, Bemiller JN (1980) Constituent analyses of glycosaminoglycans. In: Whistler RL (ed) Methods in carbohydrate chemistry. Academic, New York, pp 89-96.
7. Cycon M, Wojcik M, Piotrowska-Seget Z (2009) Biodegradation of the organophosphorus insecticide diazinon by Serratia sp. and Pseudomonas sp. and their use in bioremediation of contaminated soil. Chemosphere 76: 494-501.
8. Fazlurrahman BM, Pandey J, Suri CR, Jain RK (2009) Isolation and characterization of an atrazine-degrading Rhodococcus sp. strain MB-P1 from contaminated soil. Lett Appl Microbiol 49: 721-729.
9. Hrenovic J, Ivankovic T (2007) Toxicity of anionic and cationic surfactant to Acinetobacter junii in pure culture. Cent Eur J Biol 2: 405-414.
10. Kontchou CY, Gschwind N (1994) Mineralization of the herbicide atrazine as a carbon source by a Pseudomonas strain. Appl Environ Microbiol 60: 4297-4302.
11. Kovaios ID, Paraskeva CA, Koutsoukos PG, Payatakes AC (2006) Adsorption of atrazine on soils: Model study. J Colloid Interf Sci 299: 88-94.
12. Laha S, Luthy RG (1991) Inhibition of phenanthrene mineralization by nonionic surfactants in soil-water systems. Environ Sci Technol 25: 1920-1930.
13. Li W, Zhang M, Zhang J, Han Y (2006) Self-assembly of cetyl trimethylammonium bromide in ethanol-water mixtures. Front Chem China 1: 438-442.
14. Liu X, Li A, Zhou B, Qiu C, Ren H (2009) Chemiluminescence determination of surfactant triton X-100 in environmental water with luminol-hydrogen peroxide system. Chem Cent J 3: 7.
15. Mata-Sandoval JC, Karns J, Torrents A (2000) Effect of rhamnolipids produced by Pseudomonas aeruginosa UG2 on the solubilization of pesticides. Environ Sci Technol 34: 4923-4930.
16. Mata-Sandoval JC, Karns J, Torrents A (2001) Influence of rhamnolipids and triton X-100 on the biodegradation of three pesticides in aqueous phase and soil slurries. J Agric Food Chem 49: 3296-3303.
17. Mulligan CN (2005) Environmental applications for biosurfactants. Environ Pollut 133: 183-198.
18. Ngigi A, Dörfler U, Scherb H, Getenga Z, Boga H, Schroll R (2011) Effect of fluctuating soil humidity on in situ bioavailability and degradation of atrazine. Chemosphere 84: 369-375.
19. Pacwa-Plociniczak M, Plaza GA, Piotrowska-Seget Z, Cameotra SS (2011) Environmental applications of biosurfactants: recent advances. Int J Mol Sci 12: 633-654.
20. Pruthi V, Cameotra SS (1997) Rapid identification of biosurfactant-producing bacterial strains using a cell surface hydrophobicity technique. Biotechnol Tech 11: 671-674.
21. Sagarkar S, Mukherjee S, Nousiainen A, Bjorklof K, Purohit HJ, Jorgensen KS, Kapley A (2013) Monitoring bioremediation of atrazine in soil microcosms using molecular tools. Environ Pollut 172: 108-115.
22. Sanchez-Camazano M, Sanchez-Martin MJ, Rodriguez-Cruz MS (2000) Sodium dodecyl sulphate-enhanced desorption of atrazine: effect of surfactant concentration and of organic matter content of soils. Chemosphere 41: 1301-1305.
23. Satsuma K (2010) Mineralization of s-triazine herbicides by a newly isolated Nocardioides species strain DN36. Appl Microbiol Biotechnol 86: 1585-1592.
24. Schiavon M (1988) Studies of the leaching of atrazine, of its chlorinated derivatives, and of hydroxyatrazine from soil using 14C ring-labeled compounds under outdoor conditions. Ecotoxicol Environ Saf 15: 46-54.
25. Sharma P, Chopra A, Cameotra S, Suri C (2010) Efficient biotransformation of herbicide diuron by bacterial strain Micrococcus sp. PS-1. Biodegradation 21: 979-987.
26. Singh A, Cameotra S (2013) Rhamnolipids production by multi-metal-resistant and plant-growth-promoting Rhizobacteria. Appl Biochem Biotechnol 170: 1038-1056.
27. Singh A, van Hamme JD, Ward OP (2007) Surfactants in microbiology and biotechnology: part 2. Application aspects. Biotechnol Adv 25: 99-121.
28. Singh P, Suri CR, Cameotra SS (2004) Isolation of a member of Acinetobacter species involved in atrazine degradation. Biochem Biophys Res Commun 317: 697-702.
29. Siripattanakul S, Wirojanagud W, McEvoy J, Limpiyakorn T, Khan E (2009) Atrazine degradation by stable mixed cultures enriched from agricultural soil and their characterization. J Appl Microbiol 106: 986-992.
30. Sotirova A, Spasova D, Vasileva-Tonkova E, Galabova D (2009) Effects of rhamnolipid-biosurfactant on cell surface of Pseudomonas aeruginosa. Microbiol Res 164: 297-303.
31. Swarcewicz MK, Gregorczyk A (2012) The effects of pesticide mixtures on degradation of pendimethalin in soils. Environ Monit Assess 184: 3077-3084.
32. Urena-Amate MD, Socias-Viciana M, Gonzalez-Pradas E, Saifi M (2005) Effects of ionic strength and temperature on adsorption of atrazine by a heat treated kerolite. Chemosphere 59: 69-74.
33. Urum K, Grigson S, Pekdemir T, McMenamy S (2006) A comparison of the efficiency of different surfactants for removal of crude oil from contaminated soils. Chemosphere 62: 1403-1410.
34. Wackett LP, Sadowsky MJ, Martinez B, Shapir N (2002) Biodegradation of atrazine and related s-triazine compounds: from enzymes to field studies. Appl Microbiol Biotechnol 58: 39-45.
35. Zhong H, Zeng GM, Liu JX, Xu XM, Yuan XZ, Fu HY et al (2008) Adsorption of monorhamnolipid and dirhamnolipid on two Pseudomonas aeruginosa strains and the effect on cell surface hydrophobicity. Appl Microbiol Biotechnol 79: 671-677.
36. Zhong H, Zeng GM, Yuan XZ, Fu HY, Huang GH, Ren FY (2007) Adsorption of dirhamnolipid on four microorganisms and the effect on cell surface hydrophobicity. Appl Microbiol Biotechnol 77: 447-455.