Detoxification and accumulation of chromium from tannery effluent and spent chrome effluent by Paecilomyces lilacinus fungi

International Biodeterioration and Biodegradation

Volumn 65, Issue 2, 2011, Pages 309-317

  Sharma, Seema ^a,b   Adholeya, Alok ^a  

^a THE ENERGY AND RESOURCES INSTITUTE   (India)

^b TERI UNIVERSITY   (India)

Author keywords

Cane sugar; Chromium; Paecilomyces lilacinus; Spent chrome effluent; Tannery effluent

Indexed keywords

A-CARBON; BIOLOGICAL PROCESS; CANE SUGAR; CELLULAR GROWTH; CONTINUOUS-FLOW; CR REDUCTIONS; CR REMOVAL; DETECTION LEVELS; DRY BIOMASS; ENRICHMENT CULTURE; ENVIRONMENTAL SUSTAINABILITY; FUNGAL GROWTH; GROWTH MEDIA; INDUSTRIAL EFFLUENT; ITS EFFICIENCIES; PAECILOMYCES LILACINUS; PHYSICOCHEMICAL CHARACTERISTICS; POSITIVE CORRELATIONS; PROCESS STEPS; RECOVERY PROCESS; REDUCTION PROCESS; RETENTION TIME; SPENT CHROME EFFLUENT; STATIONARY PHASE; STIRRED BIOREACTORS; TANNERY EFFLUENT; TANNERY INDUSTRY; TOLERANCE RANGE;

BIOMASS; CHROMIUM; DETOXIFICATION; ECOLOGY; EFFLUENT TREATMENT; EFFLUENTS; FUNGI; MICROORGANISMS; RECOVERY; SALTS; SEWAGE; SUGAR CANE; SUGAR INDUSTRY; SUGARS;

CHROMIUM COMPOUNDS;

ACCUMULATION; BIOREACTOR; CHROMIUM; DETOXIFICATION; EFFLUENT; FOOTWEAR INDUSTRY; FUNGUS; INDUSTRIAL WASTE; METABOLISM; SEPARATION; SLUDGE; SUGAR CANE;

FUNGI; PAECILOMYCES LILACINUS;

EID: 79951577763     PISSN: 09648305     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ibiod.2010.12.003     Document Type: Article

References (65)

