bibliography 293 abrahart, e.n. (1977) dyes and their intermediates...
TRANSCRIPT
Bibliography 293
Abrahart, E.N. (1977) Dyes and their intermediates, 27 – 29, Chem. Pub, New
York.
Agarval A. (2001) Small scale industries drive India’s economy but pollute water
heavily, Front magazine, 10-11.
Agarwal, T. and R. Singh (2012) Bioremedial potential of a moderately halophilic
soil bacteria. J.Pharm. Biomed.Sci. 19, 1-6.
Ajao, A.T., G.B. Adebayo and S.E. Yakubu (2013) Bioremediatio of textile effluent
using a mixed culture of Pseudomonas aeruginosa and Bacillus subtilis
immobilized on agar agar in a bioreactor.J.Microbiol. Bitech. Res.1, 50-56.
Alexander, M. (1994) Biodegradation and Bioremediation, San Diego CA.
Academic Press.
Ali, H (2010) Biodegradtion of Synthetic Dyes- A Review. Water Air.Soil Pollut.
213, 251-273.
Ali, S., J.L. Shultz, and I. Haq (2007) High performance microbiological
transformation of L-tyrosine into L-dopa by Yarrowia lipolytica NRRL-
143.BMC Biotechnol. DOI: 1186/1472-6750:7-50.
Amoozegar, M.A., M. Hajeghasemi, J.Hamedi, A. Sedigheh and A. Ventosa (2011)
Azo dye deolorization by halophilic and halotolerant microorganisms. Ann.
Microbiol. 61, 217-230.
An, S.Y., S.K. Min, I.H. Cha, Y.L Choi, Y.S.K Cho and Y.S. Lee (2002)
Decolorization of triphenylmwthane and azo dyes by Citrobacter sp.
Biotechnol.Lett. 24, 1037-40.
Andre dos, B.S., J.C. Francisco and B.L. Jules van (2007) Review paper on current
Technologies for decolourisation of textile wastewaters: Perspectives for
anaerobic Biotechnology. Bioresour. Technol. 98, 2369–2385.
Anjaneyulu, Y., N.C. Sreedhara and D.S. Suman Raj (2005) Decolourisation of
industrial effluents – available methods and emerging technologies – a
review. Rev. Environ. Sci. Biotechnol. 4, 245–273.
Bibliography 294
Ankita and B.S Saharan (2013) Studies on Pseudomonas otitidis sp.SA1 as a novel
azo dye (congo red) degrading strain isolated from grit tank of tannery
effluent treatment plant.Int. J. Microbial. Res. Technol. 2, 41-45.
Anliker, R. (1979) Ecotoxicology of dyestuffs - a joint effort by industry.
Ecotoxicol. Environ. Safe. 3, 59-74.
Annuar, M. S. M., S. Adnan, S. Vikineswary and Y. Chisti (2009) Kinetics and
energitics of azo dye decolourisation by Pycnoporus sanguineus. Water, Air
Soil Poll. 202, 179–188.
APHA (2000). Standard methods for examination of waters and wastewater 20th
Edition American Public health Association Washington .American water
works association (AWWA), Water environment Federation (WEF)
Washington DC USA.
Archna, K.N Lokesh, and K. R.R. Silva (2012) Biological methods of dye removal
from textile effluent ts. A Review. J. Biochem. Tech. 3, 177-180.
Arslan, I. and I.A. Barchioglu (1999) degradation of commercial reactive dyestuffs
by heterogenous and homogenous advanced oxidation processes: a
comparative study. Dyes pigments. 43, 95-108.
Arun Prasad, A.S. and K.V. Bhaskara Rao (2010) Physico chemical
characterization of textile effluent and screening for dye decolourizing
bactéria. Global Journal of Biotechnology and Biochemistry. 5, 80-86.
Arya, D. and P. Kohli (2009) Environmental Impact of Textile Wet Processing,
India. Dyes and Chemicals.
Asad, S., M.A. Amoozegar, A.A., Pourbabaee, M.N Sarbolouki, and S.M.M.
Dastgheib (2007). Decolourisation of textile azo dyes by newly isolated
halophilic and halotolerant bacteria. Bioresour. Technol. 98, 2082- 2088.
Asad, S., M.A. Amoozegar, A.A., Pourbabaee, M.N Sarbolouki, and S.M.M.
Dastgheib (2006) Decolourisation of textile Azo dyes by newly isolated
halophilic and halotolerant bacteria. J. Appl. Microbiol. 85, 79-87.
Asad, S., S.M.M Dastgheib, and M.M. Amoozegar (2014) Optimization for
decolorization of azo dye Remazol Black B by a Halomonas starin using the
Taguchi approach. Prog.Biol.Sci. 4, 33-42.
Bibliography 295
Ashiuchi, M., M.M. Zakaria, Y. Sakaguchi, and T. Yagi (1999) Sequence analysis
of a cryptic plasmid from Flavobacterium sp. KP1, a psychrophilic
bacterium. Environ.Toxicol.Chem. 170, 243–249.
Asia, I.O., N.A. Oladoja and E.E. Bamuza-pemu (2006) Treatment of Textile
Sludge using anaerobic technology. Afr. J. Biotechnol. 5, 1678–1683.
Aust, S.D. (1990) Degradation of environmental pollutants by Phanerochaete
chrysosporium. Microbial. Ecol. 20, 197-209.
Austin, B., J.J. Calomiris, J.D.Walker and R.R Colwell (1977) Numerical taxonomy
and ecology of petroleum degrading bacteria. Appl. Environ. Microbiol. 34,
60-68.
Baboo, S.S. and R. M. Devi (2010) Integrations of Remote sensing and GIS to land
use and land cover change detection of Coimbatore district. Int.J. Comp.Sci.
Eng. 5, 3085-3088.
Babu, B.R., A.K. Parande, S. Raghu and T. Prem Kumar (2007) Textile technology.
Cotton Textile Processing: Waste Generation and Effluent Treatment. J.
Cott. Sci. 11, 141-153.
Bae, J.S. and H.S. Freeman (2007) Aquatic toxicity evaluation of new direct dyes to
Daphnia magna. Dyes Pigments.73, 80-85.
Bafana, A., T. Chakrabarti and S.S. Devi (2008) Azoreductase and dye
detoxification activities of Bacillus velezensis strain AB.
Appl.Microbiol.Biotechnol. 77, 1139-1144.
Baker, C.J., R.R. Fulthorpe and K.A. Gilbride (2003) An assessment of variability of
pulp mill wastewater treatment system bacterial communities using
molecular methods. Wate.r Qual. Res. J. Can. 38, 227–242.
Balan, D.S.L.and R.T.R. Monteneiro (2001) Decolourisation of textile indigo dye by
ligninolytic fungi. J Biotechnol. 89,141–145.
Balcioglu, I.A., I. Aslan and M.T. Sacan (2001) Homogeneous and heterogeneous
advanced oxidation of two commercial reactive dyes. Environ.Technol. 22,
813-822.
Banat, I.M., P Nigam, D. Singh, and R. Marchant (1996) Microbial decolourisation
of textile dye-containing effluents: A Review. Bioresour.Technol. 58, 217-
227.
Bibliography 296
Barakat, K.M.I. (2012) Decolorization of two azo dyes using marine Lysobacter
T312D9. Malaysian. J. Microbiol. 9, 93-102.
Bari, Q. and N. Bharadwaj (2014) Degradation potential of Micrococcus luteus,
Staphylococcus aureusand Serratia marsecens against some commonly used
dyes. Int. J. Environ. Biol. 4, 145-149.
Barsing, P., A. Tiwari, T. Joshi and S. Garg (2011) Application of a novel bacterial
consortium for mineralization of sulphonated aromatic amines.
Bioresour.Technol. 102, 765-771.
Basso, A., S. Cantone, P. Linda and C. Ebert (2005) Stability and Activity of
Immobilized Penicillin G Amidase in Ionic Liquids at Controlled aw . Green
Chem.7, 671-676.
Batelle (2009) Basics of in situ bioremediation (ISB). Batelle chlorinated solvent
bioremediation design service. http:// bioprocess.pnl.gov/isb_defn. htm;
assessed July 20, 2009.
Beer, M. Y.H. Kong and R.J. Seviour (2004) Are some putative glycogen
accumulating organisms (GAO) in anerobic: aerobic sludge systems
members of the alpha-proteobacteria? Microbiol. 150, 2267–75.
Ben Mansour, H., I. Houas, F Montassar, K. Ghedira, D. Barillier, R. Mosrati, R.
and L. Chekir- Ghedira (2012) Alteration of in vitro and acute in vivo
toxicity of textile dyeing wastewater after chemical and biological
remediation. Environ. Sci. Poll. R. DOI 10.1007/s11356-012-0802-7.
Bennet, J.W., K.G. Wunch and B. D. Faison (2002) Use of fungi biodegradation.
Manual of Environmental Microbiology. (Edited by Christon J. Hurst) 2nd
Edition. 960-971. ASM Press, Washington, D.C.
Bhabindra. (2003) Comparative effect of industrial effluents and sub metropolitan
sewage of Biratnagar on germination and seedling growth of Rice and Black
gram. J. Biol Sci. 1, 10-14.
Bhadra, B.K., S. Pathak, J. R. Sharma (2013) Impact of Industrial Effluents on
Groundwater around Pali city, Rajasthan using Field and Satellite data. J.
Geolog. Soc. Ind. 88, 675-691.
Bibliography 297
Bhatt, N.S., D.R Vagadiya, and N. Junnarkar (2013) Decolourisation, degradation
and azo-reductase study by bacterial transformation of reactive red HE8b.
Int.J. Res. Biosci. 1, 29-41.
Bhattacharyya, K.G. and A. Sarma (2003) Adsorption characteristics of the dye,
Brilliant Green, on Neem leaf powder. Dyes Pigments. 57, 211-222.
Bhimani, H.D. (2011) Bacterial Degradation of Azo Dyes and Its Derivatives. Ph.D.
Thesis. Saurashtra University.
Bin, Y., Z. Jiti, W. Jing, D. Cuihong, H, Hongman, S. Zhiyong and B. Yongming
(2004) Expression and characteristics of the gene encoding azoreductase from
Rhodobacter sphaeroides AS1.1737. Environ.Toxicol.Chem. 236, 129-136.
Birch, R.R., C. Biver, R. Campagna, W.E., Gledhill, U., Pagga, J. Steber. H. Renst
and W.J. Bontinck (1989) Screening of chemicals for anaerobic
biodegradability. Chemosphere. 19, 1527-1550.
Bjornsson, L., P.Hugenholtz, G.W. Tyson, L.L. Blackall (2002) Filamentous
Chloroflexi (green non-sulfur bacteria) are abundant in wastewater treatment
processes with biological nutrient removal. Microbiol. 148, 2309–2318.
Blackall, L. L., H Stratton, D. Bradford, T. D Dot, C. Sj¨orup, and E.M. Seviour
(1996) Candidatus Microthrix parvicella, a filamentous bacterium from
activated sludge sewage treatment plants. Int. J. Syst. Bacteriol. 46, 344–346.
Blackall, L.L., P.C. Burrell, H. Gwilliam, D. Bradford, P. L Bond and P.
Hhugenholtz (1998) The use of 16S rDNA clone libraries to describe the
microbial diversity of activated sludge communities. Water. Sci. Tech. 37,
451–454.
Blumel, S., H.J Busse, A. Stolz and P. Kampfer (2001) Xenophilus azovorans gen.
nov., sp. nov., a soil bacterium able to degrade azo dyes of the Orange II
type. Int. J. Syst. Evol. Bacteriol. 51, 1831–1837.
Blumel, S., H.J. Knackmuss and A. Stolz (2002) Molecular cloning and
characterization of the gene coding for the aerobic azoreductase form
Xenophilus azovorans KF46F. Appl. Environ. Microbiol. 68, 3948–3955.
Boon, N., W. DeWindt, W. Verstraete, and E. M. Top (2002) Evaluation of nested
PCR-DGGE (denaturing gradient gel electrophoresis) with group-specific
Bibliography 298
16S rDNA primers for the analysis of bacterial communities from different
WWTPs. FEMS Microbiol.Ecol. 39, 101–112.
Börnick, H. and T.C. Schmidt (2006) Organic pollutants in the water cycle.
Properties, occurrence, analysis and environmental relevance of polar
compounds. Amines. 181-208, Wiley-VCH Verlag GmbH & Co. Weinheim,
Germany.
Bottari, B., D.Ercolini, M. Gatti, and E. Neviani (2006) Application of FISH
technology for microbiological analysis: Current State and Prospects. Appl.
Microbiol. Biotechnol. 73, 485–494.
Bras, R., I.A. Ferra, H.M. Pinheiro and I.C. Goncalves (2001) Batch tests for
assessing decolourisation of azo dyes by methanogenic and mixed cultures.
J. Biothechnol. 89, 155–62.
Brissos, V., L.Pereira, F.D. Munteanu, A. Cavaco-Paulo and L.O. Martins (2009)
Expression system of CotA-Iaccase for directed evolution and high-
throughput screenings for the oxidation of high redox potential dyes. J.
