Environmental Engineering Reference
In-Depth Information
Mukherjee T, Das M (2013) Degradation of Malachite Green by Enterobacter asburiae Strain
XJUHX-4TM. Clean Soil Air Water. doi:
10.1002/clen.201200246
Nozaki K, Beh CH, Mizuno M, Isobe T, Shiroishi M, Kanda T, Amano Y (2008) Screening and
investigation of dye decolorization activities of basidiomycetes. J Biosci Bioeng 105:69
-
72
Ogugbue ChJ, Sawidis T (2011) Bioremediation and detoxication of synthetic wastewater
containing triarylmethane dyes by Aeromonas hydrophila isolated from industrial efuent.
Biotechnol Res Int, Article ID 967925. doi:
10.4061/2011/967925
Oranusi NA, Mbah AN (2005) Utilisation of azo and triphenylmethane dyes as sole source of
carbon, energy and nitrogen by Bacillus sp. Afr J Appl Zoo Environ Biol 7:87
94
Pan T, Ren S, Guo J, Xu M, Sun G (2013) Biosorption and biotransformation of crystal violet by
Aeromonas hydrophila DN322p. Front Environ Sci Eng 7:185
-
190
Pandey RR, Pandey BV, Upadhyay RS (2011) Characterization and identi
cation of Pseudomonas
uorescens NCIM 2100 degraded metabolic products of Crystal Violet. Afr J Biotechnol
10:624
-
631
Papinutti L, Mouso N, Forchiassin F (2006) Removal and degradation of the fungicide dye
malachite green from aqueous solution using the system wheat bran-Fomes sclerodermeus.
Enzyme Microb Tech 39:848
-
853
Parshetti G, Kalme S, Saratale G, Govindwar S (2006) Biodegradation of Malachite Green by
Kocuria rosea MTCC 1532. Acta Chim Slov 53:492
-
498
Parshetti GK, Parshetti SG, Telke AA, Kalyani DC, Dong RA, Govindwar SP (2011)
Biodegradation of Crystal Violet by Agrobacterium radiobacter. J Environ Sci 23:1384
-
1393
Przysta
ś
W, Zab
ł
ocka-Godlewska E, Grabi
ń
ska-Sota E (2013) Biological removal of azo and
triphenylmethane dyes and toxicity of process by-products. Water Air Soil Poll 223:1581
-
1592
Radha KV, Regupathi I, Arunagiri A, Murugesan T (2005) Decolorization studies of synthetic
dyes using Phanerochaete chrysosporium and their kinetics. Process Biochem 40:3337
-
3345
Rauf MA, Ashraf SS (2012) Survey of recent trends in biochemically assisted degradation of dyes.
Chem Eng J 209:520
-
530
Ren S, Guo J, Zeng G, Sun G (2006) Decolorization of tripehnylmethane, azo, and anthraquinone
dyes by a newly isolated Aeromonas hydrophila strain. Appl Microbiol Biotechnol
72:1316
-
1321
-
Rodr
í
guez-Couto SR (2009) Dye removal by immobilised fungi. Biotechnol Adv 27:227
235
-
Š
M (2007)
New magnetically responsive yeast-based biosorbent for the ef
cient removal of water-soluble
dyes. Enzyme Microb Tech 40:1551
-
1556
Š
afa
ří
kov
á
M, Pt
áč
kov
á
L, Kibrikov
á
I,
Š
afa
ří
k I (2005) Biosorption of water-soluble dyes on
magnetically modi
ed Saccharomyces
afa
ří
k I, Rego LFT, Borovsk
á
M, Mosiniewicz-Szablewska E, Weyda F,
Š
afa
ří
kov
á
cerevisiae subsp. uvarum cells. Chemosphere
59:831
-
835
Saparrat MCN, Mocchiutti P, Liggieri CS, Aulicino MB, Caf
ni NO, Balatti PA, Mart
í
nez MJ
(2008) Ligninolytic enzyme ability and potential biotechnology applications of the white-rot
fungus Grammothele subargentea LPSC no. 436 strain. Process Biochem 43:368
375
Saratale GD, Kalme SD, Govindwar SP (2006) Decolorization of textile dyes by Aspergillus
ochraceus (NCIM-1146). Ind J Biotechnol 5:407
-
410
Saratale RG, Saratale GD, Chang JS, Govindwar SP (2011) Bacterial decolorization and
degradation of azo dyes: a review. J Taiwan Inst Chem E 42:138
-
157
Sarayu K, Sandhya S (2012) Current technologies for biological treatment of textile wastewater-a
review. Appl Biochem Biotechnol 167:645
-
661
Sarnthima R, Khammuang S, Svasti J (2009) Extracellular ligninolytic enzymes by Lentinus
polychrous Lev. under solid-state fermentation of potential agro-industrial wastes and their
effectiveness in decolorization of synthetic dyes. Biotechnol Bioprocess Eng 14:513
-
522
Sharma DK, Saini HS, Singh M, Chimni SS, Chadha BS (2004) Isolation and characterization of
microorganisms capable of decolorizing various triphenylmethane dyes. J Basic Microbiol
44:59
-
65
-
Search WWH ::
Custom Search