1. Acevedo-Aguilar F.J., Espino-Saldana A.E., Leon-Rodriguez I.L., Rivera-Cano Ma.E., Avila-Rodriguez M., Wrobel K., Wrobel K., Lappe P., Ulloa M., Gutierrez-Corona J.F. Hexavalent chromium removal in vitro and from industrial wastes, using chromate-resistant strains of filamentous fungi indigenous to contaminated wastes. Canadian Journal of Microbiology 2006, 52:809-815.
2. Ali I., Gupta V.K. Advances in water treatment by adsorption technology. Nature Protocols 2007, 1:2661-2667.
3. American Public Health Association Standard methods for the examination of water and wastewater 1995, APHA, Washington, D.C. 19th ed.
4. Baral A., Engelken R.D. Chromium-based regulations and greening in metal finishing industries in the USA. Environmental Science and Policy 2002, 5:121-133.
5. Barnhart J. Chromium chemistry and implications for environmental fate and toxicity. Journal of Soil Contamination 1997, 6:561-568.
6. Baudet C., Sprott G.D., Patel G.B. Adsorption and nickel uptake in Methanothrix concilii. Archives of Microbiology 1988, 150:338-342.
7. Beszedits S. Chromium removal from industrial wastewaters. Chromium in the natural and human environments 1988, 232-263. John Wiley, New York. J.O. Nriagu, E. Nieboer (Eds.).
8. Camargo F.A.O., Okeke B.C., Bento F.M., Frankenberger W.T. In vitro reduction of hexavalent chromium by a cell-free extracts of Bacillus sp. ES 29 stimulated by Cu2+. Applied Microbiology and Biotechnology 2003, 62:569-573.
9. Chen J.M., Hao O.J. Microbial chromium (VI) reduction. Critical Reviews in Environmental Science and Technology 1998, 28:219-225.
10. Cheung K.H., Gu J.D. Chromate reduction by Bacillus megaterium TKW3 isolated from marine sediments. World Journal of Microbiology and Biotechnology 2005, 21:213-219.
11. Congeevaram S., Dhanarani S., Park J., Dexilin M., Thamaraiselvi K. Biosorption of chromium and nickel by heavy metal resistant fungal and bacterial isolates. Journal of Hazardous Materials 2007, 146:270-277.
12. Coreno-Alonso A., Acevedo-Aguilar F.J., Reyna-Lopez G.E., Tomasini A., Fernandez F.J., Wrobel K., Wrobel K., Gutiérrez-Corona J.F. Cr(VI) reduction by an Aspergillus tubingensis strain: role of carboxylic acids and implications for natural attenuation and biotreatment of Cr(VI) contamination. Chemosphere 2009, 76:43-47.
13. Dursun A.Y., Uslu G., Tepe O., Cuci Y., Ekiz H.I.A. A comparative investigation on the bioaccumulation of heavy metal ions by growing Rhizopus arrhizus and Aspergillus niger. Biochemical Engineering Journal 2003, 15:87-92.
14. Fukuda T., Ishino Y., Ogawa A., Tsutsumi K., Morita H. Cr(VI) reduction from contaminated soils by Aspergillus sp. N2 and Pencillium sp. N3 isolated from chromium deposits. Journal of General and Applied Microbiology 2008, 54:295-303.
15. Gouda M.K. Studies on chromate reduction by three Aspergillus species. Fresenius Environmental Bulletin 2000, 9:799-808.
16. Greenberg A.D., Connors J.J., Jenkins D., Franson M.A. Standard methods for the examination of water and wastewater 1981, American Public Health Association, Washington, D.C. 15th ed.
17. Gupta V.K., Carrott P.J.M., Carrott M.M.L.R., Suhas Low cost adsorbents: growing approach to wastewater treatment - a review. Critical Reviews in Environmental Science and Technology 2009, 39:783-842.
18. Gupta V.K., Gupta M., Sharma S. Process development for the removal of lead and chromium from aqueous solutions using red mud-an aluminum industry waste. Water Research 2001, 35:1125-1134.
19. Gupta V.K., Mohan D., Sharma S., Park K.T. Removal of chromium (VI) from electroplating industry wastewater using Bagasse fly ash - a sugar industry waste material. The Environmentalist 1999, 19:129-136.
20. Gupta V.K., Rastogi A. Sorption and desorption studies of chromium (VI) from nonviable cyanobacterium Nostoc muscorum biomass. Journal of Hazardous Materials 2008, 154:347-354.
21. Gupta V.K., Rastogi A. Biosorption of hexavalent chromium by raw and acid-treated green alga Oedogonium hatei from aqueous solutions. Journal of Hazardous Materials 2009, 163:396-402.