Biotechnol. 4, 1-6.
Brown Mark, A. and Stephen, C. DeVito (1993) Predicting Azo Dye Toxicity. Crit.
Rev. Environ. Sci. Technol. 23, 249-324.
Brummer, I., Fehr, W. and I. Wagner-Dobler (2000). Biofilm community structure
in polluted rivers: abundance of dominant phylogenetic groups over a
complete annual cycle, Appl.Environ. Microbiol. 66, 3078.
Call, H.P. and I. Mucke (1997) History, overview and applications of mediated
lignolytic systems, especially laccase-mediator-systems. J. Biotechnol. 53,
163-202.
Cappucino, J.G. and N. Shermann (2001) Microbiology: A Laboratory Manual. 6th
Edition.Pearson Education.Benjamin Cummings, San Francisco.
Carliell, C.M., S.J. Barday and N. Nadidoo (1995) Microbial decolourisation of a
reactive azo dye under anaerobic conditions. Water. SA. 21, 61-69.
Carneiro, P.A., R.F.P. Nogueira and M.V.B. Zanoni (2007) Homogeneous
photodegradation of C.I Reactive Blue 4 using a photo-Fenton process under
artificial and solar irradiation. Dyes Pigments .74, 127-132.
Bibliography 299
Carvalho, M.C., C. Pereira, I.C. Gonçalves, H.M. Pinheiro, A.R. Santos, A. Lopes,
and M.I. Ferra (2008) Assessment of the biodegradability of a
monosulfonated azo dye and aromatic amines. Int. Biodeterior. Biodegrad. 62,
96-103.
Casserly, C. and L. Erijman (2003) Molecular monitoring of microbial diversity in
an UASB reactor. Int. Biodeterior Biodegrad. 52, 7–12.
Cédric, F.V. Hobel. (2004) Access to Biodiversity and New Genes from
Thermophiles by Special Enrichment Methods. PhD Thesis. Department of
Biology .Faculty of Sciences University of Iceland Reykjavik.
Chander, M. and D. S. Arora (2007). Evaluation of some whiterot fungi for their
potential to decolourize industrial dyes. Dyes Pigments. 72, 192–198.
Chandra, R., R. N Bharagava, S. Yadav, and D. Mohan (2009) Accumulation and
distribution of toxic metals in wheat (Triticum aestivum L.) and Indian
mustard (Brassica Camestris L.) irrigated with distillery and tannery
effluents, J. Hazard.Mater. 162, 1514-1521.
Chang, J.S. and T.S. Kuo (2000) Kinetics of bacterial decolourisation of azo dye
with Escherichia coli N03. Bioresour Technol. 75,107-11.
Chang, J.S., B.Y. Chen and Y.S. Lin (2004) Stimulation of bacterial decolourisation
of an azo dye by extracellular metabolites from Escherichia coli strain NO3.
Bioresour.Technol. 91, 243-248.
Chang, J.S., C.Chou, Y.C Lin, P.J Lin, J.Y. Ho and T.L. Hu (2001) Kinetic
characteristics of bacterial azo dye decolourisation by Pseudomonas luteola.
Water. Res. 35, 2841–50.
Chang, J.S., T.S Kuo, Y.P Chao, J.Y. Ho and P.J Lin (2000) Azo dye
decolourisation with a mutant Escherichia coli strain. Biotechnol. Lett. 22,
807-812.
Charumathi, D. and D. Nilanjana (2010) Removal of synthetic dye basic violet by
immobilized Candida tropicalis grown on sugarcane bagasse extract
medium. Int. J. Eng. Sci. Tech. 9, 4325-4335.
Chatterjee, S., P.Chattopadhyay, S. Roy, and S.K. Sen (2008) Bioremediation: a tool
for cleaning polluted environments. J. Appl. Biosci. 11, 594- 601.
Chatwal, G.S. (2004) Synthetic dyes. Himalaya Publishers. New Delhi.
Bibliography 300
Chaudhry, G.R. and S.Chapalamadugu (1991) Biodegradation of halogenated
organic compounds. Microbiol. Rev. 55, 59-79.
Chauhan, A., R. Faziur, J.G. Oakeshott and R.K. Jain (2008) Bacterial metabolism
of polycyclic aromatic hydrocarbons: strategies for bioremediation. J. Ind.
Microbiol. 48, 95-113.
Chellaram, C. and J.K.P. Edward (2009) Improved recoverability of bacterial strains
from soft coral, Lobophytum sp. for antagonistic activity. J Pur. Appl.
Microbiol. 2, 649-654.
Chellasamy, P. and K. Karuppiah (2005) An Analysis of Growth and Development
of Textile Industry in India. Available http://www.fibre2
fashion.com/industry-article/1/11/ananalysis-of-growth-and-development-of-
textile-industry-in-india7.asp>.
Chen, B. Y. (2002) Understanding decolourisation characteristics of reactive azo
dyes by Pseudomonas luteola: toxicity and kinetics. Proc. Biochem. 38, 437-
446.
Chen, K., J. Wu, D. Liou and S. J. Hwang (2003) Decolourisation of the textile dyes
by newly isolated bacterial strains. J.Biotechnol. 101, 57-68.
Chen, H. R.F. Wang and C.E. Cerniglia (2004) Molecular cloning, overexpression,
purification, and characterization of an aerobic FMN-dependent azoreductase
from Enterococcus faecalis. Prot. Exp. Pur. 34, 302-310.
Chen, H., S.L. Hopper and C.E. Cerniglia (2005) Biochemical and molecular
characterization of an azoreductase from Staphylococcus aureus, a tetrameric
NAD(P)H dependent flavoprotein. Microbiology. 151, 1433- 1441.
Chen, H. (2006) Recent advances in azo dye degrading enzyme research. Curr. Prot.
Peptide. Sci.7, 101-111.
Chen, B.Y. and J.S. Chang (2007) Assessment upon species evolution of mixed
consortia for azo dye decolourisation. J. Chin. Inst.Chem. Eng. 38, 259-266.
Chen, H., J. Feng, O.Kweon, H.Xu and C.E. Cerniglia (2010) Identification and
molecular characterization of a novel flavin-free NAD(P)H preferred
azoreductase encoded by azoB in Pigmentiphaga kullae K24. BMC.
Biochem. 11, 13.
Bibliography 301
Chi, B.K., D.Albrecht, K. Gronau, D. Becher, M. Hecker and H. Antelmann (2010)
The redox-sensing regulator YodB senses quinones and diamide via a thiol-
disulfide switch in Bacillus subtilis. Proteomics. 10, 3155-3164.
Chinda, A.C., A.S. Braide and O.C. Sibeudu (2004) Distribution of hydrocarbons
and heav metals in sediments and a crustacean (shrimps-Penaeus
notialis) from the bonny/new calabar estuary Nigeria delta. Ajeam-Ragee.
9, 1-14.
Choi, J. H., S. H. Lee, K. Fukushi and K. Yamamoto (2007) Comparison of sludge
characteristics and PCR-DGGE based microbial diversity of nanofiltration
and microfiltration membrane bioreactors. Chemosphere. 67, 1543–1550.
Chowdhury, A., S. Pradhan, M. Saha and N. Sanyal (2008) Impact of pesticides on
soil microbiological parameters and possible bioremediation strategies. J.
Ind. Microbiol. 48, 114-127.
Christie R (2001) Colour Chemistry. Cambridge, United Kingdom. The Royal
Society of Chemistry.
Colour Index (1986) The Dyeing of Cellulosic Fibres .Society of Dyers and
Colourists and AATCC. (Edited by Clifford Preston).
Cooper, P. (1995) Colour in dyehouse effluent, Society of Dyers and Colourists,
West Yorkshire BDI 2JB, England.
Couto, S.R. (2009) Dye removal by immobilised fungi. Biotechnol. Adv. 27, 227-
235.
Cripps, J.A., S.D. Bumpus and Aust (1990) Biodegradation of azo and heterocyclic
dyes by Phanerochaete chrysosporium. Appl. Environ. Microbiol. 56, 1114-
1118.
Crites, R. and G. Tchobanoglous (1998) Small and Decentralized Wastewater
Management Systems. International Edition. McGraw-Hill, Boston.
Crocetti, G.R., P. Hugenholtz, P.L Bond, A. Schuler, J. Keller and Jenkins, D.
(2000) Identification of polyphosphate-accumulating organisms and design
of 16S rDNA-directed probes for their detection and quantitation. Appl.
Environ. Microbiol. 66, 1175–82.
Bibliography 302
Daims, W. Michael and H.Matthias (2003) Fluorescence in situ hybridisation for the
identification and characterisation of prokaryotes Review Article
Curr.Opin.Microbiol. 6, 302-309.
Dawkar, V.V., U.U Jadhav, G.S. Ghodake and S.P. Govindwar (2009) Effect of
inducers on the decolorisation and biodegradation of textike azo dye Navy
Blue 29 L by Bacillus sp VUS. Biodegradation. 20, 777-787.
de Figueiredo, D.R. Pereira, M.J. Moura, A. Silva, L. Ba rrios, S. Fonseca, F.
Henriques and A. Correia (2007) Bacterial community composition over a
dry winter in meso- and eutrophic Portuguese water bodies. FEMS Microbiol
Ecol. 59:638–650.
Debnath, M., V. Chejara, B.K. Vijaya, D.S. Bika, S. Kumar, A. Dixit, R. Jain and
V. Jain (2014) Evaluation of quality and impact of untreated wastewater for
irrigation. Ame.J. Res.Comm. 2, 200-231.
Deller, S., S. Sollner, R. Trenker-El-Toukhy, I. Jelesarov, G.M. Gubitz and P.
Macheroux (2006) Characterization of a thermostable NAD(P)H: FMN
oxidoreductase from the mesophilic bacterium Bacillus subtilis. Biochemistry.
45, 7083-7091.
Derle, S.G., N.P. Patil and V.B. Gaikwad (2012) Eco-friendly biodegradation of
reactive yellow 145 by newly isolated Bacillus boroniphilus from industrial
effluent J. Environ. Res. Develop. 7, 303-311.
Desai, P.A. and V.S. Kore (2011) Performance Evaluation of Effluent treatment
Plant for textile industry in Kolhapur of Maharashtra. Univ.J.
Environ.Res.Tech. 1, 560-565.
Devassy, B. (2010) Microbial Decolorisation of Textile Dye Effluent. Ph.D. Thesis.
Thapar University, Patiala.
Dhanve, R., J.Jadhav and S. Govindwar (2014) A study of textile effluent
ecotoxicity and its biodegradtion by an Exiguobacterium sp. RD3.Int.J. Curr.
Biotechnol.2, 45-50.
Dhanve, R.S., U.U. Shedbalkar and J.P. Jadhav (2008) Biodegradation of reactive
diazo dye Navy Blue HE2 R (Reactive Blue) by an isolated Exiguobacterium
sp. RD3. Biotecchnol. Bioproc. Eng. 13, 53-60.
Bibliography 303
Dhariwal, A. and T. Ahmed (2009) Performance Evaluation and Treatability Study
on Common Effluent Treatment Plant, Mandia Road, Pali. J.
Environ.Protect. 28, 921-928.
Diez, M.C. (2010) Biological Aspects involved in the degradation of organic
pollutants. J. Soil. Sci Plant Nutr. 10, 244-267.
Do, T., J. Shen, G. Cawood, and R. Jeckins (2002) Biotreatment of textile effluent
using Pseudomonas spp. Immobilized on polymer supports. Advances in
biotreatment for textile processing. (Edited byHardin, I.R, Akin D.E and
Wilson J.S). University of Georgia Press.
Dos Santos, A.B. (2005) Reductive Decolourisation of Dyes by Thermophilic
Anaerobic Granular Sludge. PhD-Thesis. Wageningen University,The
Netherlands.
Dos Santos, A.B., F.J. Cervantes, and J.B. Van Lier (2004) Azo dye reduction by
thermophilic anaerobic granular sludge, and the impact of the redox mediator
AQDS on the reductive biochemical transformation. Appl.Microbiol.
Biotechnol. 64, 62-69.
Dos Santos, A.B., F.J.Cervantes, J.B. Van Lier (2007) Review paper on current
technologies for decolourisation of textile wastewaters: Perspectives for
anaerobic biotechnology. Bioresour.Technol. 98, 2369-2385.
Drancourt, M., C. Bollet, A. Carlioz, R. Martelin, J.P. Gayral and D. Raoult (2000)
16S Ribosomal DNA Sequence Analysis of a Large Collection of
Environmental and Clinical Unidentifiable Bacterial Isolates. J.Clin. Microbiol.
38, 3623-3630.
Dubey, A., M. Mishra, N.Singh, A. Deb and S. Verma (2010) Isolation of Dye
degradaing Microorganism. Elec. J. Environ. Agr. Food. Chem. 9, 1534-
1539.
Duran, N. and E. Esposito (2000) Potential applications of oxidative enzymes and
phenoloxidase-like compounds in wastewater and soil treatment: a review.
Appl Catal B: Environ. 28, 83- 99.
