Influence of soil-water ratio on the performance of slurry phase bioreactor treating herbicide contaminated soil

Bioresource Technology

Volumn 98, Issue 13, 2007, Pages 2584-2589

  Venkata Mohan, S ^a   Ramakrishna, M ^a   Shailaja, S ^a   Sarma, P N ^a  

^a INDIAN INSTITUTE OF CHEMICAL TECHNOLOGY   (India)

Author keywords

Bioremediation; Partition coefficient; Pendimethalin; Sequencing batch reactor; Soil; Soil slurry system; Soil water ratio

Indexed keywords

BIOREACTORS; BIOREMEDIATION; CONTAMINATION; HERBICIDES; SUBSTRATES;

PARTITION COEFFICIENT; PENDIMETHALIN; SEQUENCING BATCH REACTOR; SOIL SLURRY SYSTEM;

SOIL POLLUTION CONTROL;

HERBICIDE; PENDIMETHALIN;

BIOREACTORS; BIOREMEDIATION; CONTAMINATION; HERBICIDES; SOIL POLLUTION CONTROL; SUBSTRATES;

BIODEGRADATION; BIOREACTOR; BIOREMEDIATION; DESORPTION; HERBICIDE; MASS TRANSFER; PARTITION COEFFICIENT; PERFORMANCE ASSESSMENT; POLLUTANT REMOVAL; SLURRY; SOIL POLLUTION;

ARTICLE; BIOREACTOR; BIOREMEDIATION; CONTROLLED STUDY; DESORPTION; NONHUMAN; PARTITION COEFFICIENT; PRIORITY JOURNAL; SEQUENCING BATCH REACTOR; SOIL DEGRADATION; SOIL POLLUTION; SOIL TREATMENT; SOIL WATER CONTENT;

BIOREACTORS; ENVIRONMENTAL REMEDIATION; HERBICIDES; SOIL; SOIL POLLUTANTS; WATER;

EID: 33947356224     PISSN: 09608524     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.biortech.2006.09.018     Document Type: Article

References (25)

1. Barua A.S., Jayanath S.C., Chowdhury S., Chaudhury A.A., and Narayan. Degradation of pendimethalin by soil fungi. Pestic. Sci. 29 4 (1990) 419-425
2. Bento F.M., Flavio A.O.C., Okeke B.C., and Frankenberger W.T. Comparative bioremediation of soils contaminated with diesel oil by natural attenuation, biostimulation and bioaugmentation. Bioresource Technol. 96 9 (2005) 1049-1055
3. Boopathy R. Factors limiting bioremediation technology. Bioresource Technol. 74 1 (2000) 63-67
4. Fuller M.K., and Manning Jr. J.F. Microbiological changes during bioremediation of explosives-contaminated soils in laboratory and pilot-scale bioslurry reactors. Bioresource Technol. 91 2 (2004) 123-133
5. Gannon E. Environmental cleanup of fertilizer and agri-chemical dealer sites (1992), Lowa Natural Heritage Foundation, Des Moines
6. Kaiser K., Guggenberger G., Haumaier L., and Zech W. Dissolved organic matter sorption on subsoils and soil minerals studies by 13C-NMR and DRIFT spectroscopy. Eur. J. Soil Sci. 48 (1997) 301-310
7. Moza P.N., Hustert K., and Sukul P. Photolytic decomposition of pendimethalin and alachlor. Chemosphere 25 11 (1992) 1675-1682
8. Miller C.M., Richard V.L., Marc R.E., and Pedro A.J.J. Chemical and microbial assessment of pendimethalin - contaminated soil after treatment with Fenton's reagent. Wat. Res. 30 11 (1996) 2579-2586
9. Rahman K.S.M., Rahman T.J., Kourkoutas Y., Marchant P.I.R., and Banat I.M. Enhanced bioremediation of n-alkane in petroleum sludge using bacterial consortium amended with rhamnolipid and micronutrients. Bioresource Technol. 90 2 (2003) 159-168
10. Ramakrishna M., Shailaja S., Siresha K., Venkata Mohan S., and Sarma P.N. Bioremediation of pendimethalin contaminated soil by bioslurry phase reactor - bioaugmenting with ETP microflora. Int. J. Enviro. Poll. 27 4 (2006) 374-387
11. Sarma P.N., Venkata Mohan S., Ramakrishna M., and Shailaja S. Bioremediation of pendimethalin contaminated soil by augmented bioslurry phase reactor operated in sequential batch (SBR) mode: effect of substrate concentration. Indian J. Biotechnol. 5 (2006) 169-174
12. Shetty R.H., Oliver J.E., and Lusby W.R. Effect of pendimethalin and its N-nitroso and N-nitro derivates in anerobic soil. Chemosphere 8 1 & 2 (1996) 146-149
13. Smith R.H., Oliver J.E., and Lusby W.R. Degradation of pendimethalin and its N-nitroso and N-nitro derivatives in anaerobic soil. Chemosphere 8 11-12 (1997) 855-867
14. Stegmann R., Brunner G., Calmano W., and Matz G. Treatment of contaminated soil: fundamentals, analysis, applications. Geoderma 111 1-2 (2001) 151-153
15. USEPA. Selecting remediation techniques for contaminated sediment. EPA-823-B93-001 (1993), US Environmental Protection Agency, Office of Water, Washington
16. Venkata Mohan S., Sirisha K., Chandrasekara Rao N., Sarma P.N., and Reddy S.J. Slurry phase degradation of chloripyriphos in contaminated soil: Bioprocess monitoring. J. Hazard. Mater. (Part B) 116 (2004) 39-48
17. Venkata Mohan S., Shailaja S., Ramakrishna M., Reddy K.B., and Sarma P.N. Bioslurry phase degradation of DEP contaminated soil in periodic discontinuous mode operation: Influence of augmentation and substrate partition. Process Biochem. 41 3 (2006) 644-652
18. Venkata Mohan, S., Ohkuma, T., Kisa, T., Kanalya, R., Shimizu, Y., in press. Bioremediation technologies for treatment of PAH-contaminated soil and strategies to enhance process efficiency. Rev. Environ. Sci. Biotechnol, doi:10.1007/s11157-006-0004-1.
19. WHO. Guide lines for drinking-water quality (1993), World Health Organization pp. 87-88
20. Wei C., and Kwai-Hing C. The prediction of partitioning coefficients for chemicals causing environmental concern. Sci. Total Environ., 0048-9697 248 (2000) 1-10
21. You S.J., Yin Y., and Allen H.E. Partitioning of organic matter in soils: effects of pH and water/soil ratios. Sci. Total Environ. 227 (1999) 155-160
22. Zappi M.E., Rogers B.A., Teeter C.L., Gunnison D., and Bajpai R. Bioslurry treatment of a soil contaminated with low concentrations of total petroleum hydrocarbons. J. Hazard. Mater. 46 (1996) 1-12
23. Zhang C., Joseph B., Huges S.F., and Nishino J.C. Slurry phase biological treatment of 2,4-dinitrotoulene concentrations. Environ. Sci. Technol. 34 (2000) 2810-2816
24. Zheng S.Q., and Cooper J.F. Adsorption, desorption and degradation of three pesticide in different soils. Arch. Environ. Contam. Toxicol. 30 1 (1996) 15-20
25. Zimdahi R.L., Catizone P., and Butcher A.C. Degradation of pendimethalin in soil. Weed Sci. 32 (1984) 408-412