22. Gupta V.K., Rastogi A., Nayak A. Adsorption studies on the removal of hexavalent chromium from aqueous solution using a low cost fertilizer industry waste material. Journal of Colloid and Interface Science 2010, 342:135-141.
23. Gupta V.K., Srivastava A.K., Jain N. Biosorption of chromium (VI) from aqueous solutions by green algae Spirogyra species. Water Research 2001, 35:4079-4085.
24. Gupta V.K., Srivastava S.K., Mohan D., Sharma S. Design parameters for fixed bed reactors of activated carbon developed from fertilizer waste material for the removal of some heavy metal ions. Waste Management 1997, 17:517-522.
25. Humphries A.C., Macaskie L.E. Reduction of Cr (VI) by Desulfovibrio vulgaris and Microbacterium sp. Biotechnology Letters 2002, 24:1261-1267.
26. Kader J., Sannasi P., Othman O., Ismail l.B.S., Salmijah 1.S. Removal of Cr(VI) from aqueous solutions by growing and non-growing populations of environmental bacterial consortia. Global Journal of Environmental Research 2007, 1:12-17.
27. Kalra Y.P., Maynard D.G., Radford F.G. Microwave digestion of tree foliage for multi element analysis. Canadian Journal of Research 1989, 19:981-985.
28. Kapoor A., Viraraghavan T., Roy C.D. Removal of heavy metals using the fungus Aspergillus niger. Bioresource Technology 1999, 70:95-104.
29. Katarzyna C. Bioaccumulation of Cr(III) ions by blue-green alga Spirulina sp. part I. A comparison with biosorption. American Journal of Agriculture and Biological Science 2007, 2:218-223.
30. Kratochvil D., Pimentel P., Volesky B. Removal of trivalent and hexavalent chromium by seaweed biosorbent. Environmental Science and Technology 1998, 32:2693-2698.
31. Kumar P., Prasad B., Mishra I.M., Chand S. Decolorization and COD reduction of dyeing wastewater from a cotton textile mill using thermolysis and coagulation. Journal of Hazardous Material 2008, 153:635-645.
32. Lee D.C., Park C.J., Yang J.E., Jeong Y.H., Rhee H.I. Screening of hexavalent chromium biosorbent from marine algae. Applied Microbiology and Biotechnology 2000, 54:445-448.
33. Lovley D.R. Dissimilatory metal reduction. Annual Review of Microbiology 1993, 47:263-290.
34. McLean J., Beveridge T.J. Chromate reduction by a Pseudomonad isolated from a site contaminated with chromate copper arsenate. Applied and Environmental Microbiology 2001, 67:1076-1084.
35. Malik A. Metal bioremediation through growing cells. Environment International 2004, 30:261-278.
36. Matsunaga T., Takeyama H., Nakao T., Yamazawa A. Screening of microalgae for bioremediation of cadmium polluted seawater. Journal of Biotechnology 1999, 70:33-38.
37. Mergeay M. Heavy metal resistances in microbial ecosystems. Molecular microbial ecology manual 1995, 1-17. Kluwer Academic Press, Dordrecht, Netherlands. A.D.L. Akkermans, J.D. van Elsas, F.J. De Bruijn (Eds.).
38. Morales-Barrera L., Cristiani-Urbina E. Hexavalent chromium removal by a Trichoderma inhamatum fungal strain isolated from tannery effluent. Water Air and Soil Pollution 2008, 187:327-336.
39. Nouri S.M., Nasseri S., Mazaheri A.M., Yaghmaian K. Chromium bioremoval from tannery industries effluent by Aspergillus oryzae. Iran Journal of Environmental Health Science and Engineering 2005, 2:273-279.
40. Onyancha D., Ward M., Catherine N.J., Peter O., Joseph C. Studies of chromium removal from tannery waste waters by algae biosorbents, Spirogyra condensate and Rhizoclonium hieroglyphicum. Journal of Hazardous Materials 2008, 158:605-614.
41. Pal N. Reduction of hexavalent chromium to trivalent chromium by Phanerochaete chrysosporium. In situ and on-site bioremediation 1997, Vol. 1:511-517. Batelle Press, Ohio. B.C. Alleman, A. Leeson (Eds.).
42. Pal A., Paul A.K. Aerobic chromate reduction by chromium-resistant bacteria isolated from serpentine soil. Microbiological Research 2004, 159:347-354.