Dutta, S. and S. Singh (2014) Assessment of Ground Water and Surface Water
quality around industrial area affected by textile dyeing and printing
effluents.Pali,Rajasthan,India.J.Env.Res.Develop. 8, 574-581.
Bibliography 304
Egli, K., F. Bosshard, C. Werlen, P. Lais, H. Siegrist, and A.J. Zehnder (2003)
Microbial composition and structure of a rotating biological contactor
biofilm treating ammonium-rich wastewater without organic carbon.
Microbial. Ecol. 45, 419–32.
Elisangela, F., Z. Andrea, D.G. Fabio, R.M. Cristiano, D.L. Regina and C.P. Artur
(2009) Biodegradation of textile azo dyes by a facultative Staphylococcus
arlettae strain 11 using a sequential microaerophilic/aerobic process. Int.
Biodeter. Biodegr. 63, 280-288.
Ellis, R. J., P. Morgan, A. J .Weightmann and J. C. Fry (2003) Cultivation
dependent and independent approaches for determining bacterial diversity in
heavy-metal-contaminated soil. Appl. Environ. Microbiol. 69, 3223–3230.
Emongor, V., E. Kealotswe, I. Kooprapetse, S.Sankwasa and S. Keikanestswe (2005)
Pollution indicators in Gaberone effluent. J. Appl. Sci. 5, 147-150.
EPA. (1997) Profile of the textile industry. Environmental Protection Agency,
Washington, USA.
Eschenhagen, M., M. Schuppler, and I. Roske (2003) Molecular characterization of
the microbial community structure in two activated sludge systems for the
advanced treatment of domestic effluents. Water Res. 37, 3224–3232.
Eswaramoorthi, S., K. Dhanapal, and D. Chauhan (2008) Advanced in Textile
Waste Water Treatment: The Case for UV-Ozonation and Membrane
Bioreactor for Common Effluent Treatment Plants in Tirupur, Tamil Nadu,
India. Environment with People’s Involvement & Co-ordination in India.
Coimbatore, India.
Fang, H., H. Wenrong and L. Yuezhong (2004) Biodegradation mechanisms and
kinetics of azo dye 4BS by a microbial consortium. Chemosphere. 57, 293-
301.
Feng, J., O.Kweon, H. Xu, C.E. Cerniglia and H. Chen (2012) Probing the NADH-
and Methyl Red-binding site of a FMN-dependent azoreductase (AzoA)
from Enterococcus faecalis. Arch.Biochem.Biophys. 520, 99-107.
Field, D. and Kyrpides, N. (2007) The positive role of the ecological community in
the genomic revolution. Microbial. Ecol. 53, 507-11.
Bibliography 305
Flemming, H. C. and Wingender, H. (2010). The biofilm matrix. Nat. Rev.
Microbiol. 8, 623-633.
Forgacs, E., T. Cserhati, and G. Oros (2004) Removal of synthetic dyes from
wastewaters: a review. Environ. Inter. 30, 953-971.
Forster, S., Lappin-Scott, H., Snape, J. and Porter, J. (2003) Rains, drains and active
strains: towards online assessment of wastewater bacterial communities. J
Microbiol. Meth. 55, 859–864.
Franciscon, E., Grossmann, M.J., Paschoal, J.A.R., Reyes, E.G.R. and Durant, L.R.
(2012) Decolorisation and biodegradation of reactive sulphonated azo dyes
by newly isolated Brevibacterium sp. strain VN-15. Springer plus. 1, 1-10.
Fritsche, W. and Hofritcher, M. (2008) Aerobic degradation by micro-organisms.
Biotechnology Set, 2nd edition. Wiley- VCH Verlag.GmbH, Weinham,
Germany. DOI: 10.1002/9783527620999.ch6m.
Fu, Y., and Viraraghavan, T. (2001). Fungal decolourisation of dye wastewaters: A
review. Bioresour.Technol. 79, 251– 262.
Gabriel, J. (2010) Development of soil microbiology methods: from respirometry to
molecular approaches. J. Ind. Microbiol. Biotechnol. 37,1289-1297.
Garg, V.K. and Kaushik, P. (2008) Influence of textile mill wastewater irrigation on
growth of sorghum cultivars.Appl. Environ.Res. 6, 1-12.
Georgiou, D. A. Aivazidis, J. Hatiras, and K. Gimouhopoulos (2003) Treatment of
cotton textile wastewater using lime and ferrous sulfate. Water Res. 37,
2248- 2250.
Georgiou, D. C. Metallinou, A. Aivasidis, Voudrias, E., Gimouhopoulos, K. (2004)
Decolourisation of azo-reactive dyes and cotton-textile wastewater using
anaerobic digestion and acetate-consuming bacteria. Biochem. Eng. J. 19, 5-
79.
Ghosh, D.K., A. Mandal and J. Chaudhuri (1992) Purification and partial
characterization of two azoreductases from Shigella dysenteriae Type I.
FEMS Microbiol. Lett. 98, 229–234.
Gienfrada, L. and M.A. Rao (2008) Interactions between xenobiotics and microbial
and enzymatic soil activity. Crit. Rev. Environ. Sci. Technol. 38, 269-310.
Bibliography 306
Gilbride, K. A., Lee, Y. and Beaudette, L. A. (2006) Molecular techniques in
wastewater: understanding microbial communities, detecting pathogens, and
real-time process control. J. Microbiol. Meth. 66, 1–20.
Glazer, A.N. and Nikaido, H. (2007) Microbial biotechnology: Fundamentals of
Applied Microbiology. 2nd Edition. Cambridge University Press, Cambridge.
510-528.
Gomaa, O. M. and O.A. Momtaz (2007) 16S rDNA characterization of a Bacillus
isolates and it’s tolerance profile after subsequent subculturing. Arab J.
Biotech. 10, 107-116.
Gonçalves, I .M. C., A. Gomes, R. Brás, M. I. A. Ferra, M. T. P. Amorim, and R. S.
Porter (2000) Biological treatment of effluent containing textile dyes. JSDC.
116: 393-397.
Gopinath, K. P., H. A. M. Sahib, K. Muthukumar, and M. Velan (2009) Improved
biodegradation of Congo red by Bacillus sp. Bioresour.Technol. 100, 670–
675.
Green, D. and M. Keller (2006) Capturing the uncultivated majority. Curr.Opin.
Biotechnol. 17, 236–240.
Grigorious, D., E. Aline, P. Patrick and B. Rene (2000) Purification and
characterisation of the first bacterial laccase in the Rhizospheric bacterium
Azospirillwn /ipofemm. Soil. Bioi. Biochem. 32, 919- 927.
Guo, M., Y. Qua, J. Zhoua, F.Mab and L. Tana (2009) Azo dye decolourisation by a
new fungal isolate, Penicillium Sp. QQ and fungal bacterial co-cultures. J.
Hazard.Mater.170, 314-319.
Gurulakshmi, M., D.N.P. Sundarmani and R. Venba (2008) Biodegradation of
leather acid dye by Bacillus subtilis. Adv. Bio.1, 12-18.
Hafshejani, M.K., C.J. Ogubue and N. Morad (2013) Application of response
surface methodology for optimization of decolorisation and mineralization of
triazo dye Direct Blue 71 by Pseudomonas aeruginosa. 3 Biotech. DOI
10.1007/s13205-013-0192-7.
Han, R., Xu. Y. Ding, W.Zou, Y. Wang, Y. Li, and L. Zou (2009) Use of rice husk
for the adsorption of congo red from aqueous solution in column mode.
Bioresour.Technol. 99, 2938–2946.
Bibliography 307
Handelsman, J. (2004) Metagenomics: Application of genomics to uncultured
microorganisms. Microbiol. Mol. Biol. Rev. 68, 669–685.
Hao, O.J., H. Kim, and P.C. Chang (2000) Decolourisation of wastewater. Crit. Rev.
Environ. Sci. Tech. 30, 449-505.
Hassan, M.M., M.Z Alam, and M.N. Anwar (2013) Biodegradation of textile azo
dyes by bacteria iosolated from dyeing industry effluent. Int. Res. J.Biol.Sci.
2, 27-31.
Heiss, G.S., B. Gowan and E.R. Dabbs (1992) Cloning of DNA from a Rhodococcus
strain conferring the ability to decolourize sulfonated azo dyes. FEMS
Microbiol. Lett. 99, 221–226.
Hemapriya, J., R.Kannan, and S.Vijayanand (2010). Bacterial decolourisation of
textile azo dye Direct Red-28 under aerobic conditions. J.Pure.
Appl.Microbiol. 4, 309-314.
Hoefel, D., P.T. Monis, W.L. Grooby, W.L. Andrews and C.P. Saint (2005)
Culture-independent techniques for rapid detection of bacteria
associatedwith loss of chloramine residual in a drinking water system. Appl.
Environ. Microbiol. 71, 6479–6488.
Hofrichter, M. (2002) Review: lignin conversion by manganese peroxidase (Mnp).
Enz. Microbial. Tech. 30, 454-466.
Horan, N. J., A. M. Bu’Ali, and C. R. Eccles (1988) Isolation, identification and
characterisation of filamentous and floc-forming bacteria from activated
sludge flocs. Environ.Technol. Letters. 9, 449–457.
Hu, T. L. (1994) Decolourisation of reactive azo dyes by transformation with
Pseudomonas luteola. Bioresour. Tech. 49, 47-51.
Hu, T.L. (1998) Degradation of azo dye RP2B by Pseudomonas luteola. Water. Sci.
Technol. 38, 299–306.
Hugenholtz, P. (2002) Exploring prokaryotic diversity in the genomic era. Gen. Biol.
3, 1-8.
Ibekwe, C. and S. Grieve (2003) Lyon characterization of microbial communities
and composition in constructed dairy wetland wastewater effluent. Appl.
Environ. Microbiol. 69, 5060–5069.
Bibliography 308
Imtiazuddin, S.M., M. Mumtaz, and K.A. Mallick (2012) Pollutants of Wastewater
characteristics in Textile Industries.J.Basic. Appl. Sci. 8, 554-556.
Isik, M. and D.T. Sponza (2007) Fate and toxicity of azo dye metabolites under
batch long-term anaerobic incubations. Enz. Microbial. Tech. 40, 934-939.
Ito, K., M. Nakanishi, W. C Lee, Y. Zhi, H. Sasaki, S. Zenno, K. Saigo, Y. Kitade
and M. Tanokura (2008) Expansion of substrate specificity and catalytic
mechanism of azoreductase by X-ray crystallography and sitedirected
mutagenesis. J. Biol. Chem. 283, 13889-13896.
Ito, T., S.Okabe, H. Satoh, and Y. Watanabe (2002) Successional development of
sulfate-reducing bacterial populations and their activities in a wastewater
biofilm growing under microaerophilic conditions. Appl. Environ. Microbiol.
68, 1392–402.
Jadhav, J.P., G.K. Parshetti, S.D Kalme and S.P. Govindwar (2007) Decolourisation
of azo dye methyl red by Saccharomyces cerevisiae MTCC 463.
Chemosphere. 68, 394-400.
Jain, R.K., M.Kapur, S. Labana, B. Lal, P.M. Sarma, D. Bhattacharya and I.S.
Thakur (2005) Microbial diversity: Application of microorganisms for the
biodegradation of xenobiotics. Curr. Sci. 89, 101-112.
Jamaluddin, A.M. and M. Nizamuddin (2012) Physico-chemical Assessment of
Textile Effluents in Chittagong Region of Bangladesh and their possible
effects on Environment. Int. J. Res. Chem.Environ. 2, 220-230.
Jayarajan, M., R. Arunachalam and G. Annadurai (2011) Agricultural wastes of
jackfruit peel nano-porous adsorbent for removal of rhodamine dye. Asian J.
Appl. Sci. 4, 263-270.
Jin, D., P. Wang, Z. Bai, X. Wang, H. Peng, R.Qi, Z. Yu and G. Zhuang (2011)
Analysis of bacterial community in bulking sludge using culture-dependent
and independent approaches. J. Environ. Sci. 23, 1880-1887.
Jin, X., G. Liu, Z. Xu, W. Yao (2007) Decolourisation of a dye industry effiuent by
Aspergillusfumigatus XC6. Appl. Microbiol. Biotechnol. 74, 239-243.
Jirasripongpun, K., R. Nasanit, J. Niruntasook and B. Chotikasatian (2007)
Decolourisation and degradation of C. I. Reactive Red 195 by Enterobacter
sp. Thammasat. Int.J. Sci. Technol. 12, 6–11.
Bibliography 309
Johnson, R.F, A. Zenhausen, H. Zollinger (1978) Azo dyes. Krik-Othmer
Encyclopedia of Chemical Technology (Edited by Mark, H.F., J.J.Mc ketta,
Othmer D.F. and A. Standen) 868–910) John Wiley, New York,
Joshi, N. and D.D. Santani (2012) Physicochemical characterization and heavy
metal concentration in effluent of textile industry. Univ.J. Environ.
Res.Tech.2, 93-96.
Junnarkar, N., D.S. Murty, N.S. Bhatt and S.P. Madamwar (2006) Decolourisation
of diazo dye direct red 81 by a novel bacterial consortium. World .J
Microbiol. Biotechnol. 22, 163-168.
Kadam, A.A., A.A. Telke, S.S. Jagtap and S.P. Govindwar (2011) Decolourisation of
adsorbed textile dyes by developed consortium of Pseudomonas sp. SUK1
and Aspergillus ochraceus NCIM-1146 under solid state fermentation. J.
Hazard.Mater. 189, 486-494.
Kaksonen, J., P. Plumb and J. Franzmann (2003) Simple organic electron donors
support diverse sulfate-reducing communities in fluidised-bed reactors
treating acidic metal- and sulfate-containing wastewater. FEMS Microbiol
Ecol. 1610, 1–11.
Kala, M. and T.I. Khan (2009) Heavy metal contamination in Pisum sativum var.
Azad P-1 grown in Sanganer area, Rajasthan (India). J. Environ. Sci. Eng.
51, 163-168.
Kalia, V.C., A. Chauhan, G.Bhattacharyya and X.X. Rashmi (2003a). Genomic
databases yield novel bioplastic producers. Natl. Biotechnol. 21, 845–846.
Kalia, V.C., S. Lal, R. Ghai, M. Mandal and A. Chauhan (2003b) Mining genomic
databases to identify novel hydrogen producers. Trends. Biotechnol. 21,
152–156.
Kalyani, D.C., P.S Patil, J.P. Jadhav and S.P. Govindwar (2008) Biodegradation of
reactive textile dye red BLI by an isolated bacterium Pseudomonas sp.
SUK1. Bioresour.Technol. 99, 4635-4641.
Kalyani, D.C., A.A Telke, R.S. Dhanve and J.P. Jadhav (2009) Ecofriendly
biodegradation and detoxification of Reactive Red 2 textile dye by newly
isolated Pseudomonas sp. SUK1. J. Hazard. Mater. 163, 735–742.
Bibliography 310
Kanagraj, J., T. Senthilvelan and A.B. Mandal (2011) Biological method for
decolorisation of an azo dye: Clean technology to reduce pollution load in
dye waste water.Clean. Tech. Environ. Policy. DOI 10. 1007/s10098-011-
0416-7.
Kandelbauer, A. and G. M. Guebitz (2005). Bioremediation for the decolourisation
of textile dyes - a review. In Lichtfouse, E., Schwarzbauer, J. & Robert, D.
(Eds.), Environmental Chemistry – Green Chemistry and Pollutants in
Ecosystem. Berlin: Springer Berlin Heidelberg.
Kandelbauer, A., O. Maute, R.W. Kessler, A. Erlacher and G.M. Gubitz (2004)
Study of dye decolourisation in an immobilized laccase enzyme-reactor
using online spectroscopy. Biotechnol. Bioeng. 87, 552-563.
Kannan, A. and R.K. Upreti (2008) Influence of distillery effluent on germination
and growth of mung bean (Vigna radiata) seeds. J. Hazard.Mater. 153, 609-
615.
Kannan, S., K. Dhandayuthapani and S. Mazher (2013) Decolorization and
degradation of Azodye- Remazol Black Bby newly isolated Pseudomonas
putida. Int. J. Curr.Microbiol. App. Sci.2, 108-116.
Kanu, I. and O.K. Achi (2011) Industrial effluents and their impact on water quality
of receiving rivers in Nigeria. J.App.Tech.Environ.San.1, 75-86.
Kapley, A., D. B. Thierry and J. P. Hemant (2007) Eubacterial diversity of active
biomass from a common effluent treatment plant. Res. Microbiol. 158, 494–
500.
Kartikeyan, A. and N. Anbusaravanan (2013) Isolation, Identification and
Characterization of Dye Adapted Bacteria from Textile Effluents Mixed with
Sewage Released into River Amravathy, Karur, Tamil Nadu, India.
J.Environ. Toxicol.Food. Tech.7, 51-57.
Karunya, A., C. Rose and N.C. Vailli (2013) Studies on degradation of textile azo
dye- Mordant Black 17 using using Pseudomonas aeruginosa SUB-7,
isolated from textile effluent. Int. J. Appl. Bioeng.7, 9-14.
Kaur, A., S. Vats, S. Rekhi, A. Bhardwaj, J.Goel, R.S. Tanwar and K.K. Gaur
(2010) Physico-chemical analysis of the industrial effluents and their impact
on the soil microflora. Proc. Environ.Sci. 2, 595-599.
Bibliography 311
Kaushik, P. and A. Malik (2009) Fungal dye decolourisation: recent advances and
future potential. Environ. Int. 35, 127-141.
Keck, A., J. Rau, T. Reemtsma, R. Mattes, A. Stolz and J. Klein (2002)
Identification of quinoide redox mediators that are formed during the
degradation of naphthalene- 2-sulfonate by Sphingomonas xenophaga BN6.
Appl. Environ. Microbiol .68, 4341-4349.
Khadijah, O., K.K. Lee and M.F.F. Abdullah (2009) Isolation, screening and
development of local bacterial consortia with azo dyes decolorizing
capability. Malaysian.J. Micobiol. 5, 25-32.
Khalid, A., M. Arshad and D.E. Crowley (2008) Accelerated decolorization of
structurally different azo dyes by newly isolated bacterial strains.Appl.
Microbiol. Biotechnol.78, 361-369.
Khan, R., P. Bhawana, and M. H. Fulekar (2012). Microbial decolourisation and
degradation of synthetic dyes: a review. Rev. Environ. Sci. Bio/Technol. 12,
75-97.
Khan, T.I., R. Marwari and M. Kala (2009). Heavy Metal Analysis in Lycorsicon
esculentum grown in Sanganer area. The Ecoscan. 2, 69-71.
Khandelwal, M.K. and M.L. Chauhan (2005) Dyeing, Printing and Textile, Ritu
Publications. Jaipur.
Khehra, M.S., H.S. Saini, D.K. Sharma, B.S. Chadha and S.S. Chimni (2005)
Comparative studies on potential of consortium and constituent pure
bacterial isolates to decolourize azo dyes. Water Res. 39, 5135–5141.
Khelifi, E., L.Ayed, H. Bouallagui, Y. Touhami, M. Hamdi (2009a) Effect of
nitrogen and carbon sources on Indigo and Congo red decolourisation by
Aspergillus alliaceus strain 121C. J Hazard Mater. 163, 1056-1062.
Khelifi, E., H. Bouallagui, Y. Touhami, J.Godon, M. Hamdi (2009b) Enhancement
of textile wastewater decolourisation and biodegradation by isolated bacterial
and fungal strains. Desal. Water. Treat. 2, 310-316.
Kilic, N.K., J.P Nielson, M.Yuce and G. Donmez (2007) Characterization of a
simple bacte rial consortium for ef fective treatment of waste water with
reactive dyes and Cr (VI). Chemosphere. 67, 826-83.
Bibliography 312
Kim, H.Y., G.N. Bennett and H. G. Song (2002) Degradation of 2, 4, 6-
trinitrotoluene by Klebsiella sp. isolated from activated sludge. Biotechnol. Lett.
24, 2023–2028.
Kiriakidou, F., D. Kondarides and X. Verykios (1999) The Effect of Operational
Parameters and TiO2 – Doping on the Photocatalytic Degradation of Azo-
Dyes. Catalys. Today. 54, 119-130.
Kodam, K.M., I. Soojhawon, P.D. Lohande and K.R. Gawai (2005) Microbial
decolourisation of reactive azo dyes under aerobic conditions. World. J.
Microbiol. Biotechnol. 2, 367–370.
Kolekar, Y.M., P.D. Konde, V.L. Markad, S.V.Mali, A.U. Chaudhari and K.M.
Kodam (2013) Effective bioremoval and detoxification of textile dye mixture
by Alishewanella sp. KMK6. Appl.Microbiol.Biotechnol. 97, 881-889.
Kong, Y.H., M. Beer, R.Seviour, K.C. Lindrea and G.N. Rees (2001) Structure and
functional analysis of the microbial community in an aerobic: anaerobic
sequencing batch reactor (SBR) with no phosphorus removal. Syst Appl.
Microbiol. 24, 597–609.
Kowsalya, R., C.M. Karrunakaran, M. Deccaraman, A. Uma, S. Sankarnarayanan
and S.S. Cameotra (2013) Microbiological quality of effluents from textile
dyeing units of Kanchipuram, Tamil Nadu, South India. Indo.
Amer.J.Pharm.Res.3, 7462-7465.
Kuberan, T., J. Anburaj, C. Sundaravadivelal, and P. Kumar (2011) Biodegradation
of azo dye by Listeria sp.Int. J.Environ. Sci. 1, 1760-1770.
Kudlich, M., A. Keck, J. Klein, and A. Stolz (1997) Localization of the enzyme
system involved in anaerobic reduction of azo dyes by Sphingomonas sp.
strain BN6 and effect of artificial redox mediators on the rate of azo dye
reduction. Appl. Environ. Microbiol. 63, 3691–3694.
Kuhad, R. C., N. Sood, K. K. Tripathi, A. Singh and O. P. Ward (2004)
Developments in microbial methods for the treatment of dye effluents. Adv.
Appl. Microbiol. 56, 185–213.
Kumar, S.K., P. Ponmurugan and S. Murugesh (2009) Effect of azoreductase on
degradation of carcinogenic azo dyes. Adv. Biotech.1, 25-28.
Bibliography 313
Kumar, A. and R. Sawhney (2011) Identification of Bacillus subtilis subspecies
subtilis “ RA-29”, a Congo Red decolorizer using 16S rDNA sequencing.
Researcher. 3, 18-22.
Kumar, K., D.S. Saravana, K. Krishnamurthi, S. Gampawar, N.Mishra, G.H. Pandya
and T. Chakrabarti (2006) Decolourisation, biodegradation and
detoxification of benzidine based azo dye. Bioresour.Technol. 97, 407-413.
Kumar, P.G.N. and S.K. Bhat (2011) Fungal Degradation of Azo dye- Red 3BN and
Optimization of Physico-Chemical Parameters. Int. J. Environ. Sci. 1, 6-13.
Lade H.S, S. Harshad, T.R. Waghmode, A.A. Kadam and S.P. Govindwar (2012)
Enhanced biodegradation and detoxification of disperse azo dye Rubine GFL
and textile industry effluent by defined fungal-bacterial consortium. Int.
Biodeter Biodegr. 72, 94-107.
Laemmili, U. K. (1970) Cleavage of Structural Proteins during the assembly of the
head of bacteriophage T4. Nature. 227, 680-685.
Lavanya, C., R. Dhankar, S. Chhikara and S. Sheoran (2014) Degradation of toxic
dyes: A review. Int. J. Curr. Microbiol.Appl. Sci. 3, 89-199.
Laxman, M. (2009) Pollution and it’s Control in Textile Industry. Dyes and
Chemicals. San Blue Enterprises Pvt. Ltd.
Lee, M., M.K. Kim, I. Singleton, M. Goodfellow and S.T. Lee (2006) Enhanced
biodegradation of diesel oil by a newly identified Rhodococcus
baikonurensis EN3 in the presence of mycolic acid. J. Appl. Microbiol. 100,
325–333.
Leelakriangsak, M. and S. Borisut (2012) Characterization of the decolourizing
activity of azo dyes by Bacillus subtilis azoreductase AzoR1.
Songklanakarin. J. Sci. Technol. 34, 509-516.
Leelakriangsak, M., N.T. Huyen, S. Towe, N.V. Duy, D .Becher, M. Hecker, H.
Antelmann and P. Zuber (2008) Regulation of quinone detoxification by the
thiol stress sensing DUF24/MarR-like repressor, YodB in Bacillus subtilis.
Mol. Microbiol. 67, 1108- 1124.
Leena, R. and R.D. Selva (2008) Bio-decolourisation of textile effluent containing
Reactive Black-B by effluent adapted and non-adapted bacteria. Afr. J.
Biotechnol.17, 3309-3313.
Bibliography 314
Lin, J., X. Zhang, Z. Li, L.Lei (2010) Biodegradation of Reactive blue 13 in a two-
stage anaerobic/aerobic fluidized beds system with a Pseudomonas sp.
isolate. Bioresour.Technol. 101, 34-40.
Liu, W.T., O.C. Chan and H.P. Fang (2002) Characterization of microbial
community in granular sludge treating brewery wastewater. Water. Res. 36,
1767–1775.
Liu, G., J. Zhou, R. Jin, M. Zhou, Lu. Wang and Y. Qu (2008a). Enhancing survival
of Escherichia coli by expression of azoreductase AZR possessing quinine
reductase activity. Appl.Microbiol.Biotechnol. 80, 409-416.
Liu, G., J. Zhou, J. Wang, B. Yan, J. Li, H.Lu,Y. Qu and R.Jin (2008b) Site-directed
mutagenesis of substrate binding sites of azoreductase from Rhodobacter
sphaeroides. Biotechnol. Lett. 30, 869-875.
Liu, G., J. Zhou, Q. S. Fu and J. Wang (2009a) The Escherichia coli azoreductase
AzoR Is involved in resistance to thiol-specific stress caused by electrophilic
quinones. J. Bacteriol. 191, 6394-6400.