43. Park D., Yun Y.S., Park J.M. Use of dead fungal biomass for the detoxification of hexavalent chromium: screening and kinetics. Process Biochemistry 2005, 40:2559-2565.
44. Perez-Rama M., Herrero L.C., Abalde A.J., Torres E. Class III metallothioneins in response to cadmium toxicity in the marine microalga Tetraselmis suecica (Kylin). Environmental Toxicology and Chemistry 2001, 20:2061-2066.
45. Pillichshammer M., Pumple T., Eller K., Klima J., Schinner F. Biosorption of chromium to fungi. Biometals 1995, 8:117-121.
46. Prigione V., Zerlottin M., Refosco D., Tigini V., Anastasi A., Varese G.C. Chromium removal from a real tanning effluent by autochthonous and allochthonous fungi. Bioresource Technology 2009, 100:2770-2776.
47. Quintelas C., Fernandes B., Castro J., Figueiredo H., Tavares T. Biosorption of Cr(VI) by a Bacillus coagulans biofilm supported on granular activated carbon (GAC). Chemical Engineering Journal 2008, 136:195-203.
48. Ramteke P.W., Awasthi S., Srinath T., Joseph B. Efficiency assessment of common effluent treatment plant (CETP) treating tannery effluents. Environmental Monitoring and Assessment 2010, 169:125-131.
49. Sandau E., Sandau P., Pulz O. Heavy metal sorption by microalgae. Acta Biotechnology 1996, 16:227-235.
50. Srivastava S., Thakur I.S. Isolation and process parameter optimization of Aspergillus sp. for removal of chromium from tannery effluent. Bioresource Technology 2006, 97:1167-1173.
51. Srivastava S.K., Gupta V.K., Mohan D. Parameters for the removal of lead and chromium from wastewater using activated carbon developed from fertilizer waste material. Environmental Modeling and Assessment 1996, 1:281-290.
52. Srivastava S.K., Gupta V.K., Mohan D. Removal of lead and chromium by activated slag - a blast-furnace waste. Journal of Environmental Engineering (ASCE) 1997, 123:461-468.
53. Stasinakis A.S., Thomaidis N.S., Mamais D., Lekkas T.D. Investigation of Cr(VI) reduction in continuous-flow activated sludge systems. Chemosphere 2004, 57:1069-1077.
54. Thacker U., Parikh R., Shouche Y., Datta M. Reduction of chromate by cell-free extract of Brucella sp. isolated from Cr(VI) contaminated sites. Bioresource Technology 2007, 98:1541-1547.
55. Tobin J.M., Roux J.C. Mucor biosorbent for chromium removal from tanning effluent. Water Research 1998, 32:1407-1416.
56. United States Environmental Protection Agency Method 3015A, revision 1: Microwave assisted acid digestion of aqueous samples and extracts 1998, SW-846, EPA, Washington, D.C.
57. Valls M., Atrian S., de Lorenzo V., Fernandez L.A. Engineering a mouse metallothionein on the cell surface of Ralstonia eutropha CH34 for immobilization of heavy metals in soil. Nature Biotechnology 2000, 18:661-665.
58. Viamajala S., Peyton B.M., Sani R.K., Apel W.A., Petersen J.N. Toxic effects of chromium (VI) on anaerobic and aerobic growth of Shewanella oneidensis MR-1. Biotechnology Progress 2004, 20:87-95.
59. Vijayaraghavan K., Yeoung-Sang Y. Bacterial biosorbents and biosorption. Biotechnology Advances 2008, 26:266-291.
60. Volesky B. Detoxification of metal-bearing effluents: biosorption for the next century. Hydrometallurgy 2001, 59:203-216.
61. Volesky B., Holzen Z.R. Biosorption of heavy metals. Biotechnology Progress 1995, 11:235-250.
62. Wang Y. Microbial reduction of chromate. Environmental microbe - metal interactions 2000, 225-235. American Society for Microbiology Press, Washington. D.R. Lovley (Ed.).
63. White T.J., Bruns T., Lee S., Taylor J.W. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. PCR protocols: A guide to methods and applications 1990, 315-322. Academic Press, San Diego. M.A.D.H. lnnis, J.J. Gelfand, J. Sninsky, T.J. White (Eds.).
64. Wilde E.W., Benemann J.R. Bioremoval of heavy metals by the use of microalgae. Biotechnology Advances 1993, 11:781-812.
65. Zetic V.G., Thomas V.S., Grba S., Lutilsky L., Kozlek D. Chromium uptake by Saccharomyces cerevisiae and isolation of glucose tolerance factor from yeast biomass. Journal of Biosciences 2001, 26:217-223.