Liu, G., J. Zhou, J. Wang, M. Zhou, H. Lu and R. Jin (2009b) Acceleration of azo
dye decolourisation by using quinone reductase activity of azoreductase and
quinone redox mediator. Bioresour.Technol. 100, 2791-2795.
Lowry, O.H., N.J, Rousebrough, A.L. Farr and R.J. Randall (1951) Protein
measurement with Folin Phenol Reagents. J.Biol.Chem. 193, 265-275.
Lucas, M., V. Mertens, A.M. Corbisier and S. Vanhulle (2008) Synthetic dyes
decolourisation by whiterot fungi: development of original microtitre plate
method and screening. Enz.Microbial. Technol. 42, 97- 106.
Macwana, S.R., S. Punj, J. Cooper, E. Schwenk and G.H. John (2010) Identification
and isolation of an azoreductase from Enterococcus faecium. Curr. Issues.
Mol. Biol. 12, 43-48.
Mahalakshmi,M. and E. Saranathan (2014) Assessment of water contamination due
to dyeing and bleaching effluents of Noyyal River basin, Tamil Nadu- A
Review.Int. J. Chem. Tech. Res. 6, 1335-1340.
Maheshwari, M. and S. Dubey (2000) CETP- A solution or a problem in itself.
Toxic. Link. 1-44.
Bibliography 315
Mahmood, R., F. Sharif, S. Ali, U.H. Muhammad and T.A. Cheema (2012)
Isolation of indigenous bacteria and consortia development for
decolorization of textile dyes. Biologia. 58, 53-60.
Maier, J., A. Kandelbauer, A. Erlacher, A. Cavaco-Paulo and G.M. Gubitz (2004) A
new alkali-thermostable azoreductase from Bacillus sp. strain SF. Appl.
Environ. Microbiol. 70, 837-844.
Mali, P.L., M.M. Mahajan, D.P. Patil and M.V. Kulkarni (2000) Biodecolourisation
of members of triphenylmethane and azo groups of dyes. J. Scientific Ind.
Res. 59, 221–224.
Mane, U.V., M.N. Gurav, A.M. Deshmukh and S.P. Govindwar (2008) Degradation
of textile dye reactive navy –blue Rx (Reactive- Blue- 59) by an isolated
Actinomycete Streptomyces krainskii-SUK-5. Malaysian. J.Microbiol. 4, 1-
6.
Manefield, M., R.I. Griffiths, M.B. Leigh, R. Fisher and S.W. Andrew (2005).
Functional and compositional comparison of two activated sludge communities
remediating coking effluent. Environ. Microbiol. 7, 715–722.
Mannivannan, M., D. Geetha and P. Ganesh (2011) Decolorization of textile azo
dyes by using bacteria isolated from textile effluent. J. Ecobiotech. 3, 29-32.
Mardis, E.R. (2008) Next generation DNA sequencing Methods.Ann.Rev.
Gen.Human.Gene. 387-402.
Marinescu, M., M. Dumitru and A. Lacatusu (2009) Biodegradation of Petroleum
Hydrocarbons in an Artificial Polluted Soil. Research Journal of
Agricultural Science. 41, 234-245.
Mathur, N. and P. Bhatnagar (2007) Mutagenicity assessment of textile dyes from
Sangner (Rajasthan). J. Environ. Biol. 28, 123-126.
Mathur, N., P. Bhatnagar and P. Bakre (2005) Assessing mutagenicity of Textile
dyes from Pali (Rajasthan) using Ames Bioassay. Appl. Eco. Environ. Res.
4, 111-118.
Matsumoto, K., Y. Mukai, D. Ogata, F. Shozui, J.M. Nduko, S. Taguchi and T. Ooi
(2010) Characterization of thermostable FMN-dependent NADH azoreductase
from the moderate thermophile Geobacillus stearothermophilus. Appl.
Microbiol.Biotechnol. 86, 1431-1438.
Bibliography 316
Maximo, C., M.T.P. Amorum and F.M. Costa. (2003) Biotransformation of
industrial reactive azo dye by Geotrichum sp. Enz. Microbial.Technol. 32,
145-151.
McGarvey, J.A., W.G.S. Miller and L.S. Sanchez (2004) Identification of bacterial
populations in dairy wastewaters by use of 16S rDNA gene sequences and
other genetic markers Appl Environ Microbiol. 70, 4267–4275.
McMullan, G., C.Meehan, A. Conneely, N. Kirby, T. Robinson, P. Nigam, I.M.
Banat, D. Singh and R. Marchant (2001) Microbial decolourisation and
degradation of textile dyes. Appl. Microbiol. Biotechnol. 56,81-87.
Mebrat, A. (2006) Biological Degradation of Azo Dyes , Azoic Dye 5, Diazo Fast
Red Salt in Aanerobic System .M.Sc thesis. Addis Abba University.
Mendes, S., L. Pereira, C. Batista and L.O. Martins (2011a) Molecular determinants
of azo reduction activity in the strain Pseudomonas putida MET94.
Appl.Microbiol.Biotechnol. 92, 393-405.
Menn, F.M., J.P. Easter and G.S. Sayler (2008) Genetically Engineered
Microorganisms and Bioremediation, in Biotechnology: Environmental
Processes II 11b, 2nd Edition.Wiley-VCH Verlag GmbH, Weinheim,
Germany.
Metcalf and Eddy (2003) Wastewater engineering: Treatment and Reuse. Boston. 4th
edition. McGraw-Hill.
Miao.Y. (2011) Biological remediation of dyes in textile effluent. A review on
current treatment technologies. http://home.engineering.iastate.edu/ ~tge/ce
421-521/yongjie.pdf.
Milikli, G. and C.S.V.R. Ramchandra (2012) Molecular characterization and
optimization of bacteria in azo dye degradation. Int.J. Int.Sci.Inn.Tech. 1, 32-
39.
Mishra, G. and M. Tripathy (1993) A critical review of the treatments for
decolourisation of textile effluent.Colourage. 40, 35-–38.
Mlaik, N., J. Bouzid, I.B. Hassan, S. Woodward, L. Elbahri and M. Mechichi
(2014).Unhairing wastewater treatment by Bacillus pumilusand Bacillus
cereus. Desalination. 10.1080/19443994.2014.883330.
Bibliography 317
Modasiya, V., D. Bohra and C.K. Bahura (2013) Study of physic chemical
parameters of wastewater of various regions of Bikaner city, Rajasthan. J
Chem Biol Phy Sci. 3, 588-592.
Mohabansi, N.P., P.V. Tekade and S.V. Bawankar (2011) Physico-chemical and
Microbiological Analysis of Textile Industry Effluent of Wardha region.
Water. Res.Dev. 1, 40-44.
Mohan, V., M. Madhumita, S.Menon and K.S. Devi. (2013) Isolation and screening
of potential dye decolorizing bacteria from textile effluents in Tamil Nadu,
India. J.Acad. Ind.Res. 2, 74-79.
Mohapatra, B. R. and A. Mazumder (2008) Comparative efficacy of five different
REP-PCR methods to discriminate Escherichia coli populations in aquatic
environments. Water. Sci. Tech. 58, 537–547.
Moharrery, L., M.A. Otadi, A. Safekordi, R. Amiri and M. Ardjmand (2012)
Biodegradation of Toluidine Red, An Oil Soluble Azo Dye, With Halomonas
Strain D2. World. Appl. Sci. J. 18, 1065-1072.
Moosvi, S., H. Keharia and D. Madamwar (2005) Decolourisation of textile dye r. J.
Biotechnol. Reactive Violet 5 by a newly isolated consortium RVM 11. 1.
World J Microbiol. Biotechnol. 21, 667-672.
Morrison, J.M., C.M. Wright and G.H. John (2012) Identification, Isolation and
characterization of a novel azoreductase from Clostridium perfringens.
Anaerobe. 18, 229-234.
Moutaouakkil, A., Y. Zeroual, F. Zohra Dzayri, M. Talbi K. Lee and M. Blaghen
(2003) Purification and partial characterization of azoreductase from
Enterobacter agglomerans. Arch.Biochem.Biophys. 413, 139-146.
Mugerfeld, I., B.A.Law, G.S. Wickham, and D.K. Thompson (2009) A putative
azoreductase gene is involved in the Shewanella oneidensis response to heavy
metal stress. Appl.Microbiol.Biotechnol. 82, 1131-1141.
Myers, C. R. and J.M. Myers (1992) Localization of cytochromes to the outer
membrane of anaerobically grown Shewanella putrefaciens MR-1. J.
Bacteriol. 174, 3429–38.
Myrna, S., A.Solísb, H. I. Pérezb, N. Manjarrezb and M. Floresa (2012) Microbial
decolouration of azo dyes: A review, Process Biochem. 47, 1723 1748.
Bibliography 318
Nachiyar, C.V. and G.S. Rajakumar (2005) Purification and characterization of an
oxygen insensitive azoreductase from Pseudomonas aeruginosa. Enz.
Microbial. Tech. 36, 503-509.
Nakanishi, M., C. Yatome, N. Ishida and Y. Kitade (2001) Putative ACP
Phosphodiesterase Gene (acpD) Encodes an Azoreductase. J. Biol. Chem.
276, 46394–46399.
Nakasaki, K., L.T.H. Tran, Y. Idemoto, M. Abe and A.P. Rollon(2009) Comparison
of organic matter degradation and microbial community during thermophilic
composting of two different types of anaerobic sludge. Bioresour.Technol.
100, 676–682.
Neelambari, V., V. Maharani, S. Vijayalakshmi and T. Balasubramaniam (2013)
Degradation and detoxication of rective azo dyes by native bacterial
communities. Afr. J. Microbiol.Res.7, 2274-2282.
Nese, T, N. Sivri and I. Toroz (2007) Pollutants of Textile Industry Wastewater and
Assessment of it’s Discharge Limit’s by Water Quality Standards. Turk. J.
Fish. Aquat. Sci. 7, 97-103.
Nicell, J.A., J.K. Bewtra, N. Biswas, C. St. Pierre and K.E. Taylor (1993) Enzyme
catalysed polymerization and precipitation of aromatic compounds from
aqueous solution. Cana. J. Civ. Eng. 20, 725-735.
Nishiya, Y. and Y. Yamamoto (2007) Characterization of a NADH:
dichloroindophenol oxidoreductase f rom Bacillus subtilis. Biosci.
Biotechnol. Biochem. 71, 611-614.
Nosheen, S., H. Nawaz and K. Rehman (2000) Physico-chemical Characterisation of
Textile effluent and Relative Germination Study on Dicot seeds.
Int.J.Res.Chem.3, 155-162.
Novotný, C., B. Rawal, M. Bhatt, M. Patel, V. Šašek and H.P. Molitoris (2001)
Capacity of Irpex lacteus and Pleurotus ostreatus for decolourisation of
chemically different dyes. J. Biotechnol. 89, 113-121.
Novotny, C., K. Svobodova, A. Kasinath and P. Erbanova (2004) Biodegradation of
synthetic dyes by Irpex lacteus under various growth conditions. Int Biodet
Biodeg. 54, 215-223.
Bibliography 319
O’Neill, C., F.R. Hawkes, D.L. Hawkes, N.D. Lourenço, H.M. Pinheiro and W.
Delée (1999) Colour in textile effluents – sources, measurement, discharge
consents and simulation: a review. J. Chem. Technol. Biotechnol. 74, 1009-
1018.
Ohnishi, A., A. Nagano, N. Fujimoto and M. Suzuki (2011) Phylogenetic and
physiological characterization of mesophilic and thermophilic bacteria from
a sewage sludge composting process in Sapporo, Japan, World. J. Microbiol.
Biotechnol. 3, 333–340.
Olayinka, K. O. (2004) Studies on industrial pollution in Nigeria: The effect of
textile effluents on the quality of groundwater in some parts of Lagos. Nig. J.
Health. Biomed. Sci. 3, 44-50.
Olukanni, O.D., A.A.Osuntoki and G.O. Gbenle (2006) Textile effluent
biodegradation potential of textile effluent adapted and non adapted bacteria.
Afr. J. Biotechnol. 5, 1980-1985.
Ong, S.A., E. Toorisaka, M. Hirata and T. Hano (2005) Treatment of azo dye
Orange II in aerobic and anaerobic-SBR systems. Proc.Biochem. 40, 2907-
2914.
Ooi, T., T. Shibata, K. Matsumoto, S. Kinoshita and S. Taguchi (2009) Comparative
enzymatic analysis of azoreductases from Bacillus sp. B29. Biosci.
Biotechnol. Biochem. 73, 1209-1211.
Ooi, T., T. Shibata, R. Sato, H. Ohno, S. Kinoshita, T.L. Thuoc and S. Taguchi
(2007) An azoreductase, aerobic NADH-dependent flavoprotein discovered
from Bacillus sp.: functional expression and enzymatic characterization.
Appl.Microbiol.Biotechnol. 75, 377-386.
Oren, A. (2004) Prokaryote diversity and taxonomy: current status and future
challenges, Phil. Transactions. 359, 623–638.
Otawa, K., R. Asano, Y. Oba, T. Sasaki, E. Kawamura and F. Koyama (2006)
Molecular analysis of ammonia-oxidizing bacteria community in intermittent
aeration sequencing batch reactors used for animal wastewater treatment.
Environ. Microbiol. 8, 1985–1996.
Ozdemir, G., B. Pazarbasi, B. A. Kocyigit, E.E. Omeroglu, I. Yasa, I. and I.Karaboz
(2008). Decolourisation of Acid Black 210 by Vibrio harveyi TEMS1, a
Bibliography 320
newly isolated bioluminescent bacterium from Izmir Bay, Turkey. World J.
Microbiol. Biotechnol. 24, 1375-1381.
Oztekin, Y, Z. Yazicigil, N. Ata and N. Karadayl (2010) The comparison of two
different electro-membrane processes performance for industrial application.
Clean-Soil, Air, Water. 38, 478-484.
Pahlaviani, M.R.M.K., A. Massiha and K.Issazadeha (2011) An Innovative
Approach to Biodegradation of Textile Azo Dyes by native bacterial strains
in Iran. IPCBEE.18, 72-75.
Palamthodi, S., D.Patil and Y. Patil (2011) Microbial degradation of textile
industrial effluents. Afr.J. Microbiol. Res. 10, 12657-12671.
Palani Velan, R., S. Rajkumar and P.M. Ayyasamy (2012) Exploring the promising
dye decolourising strains obtained from Erode and Tirrupur textile wastes.
Int. J. Environ. Sci. 2, 2470-2481.
Palanysamy, G.A., P.N. Sivakumar, K.P.Ganesh and M. Sujatha (2008) Assessment
of underground water contamination and effect of textile effluents on Noyyal
River basin in and around Tirupur town, Tamilnadu, E-J. Chem. 5, 696-705.
Pandey, A., P. Singh and L. Iyengar (2007) Bacterial decolourisation and
degradation of azo dyes. Int. Biodeterior. Biodegrad. 59, 73-84.
Pandey, A.K. and V. Dubey (2012) Biodegradation of azo dye Reactive Red BL by
Alcaligenes sp. AA09. Int. J. Eng. Sci. 1, 54-60.
Pandey, R. and S. Deb (1998) CETP’s and pollution abatement in SSI’s. Working
paper of National Institute of Public Finance and Policy.
Panswad, T. and W. Luangdilok (2007) Decolourisation of Reactive Dyes with
different molecular structures under different environmental conditions.
Water Res. 34, 4177-4184.
Park, C.H., J. Lim, Y. Lee, B. Lee, S. Kim J. Lee and S. Kim (2007) Optimization
and morphology for decolourisation of reactive black 5 by Funalia trogii.
Enz. Microbial. Technol. 40, 1758-1764.
Parshetti, G.K., A.A. Telke, D.C. Kalyani and S.P. Govindwar (2010)
Decolourisation and detoxification of sulfonated azo dye methyl orange by
Kocuria rosea MTCC 1532. J. Hazard.Mater. 176, 503-509.
Bibliography 321
Patel, H. and S. Pandey (2008) Physico-chemical characterization of textile
chemical sludge generated from various CETP’s in India. J.Environ. Res.
Dev. 2, 329-339.
Patel, S., A. Rajor, B.P. Jain and P. Patel (2013) Performance Evaluation of Effuent
Treatment Plant of Textile Wet Processing Industry: A Case Study of Narol
Textile Cluster, Ahmedabad, Gujarat. Int. J. Eng. Sci. Inn. Tech.2, 290-296.
Paul, D., G. Pandey, C. Meier, J.R. Van der Meer and R.K. Jain (2006) Bacterial
community structure of a pesticide-contaminated site and assessment of changes
induced in community structure during bioremediation. FEMS Microbiol.
Ecol. 57, 116–127.
Paul, S.A., S.K. Chavan and S.D. Khambe (2012) studies on characterization of
textile industrial waste water in Sholapur city. Int. J. Chem. Sci.10, 335-342.
Pearce, C. I., J.R. Lloyd and J.T. Guthrie (2003) The removal of colour from textile
wastewater using whole bacterial cells: A review. Dyes Pigments. 58, 179-
196.
Pereira, L. and M. Alves (2012) Dyes- Environment Impact and Remediation
(Chapter 4) Environmental protection strategies for Strategies for
Sustainable Development, Strategies for Sustainability.Springer Sciences
+Business Media. 112-162. DOI: 10.1007/978-94-007-1591-2_4.
Pereira, L., A.V. Coelho, C.A. Viegas, M.M.C. Santos, M.P. Robalo and L.O.
Martins (2009a) Enzymatic biotransformation of the azo dye Sudan Orange
G with bacterial CotA-laccase. J. Biotechnol. 39, 68-77.
Perumal K., R.B. Malleswari, A.Catherin and M.T.A. Sambanda (2012)
Decolourisation of Congo Red dye by bacterial consortium isolated from dye
contaminated soil, Paramakudi, Tamil Nadu. J. Microbiol. Biotech. Res. 2,
475-480.
Phugare, S.S., D.C Kalyani, A.V. Patil J.P. Jadhav (2011) Textile dye degradation
by bacterial consortium and subsequent toxicological analysis of dye and dye
metabolites using cytotoxicity, genotoxocity and oxidative stress studies. J.
Haz. Mater. 186, 713-723.
Pielesz, A. (1999) The process of reduction of azo dyes used in dyeing textiles on
the basis of infrared spectroscopy analysis. J. Mol.Struc. 211, 337-344.
Bibliography 322
Pinheiro, H.M., E. Touraud and O. Thomas (2004) Aromatic amines from azo dye
reduction: status review with emphasis on direct UV spectrophotometric
detection in textile industry wastewaters. Dyes Pigments. 61, 121–139.
Poornima, K., L. Karthik, S.P. Swadhini, S. Mythili and A. Sathiavelu (2010)
Degradation of chromium by using a novel strains of Pseudomonas species.
J. Microbial Biochem.Tech. 2, 95–99.
Powar, M.M., V.S. Kore and S.V. Kore (2011) A case study on Common Effluent
Treatment Plant at Five Star MIDC, Kagal. World. J.Appl. Environ. Chem.1,
1-6.
Pradhan, P., H.D. Kumar and B.K. Gireesh (2012) Degrdation of Azo and Triph;
enylmethane dye by bacteria isolated from local industrial waste. Int. J.
Curr. Res. Rev. 4, 39-49.
Prescott, L.M., J.P. Harley, and D.A. Klein (2008) Microbiology, 7th Edition. Mc.
Graw- Hill. New York.1075-1082.
Przystaś, W., E. Zabłocka-Godlewska and E. Grabińska-Sota (2012) Biological
Removal of Azo and Triphenylmethane Dyes and Toxicity of Process By-
Products. Water. Air. Soil. Pollut. 223, 1581-1592.
Punj, S. and G.H. John (2009) Purification and Identification of an FMN-dependent
NAD(P)H Azoreductase from Enterococcus faecalis. Curr. Iss. Mol. Biol.
11, 59-66.
Purkait, M.K., A. Maiti, S.D. Gupta and S. De (2007) Removal of congo red using
activated carbon and it’s regeneration, J. Hazard. Mater. 145, 287–295.
Purohit, M. K. and P. V. Desai (2014) Production, Purification and In Silico
Characterisation of Azoreductase Enzyme Azor1 KF803342 from Paulibacter
gergoviae involved in dye degradation. J. Bioremed. Biodeg. 5, 1-7.
Puvaneswari N., J. Muthukrishnan and P. Gunasekaran (2006) Toxicity assessment
and microbial degradation of azo dyes Ind. J.Exp.Biol. 44, 618-626.
Rafii, F. and C.E. Cerniglia (1993) Comparison of the azoreductase and
nitroreductase from Clostridium perfringens. Appl. Environ. Microbiol. 59,
1731-1734.
Bibliography 323
Rafii, F., J.D. Hall and C.E. Cerniglia (1997) Mutagenicity of azo dyes used in
foods, drugs and cosmetics before and after reduction by Clostridium species
from the human intestinal tract. Food Chem. Toxicol. 35, 897–901.
Rahman, M.M., S.H. Bari, N. Mohammad, A.Ahsan, H.R. Sobuz and M.A. Uddin
(2013) Characterisation of Rice husk Carbon Produced through Simple
Technology. Adv. Mat. Sci. Appl. 2, 25-30.
Rai, H., M. Bhattacharya, J. Singh, T.K. Bansal, P. Vats and U.C. Banerjee (2005)
Removal of Dyes from the Effluent of Textile and Dyestuff Manufacturing
Industry: A Review of Emerging Techniques with Reference to Biological
Treatment. Crit. Rev. Environ. Sci. Tech. 35, 219-238.
Raja, P., C. Chellaram, S.E.J. Jebasingh, N. Maheshwari, M. Chandrika and C.
Gladis (2013) Bio-degradation of harmful textile dyes by marine bacteria
from Tuticorin coastal Waters Southeastern India. J. Chem. Pharm. Res. 5,
146-151.
Rajamohan, N. and C.Karthikeyan (2006) Kinetic studies of dye effluent
degradation by Pseudomonas stutzeri. Retrieved 2006 from http://www.eco-
web.com/editorial/061103.html.
Rajendran, P. and P. Gunasekaran (2006) Strategies for biological treatment of
industrial wastewater .Industrial Pollutionand its management .Aavishkar
Publishers, Jaipur. 133-148.
Rajeswari, K., R. Subhashkumar and K. Vijayaraman (2013a) Physicochemical
parameters of effluents collected from Tirupur textile dyeing and CETP and
analysis of heterotrophic bacterial population. J. Microbiol. Biotech. Res. 3,
37-41.
Rajeswari, K., R. Subhaskumar and K. Vijayaraman (2013b) Decolorization and
Degradation of textile dyes by Stenotrophomonas maltophila RSV-2. Int. J.
Environ. Bioremed. Biodegrad.1, 60-65.
Ramachandran, P., R. Sundharam, J. Palaniyappan and P.M. Ayyasamy. (2013)
Potential process implicated in bioremediation of textile effluents. A review.
Adv. Appl. Sci. Res. 4, 134-145.
Bibliography 324
Ramamurthy, N., S. Balasaraswathy, P. Sivasakthivelan (2011) Biodegradation and
physisco-chemical changes of textile effluent by various fungal species.
Rom. J. Biophys. 21, 113-123.
Ramlan, M.A.M., M.A. Azizan, B.H. Han, L.C. Kim, S.E. Mohammad and I.
Zararah (2012) Decolourisation of Reactive Black 5 by Azoreductase by
Brevibacillus panacuhumi ZB1. J. Teknol. 59, 11-16.
Rani, A., S. Porwal, R. Sharma, A. Kapley, H.J. Purohit and V.C. Kalia (2008)
Assessment of microbial diversity in effluent treatment plants by culture
dependent and culture independent approaches. Bioresour.Technol. 99,
7098–7107.
Ranjard, L., F. Poly and S. Nazaret (2000) Monitoring complex bacterial
communities usingculture-independent molecular techniques: application to
soil environment. Res. Microbiol. 151,167–177.
Rapp, M.S.and S.J. Giovannoni (2003) The uncultured microbial majority.
Microbiology. 57, 369.
Rasko, D.A., J. Ravel, O.A. Okstad, E. Helgason, R.Z. Cer, L. Jiang, K.A. Shores,
D.E. Fouts, N.J. Tourasse, S.V. Angiuoli, J.Kolonay, W.C. Nelson A.B.
Kolsto, C.M. Fraser and T.D. Read (2004) The genome sequence of Bacillus
cereus ATCC 10987 reveals metabolic adaptations and a large plasmid
related to Bacillus anthracis pXO1. Nucleic Acids Res. 32, 977–988.
Rathore, J. (2011) Assessment of water quality of River Bandi affected by textile
dyeing and printing effluents, Pali, Western Rajasthan, India Int. J. Environ.
Sci. 2, 560-568.
Rathore, J. (2012) Studies on pollution load by dyeing and printing units in River
Bandi at Pali, Rajasthan, India. Int. J. Environ.Sci. 3, 735-742.
Rejili, M., M.J. Lorite, M. Mahdhi, J.S. Pinilla, A. Ferchichi and M. Mars (2009)
Genetic diversity of rhizobial populations recovered from three Lotus species
cultivated in the infra-arid Tunisian soils. Prog. Nat. Sci. 19, 1079–1087.
Revetta, R.P., A.Pemberton, R. Lamendella, B. Iker and J.W. Santo Domingo (2010)
Identification of bacterial populations in drinking water using 16S rDNA-
based sequence analyses. Water Res. 44, 1353–1360.
Bibliography 325
Robinson, T., G. McMullan, R.Marchant and P. Nigam (2001) Remediation of dyes
in textile effluent: a critical review on current treatment technologies with a
proposed alternative. Bioresour. Technol. 77, 247–255.
Robinson, T., B. Chandran and P.Nigam (2002). Removal of dyes from a synthetic
textile dye effluent by biosorption on apple pomace and wheat straw. Water
Res. 36, 2824-2830.
Roh, S.W., G.C.J. Abell, K.H. Kim, Y.D. Nam and J.W. Bae (2010) Comparing
microarrays and next-generation sequencing technologies for microbial
ecology research. Trends. Biotechnol. 28, 291–299.
Rowan, J., D. Snape, M. Fearnside, T. Barer and I. Curtis (2003) Composition and
diversity of ammonia-oxidizing bacterial communities in wastewater
treatment reactors of different design treating identical wastewater. FEMS
Microbiol Ecol. 43, 195–206.
Russ, R., J. Rau and A. Stolz (2000) The function of cytoplasmic flavin reductases
in the reduction of azodyes by bacteria. Appl. Environ. Microbiol. 66, 1429–
34.
Ryan, A., C.J. Wang, N. Laurieri, I. Westwood and E. Sim (2010a) Reaction
mechanism of azoreductases suggests convergent evolution with quinone
oxidoreductases. Prot. Cell. 1, 780-790.
Ryan, A., N. Laurieri, I. Westwood, C.J. Wang, E.Lowe and E. Sim (2010b) A novel
mechanism for azoreduction. J. Mol. Biol. 400, 24-37.
Sabnis, R.W. (2010) Handbook of Biological Dyes and Stains. Synthesis and
Industrial Applications .John Wiley & Sons, New Jersey, Canada, Springer,
106-107.
Sahasrabudhe, M., A. Bhattacharya, A. Pathade and G. Pathade (2014)
Detoxification of Reactive Red 195 by Micrococcus glutamicus NCIM 2168.
J. Environ. Res. Develop. 9,120-128.
Sani, R.K. and U.C. Banerjee (1999) Decolourisation of triphenylmethane dyes and
textile and dye-stuff effluent by Kurthia sp. Enz. Microbial. Tech. 24, 433–
437.
Bibliography 326
Santhosh, B.S. and D.M. Renuka (2010) Integrations of Remote Sensing and GIS to
land cover change detection in Coimbatore district. Int. J. Comp. Sci. Eng. 2,
3085-3088.
Sanz, J.L. and T. Kochling (2007) Molecular biology techniques used in wastewater
treatment: An overview. Proc. Biochem. 42, 119–133.
Saranraj, P. (2013) Bacterial biodegradation and decolourisation of toxic textile azo
dyes. Afri. J. Microbiol. Res.7, 3885-3890.
Saranraj, P., V. Sumathi, D. Reetha D. Stella (2010) Decolourisation and
Degradation of Dirct Azo Dyes and Biodegradation of Textile Dye Effluent
by using Bacteria Isolated from Textile Dye Effluent. J. Ecobiotechnol. 2,
07-11.
Saratale, R.G., Saratale, G.D., Kalyani, D.C., Chang, J.S. and S.P. Govindwar
(2009) Enhanced decolourisation and biodegradation of textile azo dye
Scarlet R by using developed microbial consortium-GR. Bioresour.Technol.
100, 2493-2500.
Sarkar, P., A.N. M. Fakhruddin, P. Kamruzzaman, P. and A.A.Mahin (2011)
Decolorization of Methyl Red by Staphylococcus arleatte PF4 isolated from
garden soil. Int. J. Environ.1, 35-40.
Scopes, R.K. (2004) Protein Purification: Principle and Practice. (Edited by Cantor,
C.R.). 3rd edition. Springer-Velag New York, Inc.
Seesuriyachan, P., S. Takenaka, A. Kuntiya, S. Klayraung, S. Murakami and K.
Aoki (2007) Metabolism of azo dyes by Lactobacillus casei TISTR 1500 and
effects of various factors on decolourisation. Water Res. 41, 985-992.
Sekiguchi, Y., H. Takahashi, Y. Kamagata, A. Ohashi and H. Harada (2001) In situ
detection, isolation, and physiological properties of a thin filamentous
microorganism abundant in methanogenic granular sludges: a novel isolate
affiliated with a clone cluster, the green non-sulfur bacteria, subdivision I.
Appl Environ Microbiol. 67: 5740-5749.
Sen, S. and G.N. Demirer (2003) Anaerobic treatment of real textile wastewater with
a fluidized bed reactor. Water Res. 37,1868-1878.
Seo, J.S., Y.S. Keum and Q.X. Li (2009) Bacterial Degradation of Aromatic
Compounds. Int. J. Environ. Res. Pub. Health. 6, 278- 309.
Bibliography 327
Sethi, S., Malviya, M.M., Sharma, N., Gupta, S. (2012) Biodecolourisation of Azo
Dye by Microbial Isolates from Textile Effluent and Sludge.Univ. J.
Environ. Res. Tech. 2, 582-590.
Shah, M.P. (2014) An Application of Bioaugmentation Strategy to Decolourize &
Degrade Reactive Black Dye by Pseudomonas spp. Int. J. Environ. Biorem.
Biodegrad. 2, 50-54.
Shah, M.P. (2014) Microbial Degradation of Textile Dye (Remazol Black B) by
Bacillus sp. ETL-2012. J. Appl. Environ. Microbiol. 1, 6-11.
Shah, M.P., K.A. Patel, S.S. Nair and A.M. Darji (2013) Microbial Decolourisation
of Textile Dye by Bacillus Spp. ETL-79: An Innovative Biotechnological
Aspect to Combat Textile Effluents. Amer. J. Microbiol. Res. 1, 57-61.
Sharma, N., S.K. Sharma, S. and A. Gehlot (2014) Influence of dyeing and printing
industrial effluents on physic-chemical characteristics of water- case study
on the printing cluster of Bagru, Jaipur (Rajasthan). IOSR. J.App. Chem.7,
61-64.
Sharma, P., G.R. Chaudhry and E. Thomas (2009) Mutagenicity testing of some
commonly used azo dyes. Appl. Environ. Microbiol. 42, 641-648.
Sharma, R., R. Ranjan, R.K. Kapardar and A. Grover (2005) ‘Unculturable’
bacterial diversity: An untapped resource. Curr. Sci. 89, 72-79.
Shaul, G.M., T.J. Holdsworth, C.R. Dempsey and K.A. Dostal (1991). Fate of
water soluble azo dyes in the activated sludge process. Chemosphere. 22,
107-119.
Shedbalkar, U., R. Dhanve and J. Jadhav (2008). Biodegradation of
triphenylmethane dye Cotton blue by Penicillium ochrochloron MTCC 517.
J. Hazard.Mater. 157, 472–479.
Shinde, K.P. and P.R. Thorat (2013) Biodecolourisation of diazo direct dye congo
red by Fusarium sp. TSF-01. Rev. Res. 2, 1-7.
Sikora, S. and C. Redˇzepovi (2003) Genotypic characterisation of indigenous
soybean rhizobia by PCR-RFLP of 16S rDNA, REP-PCR and RAPD
analysis. Food. Technol. Biotechnol. 41, 61–67.
Bibliography 328
Silveira, E., P.P. Marques, S.S. Silva, J.L. Lima-Filho, A.L.F. Porto, A. L. F. and
E.B. Tambourgi (2009) Selection of Pseudomonas for industrial textile dyes
decolourisation. Int. Biodeterior. Biodegrad. 63: 230–235.
Singh, A., R. Gautam and S.K. Mishra (2011) Performance Evaluation of a
Common Effluent Treatment Plant Treating Textile Wastewaters in India.
J.Res. Dev. 5, 696-706.
Singh, R.P., P.K. Singh and R.L. Singh (2014) Bacterial decolorization of textile
Azo Dye Acid Orange by Staphylococcus hominis RMLRT- 03. Toxicol. Int.
20, 160-166.
Sinha, S., P. Chattopadhyay, I. Pan, S. Chatterjee, P. Chanda, D. Bandyopadhyay,K.
Das and S.K. Sen (2009) Microbial transformation of xenobiotics for
environmental bioremediation. Afr. J. Biotechnol. 8, 6016-6027.
Sivaraj, R., C.A.M. Dorthy and R. Venckatesh (2011) Isolation, Characterisation
and growth kinetics of bacteria metabolizing textile effluent. J. Biosci.
Tech.2, 324-330.
Smaranda, C., M. Gavrilescu, M. and D. Bulgariu (2011) Studies on sorption of
congo red from aqueous solution onto soil. Int.J. Environ. Res. 5, 177-178.
Soares, G. M. B., M.T.P. Amorim, M. Lageiro and M. Costa-Ferreira (2006) Pilot
scale Enzymatic Decolourisation of Industrial Dyeing Process Wastewater.
Textile Res. J. 76, 4-11.
Soundararajan, N., V. Gopi, A. Upgade and N. Begam (2012) Bioremediation ability
of individual and consortium of non-immobilized and immobilized bacterial
strains on industrial azo textile effluent. Annal. Biol. Res. 3, 1773-1778.
Sowparnika, J.R. and V. Balakrishnan (2013) Ecofriendly approach of textile
effluent decolorization by using microbial source. Int. J.Curr.Microbiol.
Appl.Sci. 2, 19-29.
Stingley, R.L., W. Zou, T.M. Heinze, H. Chen and C.E. Cerniglia (2010)
Metabolism of azo dyes by human skin microbiota. J. Med. Microbiol. 59,
108- 114.
Stolz, A. (2001) Basic and applied aspects in the microbial degradation of azo dyes.
Appl.Microbiol.Biotechnol. 56, 69-80.
Bibliography 329
Su, Y., Zhang, Y., Wang, J., Zhou, J., Lu, X. and Lu, H. (2009) Enhanced
biodecolourisation of azo dyes by co-immobilized quinone-reducing
consortium and anthraquinone. Bioresour.Technol .100, 2982-2987.
Subhatra, N., V. Prabhakaran, T. Kuberan and I. Balguruman (2013) Biodegradation
of azo dye from textile effluent by Lysinibacillus sphaericus. Sky. J. Soil.
Sci.Environ. Manage. 2, 1-11.
Sudha, D. and R. Balgurunathan (2013) Biodegradation of reactive Red 2 Azo dye
by Bacillus licheniformis isolated from Textile Effluent contaminated site.
Int.J.Cur.Res.Rev. 5, 1-9.
Suizhou, R., G.Jun, Z.Guoqu and S. Guoping (2006) Decolourisation of
triphenylmethane, azo, and anthraquinone dyes by a newly isolated
Aeromonas hydrophila strain. Appl Microbiol Biotechnol. 72, 1316–1321.
Sundar, M .L. and M.K. Saseedharan (2008) Groundwater quality in Coimbatore,
Tamilnadu along Noyyal River, J. Environ. Sci. Eng. 50, 187-190.
Sundar, M.L. and M.K. Saseedharan (2006) Assessment of groundwater quality of
Noyyal River basin, Tamilnadu, India, Ecol. Environ. Conserv. 12, 643-648.
Supaka, N., K. Juntongjin, S. Damronglerd, M.L.Delia, and P. Strehaiano (2004)
Microbial decolourisation of reactive azo dyes in a sequential anaerobic-
aerobic system. Chem. Eng. J. 99, 169-176.
Surwase, S.V., K.K. Deshpande, S.S. Phugare and J.P. Jadhav (2013)
Biotransformation studies of textile dye Remazol Orange 3R. 3 Biotech. 3,
267-275.
Suteu, D., C. Zaharia, D. Bibla, A. Muresan, R. Muresan and A. Popescu (2009 a)
Decolourisation wastewater from the textile industry- physical methods,
chemical methods. Indus. Textila. 5, 254-263.
Suteu, D., C. Zaharia and T. Malutan (2011a) Biosorbents Based on Lignin Used in
Biosorption Processes from Wastewater Treatment (chapter 7) Lignin:
Properties and Applications in Biotechnology and Bioenergy.
Suzuki, Y., T. Yoda, A. Ruhul and W. Sugiura (2001) Molecular cloning and
characterization of the gene coding for azoreductase from Bacillus sp. OY1-
2 isolated from soil. J. Biol. Chem. 276, 9059–9065.
Bibliography 330
Syed, M.A., H.K. Sim, A. Khalid and M.Y. Shukor (2009) A simple method to
screen for azo-dye-degrading bacteria. J Environ Biol. 30, 89-92.
Talarposhti, A.M., T. Donnelly and G.K.Anderson (2001) Colour removal from a
simulated dye wastewater using a two-phase anerobic packed bed reactor.
Water. Res. 35, 425–432.
Taskin, M. and S. Erdal (2010) Reactive dye bioaccumulation by fungus Aspergillus
niger isolated from the effluent of sugar fabric-contamined soil. Toxicol.
Indust. Health. Doi: 10.1177/ 0748233710364967.
Telke, A.A., S.M. Joshi, S.U. Jadhav D.P. Tamboli and S.P.Govindwar (2010)
Decolourisation and detoxification of Congo red and textile industry effluent
by an isolated bacterium Pseudomonas sp. SU-EBT. Biodegradation. 283-
296.
Thakur, I.S. (2006) Environmental Biotechnology: Basic Concepts and
Applications.I.K. Publishers, New Delhi.
Thoker, F., S. Manderia, and K. Manderia (2012) Impact of Dye Industrial Effluent
on Physico-chemical Characteristics of Kshipra River, Ujjain City, India. Int.
Res.J.Environ.Sci. 1, 41-45.
Togo, C.A., C.C.Z. Mutabanengwe and C.G. Whiteley (2008). Decolourisation and
degradation of textile dyes using a sulphate reducing bacteria (SRB)
biodigester microflora co-culture. Afr. J. Biotechnol. 7, 114- 121.
Töwe, S., M. Leelakriangsak, K. Kobayashi, N.V. Duy, M. Hecker ,P. Zuber and
H. Antelmann (2007) The MarR-type repressor MhqR (YkvE) regulates
multiple dioxygenases/glyoxalases and an azoreductase whichn confer
resistance to 2-methylhydroquinone and catechol in Bacillus subtilis. Mol.
Microbiol. 66, 40-54.
Tripathi, A. and S.K. Shrivastava (2011) Biodecolorization of Azo dye, Acid Orange
10, using different bacterial strains. IPCBEE.2, 253-257.
Ugochukwu, C.N.S. (2004) Effluent monitoring of oil servicing company and it’s
impact on the environment. Ajeam-Ragee. 8, 27-30.
Usharani, K., K.Umarani, P.M. Ayyasamy, K. Shanthi and
P.Lakshmanaperumalsamy (2010) Physico-chemical and bacteriological
Bibliography 331
characteristics of Noyyal River and ground water quality of Perur,India,
J.Appl.Sci.Environ.Manage. 14, 29-35.
Vallero, A.D. (2010) Environmental Biotechnology: A Biosystems Approach,
Elsevier’s Academic Press, Burlington Mass, USA, 1st Edition.
Van Der Zee, F. (2002) Anaerobic Azo Dye Reduction. PhD Thesis Wageningen
University, Wageningen, The Netherlands.
Van der Zee, F. P. and S. Villaverde (2005). Combined anaerobic-aerobic treatment
of azo dyes-A short review of bioreactor studies. Water. Res. 39, 1425–1440.
Vandevivere, P.C., R. Bianchi and W.Verstraete (1998) Treatment and reuse of
wastewater from the textile wet-processing industry review of emerging
technologies. J.Chem.Technol.Biotechnol. 72, 289-302.
Vasileva, M.G., I. Popov, D. Vasilev and Y. Topalova (2009) Isolation and
characterization of bacterial strain Azo29 capable of azo dye decolourisation.
Biotechnol.Biotechnol.23, 319-322.
Verma, P., and D. Madamwar (2003) Decolourisation of synthetic dyes by a newly
isolated strain of Serratia marcescens. World J. Microbiol. Biotechnol. 19,
615–618.
Verma, P. and D. Madamwar (2005) Decolourisation of Azo dyes using
Basidiomycete strain PV 002. World. J. Microbiol. Biotechnol. 21, 481–485.
Vimonses, V., S. Lei, B. Jin, C.W.K. Chow and C. Saint (2009) Kinetic study and
equilibrium isotherm analysis of Congo Red adsorption by clay materials.
Chem. Eng. J. 148, 354–364.
Von Mering, C., P.Hugenholtz, J. Raes, S.G. Tringe, T. Doerks, L.J. Jensen, N.
Ward and P.Bork (2007). Quantitative phylogenetic assessment of microbial
communities in diverse environments. Science. 315, 1126-1130.
Wagner, M., A.Loy, R. Nogueira, U. Purkhold, N. Lee and H. Daims (2002)
Microbial community composition and function in wastewater treatment
plants. Ant. Van. Leeuwen. 81, 665–680.
Wallace, T.H. (2001) Biological Treatment of Synthetic Dye Water and Industrial
Textile Wastewater Containing Azo Dye Compound. M.Sc. thesis. Black
bing, Virginia.
Bibliography 332
Wang, C.J., C. Hagemeier, N. Rahman, E.Lowe, M. Noble, M. Coughtrie,E. Sim
and I.Westwood (2007) Molecular cloning, characterisation and ligand-
bound structure of an azoreductase from Pseudomonas aeruginosa. J. Mol.
Biol. 373, 1213- 1228.
Wang, C.J., N. Laurieri, A. Abuhammad, E. Lowe, I. Westwood, A. Ryan and E.
Sim (2010) Role of tyrosine 131 in the active site of paAzoR1, an
azoreductase with specificity for the inflammatory bowel disease prodrug
balsalazide. Acta. Crystallograph. Section F. Struc. Biol. Crystal.Comm. 66,
2-7.
Wang, H., X.W. Zheng, J.Q. Su, Y. Tian, X.J. Xiong and T.L. Zheng (2009)
Biological decolourisation of the reactive dyes Reactive Black 5 by a novel
isolated bacterial strain Enterobacter sp. EC3. J Hazard Mater. 171,654–659.
Wanger, M. and A. Loy (2002). Bacterial community composition and function in
sewage treatment systems. Curr. Opin. Biotechnol. 13, 218–227.
Wesenberg, D., I. Kyriakides and S.N. Agathos (2003) White-rot fungi and their
enzymes for the treatment of industrial dye effluents. Biotechnol. Adv. 22,
161–187.
Wiesmann, U., I.S. Choi and E.M. Dombrowski (2007) Fundamentals of Biological
Wastewater Treatment. Wiley-VCH Verlag GmbH&Co. KgaA, Weinheim,
Germany.
Wijetunga, S., X.F. Li and C. Jian (2010) Effect of organic load on decolourisation
of textile wastewater containing acid dyes in upflow anaerobic sludge
blanket reactor. J. Hazard.Mater. 177, 792-798.
Wong, P. W., T.N. Teng, T. Rahman and N.N.Abdul (2007) Efficiency of the
Coagulation-Flocculation Method for the Treatment of Dye Mixtures
Containing Disperse and Reactive Dye. Water. Qual. Res. J. Canada. 42, 54-
62.
Wong, P.K. and P.Y. Yuen (1996) Decolourisation and biodegradation of Methyl
Red by Klebsiella pnumoniae RS-13. Water. Res. 30, 1736–1744.
Wong, Y. and J. Yu (1999) Laccase catalysed decolourisation of synthetic dyes.
Water. Res. 33, 3512-3520.
Bibliography 333
Wu, Q., X.H. Zhao and S.Y. Zhao (2006) Application of PCRDGGE in research of
bacterial diversity in drinking water. Biomed. Environ. Sci. 19, 371–374.
Yamada, T., Y. Sekiguchi, H. Imachi, Y. Kamagata, A.Ohashi and H. Harada (2005)
Localization, and physiological properties of filamentousmicrobes belonging
to chloroflexi subphylum I in mesophilic and thermophilic methanogenic
sludge granules. Appl. Environ. Microbiol. 71, 7493–503.
Yaneva, Z.L. and N.V. Georgieva (2012) Insights into Congo Red adsorption on
agro-industrial materials- special, equilibrium, kinetic, thermodynamic ,
dynamic and adsorption studies. A Review. Int. Rev.Chem. Eng. 4, 127-145.
Yang, G., He.Y. Yucai, Cai, Z., X. Zhao, L.Wang and L.Wang (2011) Isolation and
characterization of Pseudomonas putida WLY for Reactive Brilliant Red x-
3b decolourisation. Afr. J. of Biotech. 10, 10456-10464.
Yoo, E.S., J. Libra, J. L. Adrian (2001) Mechanism of decolourisation of azo dyes in
anaerobic mixed culture. J. Environ. Eng. Sci. 127, 844–849.
Young, H. and J. Yu (1997) Ligninax catalyzed decolourisation of synthetic dyes.
Water. Res. 31, 1187- 1193.
Yu, M. and W. Mohn (2001) Bacterial diversity and community structure in an
aerated lagoon revealed by ribosomal intergenic spacer analysis and 16S
rDNA. Appl. Environ. Microbiol. 67, 1565–1574.
Yumoto, I., T. Kusano, T. Shingyo, Y. Nodasaka, H. Matsuyama and H. Okuyama
(2001) Assignment of Pseudomonas sp. strain E-3 to Pseudomonas
psychrophilia sp. a new facultatively psychrophilic bacterium.
Extremophiles. 5, 343-349.
Yusuff, R.O. and J.A. Sonibare (2004) Characterization of Textile Industries’
Effluents in Kaduna, Nigeria and Pollution Implications.Global Nest. The
Int. J. 6, 212-221.
Zaharia C., C. Suteu and A. Muresan (2011) Options and solutions of textile
effluent Decolourisation using some specific physico-chemical treatment steps,
Proceedings of 6th International Conference on Environmental Engineering and
Management ICEEM’ 06, 121-122, Balaton Lake, Hungary, September 1-4.
Zaharia, C. and D. Suteu (2012) Textile Organic Dyes –Characteristics, Polluting
effects an Separation/Elimination Procedures from Industrial Effluents – A
Bibliography 334
Critical Overview. Organic Pollutants Ten Years after the Stockholm
Convention – Environmental and Analytical Update. 55-86.
Zaharia, C., D. Suteu, A. Muresan, R. Muresan and A. Popescu (2009) Textile
wastewater treatment by homogenous oxidation with hydrogen peroxide.
Environ. Eng. Manage. J. 8, 1359-1369.
Zaharia, C., M. Surpăţeanu, I. Creţescu, M. Macoveanu and H. Braunstein (2005)
Electrocoagulation/electroflotation – methods applied for wastewater
treatment. Environ. Eng. Manage. J. 4, 463-472.
Zahiruddin, S.B. and M. Kandasamy (2013) Phytotoxicity analysis of Textile
effluent and relative Germination studies on dicot seeds. Int. J.
Res.Chem.Environ. 3, 155-162.
Zhang, F., A. Yediler, X. Liang and A. Kettrup (2004) Effect of dye additives on the
ozonation process and oxidation by-products: a comparative study using
hydrolyzed C1 Reactive Red-120. Dyes Pigments. 60, 1-7.
Zhang, T., S.Z. Ke, Y. Liu and H.P. Fang (2005) Microbial characteristics of a
methanogenic phenol-degrading sludge. Water. Sci. Technol. 52, 73–82.
Zhao, X. and I. Hardin (2007) HPLC and spectrophotometeric analysis of
biodegradation of azo dyes by Pleurotus ostreatus. Dyes Pigments. 73, 322-
325.
Zimmermann, T., F. Gasser, H.G. Kulla and T. Leisinger (1984) Comparison of two
azoreductases acquired during adaptation to growth on azo dyes. Arch.
Microbiol. 138, 37 – 43.
Zimmermann, T., H.G. Kulla and T. Leisinger (1982). Properties of purified orange
II azoreductase, the enzyme initiating azo dye degradation by Pseudomonas
KF46. Euro. J. Biochem. 129, 197 – 203.
Zollinger, H. (1987) Colour Chemistry-Synthesis, Properties and Application of
Organic Dyes Pigments. 92–100. VCH publishers, New York.
Zvezdelina, L., Y.Nedyalka, Y. V. Georgieva (2012) Insights into Congo Red
Adsorption on Agro-Industrial Materials -Spectral, Equilibrium, Kinetic,
Thermodynamic, Dynamic and Desorption Studies-A Review’, Int. Rev.
Chem. Eng. 4,127- 145.
Bibliography 335
Zwart, G., B.C. Crump, M.P. Van Agterveld, F. Hagen and S.K. Han (2002) Typical
freshwater bacteria: an analysis of available 16S rDNA gene sequences from
plankton of lakes and rivers. Aquat. Microb. Ecol. 28,141–155.
Bibliography 336
WEBLINKS
• http://business.mapsofindia.com/indiaindustry/ textile.html.
• http://crdd.osdd.net/open/962/1/jain2004.1.pdf Microbial Diversity: Exploring
the Unexplored Manisha Kapur and Rakesh Kumar Jain.
• http://sameeeksha.org/pdf/dpr/PAL_TXT10.pdf (for stenter matter)
• http://textilelearner.blogspot.in/2013/06/effluent-treatment-plant-
process.html (details about an ETP)
• http://www.cseindia.org/userfiles/CSE_palireport2006.pdf (Bandi river)
• http://www.endmemo.com/chem/massmolarconcentration.php
• http://www.fibre2fashion.com/industry-article/1/11/an-analysis-of-growth-
and-development-of-textile-industry-in-india7.asp (Tamil Textile)
• http://www.graphpad.com/quickcalcs/Molarityform.cfm.
• http://www.rpcb.rajasthan.gov.in/rpcbweb/soer/Industry_Sector_4.pdf
• http://www.intechopen.com Organic Pollutants Ten Years After the
Stockholm Convention – Environmental and Analytical Update 84.
• http://www.intechopen.com Organic Pollutants Ten Years after the
Stockholm Convention – Environmental and Analytical Update 86.
• http://cdn.intechopen.com/pdfs-wm/29369.pdf-Textile Organic Dyes –
Characteristics, Polluting Effects and Separation/Elimination Procedures
from Industrial Effluents – A Critical Overview.
• (webserver.mbi.ufl.edu/˜shaw/ammonium.htm).