REFERENCES
REFERENCE
Abel, P. D (1974). Toxicity of synthetic detergents to fish and aquatic
invertebrates. Journal of Fisheries Biology. 6: 279-298.
Abdel, Hamid (1986). M1: Ecological studies on the algal populations of
Damietta branch and their use as water pollution indicators. MSc
Thesis, Botany Department. Faculty of Science M.Uni Egypt.
Adec, A., Bandyopadhay, M and Pal, A (2005). Removal of anionic
surfactant from wastewater by alumina a case study.
Physiochemical Engineering. 245: 165-171.
Ainsworth, S. J (1992). Soaps and detergents. Chemistry Engineering
News. 20: 27–63.
Amund, O. O., Ilori, M. D. and Deletundun, F. R (1997). Degradation of
commercial detergent products by microbial populations of the
La0-gos Logoon. Folia microbiology. 42 (4): 353- 356.
Ana-Maria, Tanase, Cristina Trasca., Tatiana vassu., Alexandru,
Olteanu., Diana pelinescu., Ortansa csutak., Ionescu robertina
and Ileana, Stoica (2009). .Phylogenetic Analysis on 16S
Ribosomal DNA of Pseudomonas Strains from Oil Polluted Soil.
Romanian Society of Biological Sciences. 14 (6): 4779-4785
Anderson, D. J., Day, M. J., Russell, N. J and White, G. F (1989).
Temporal and Geographical Distributions of epilithia Sodium
dodecyl sulfate Degrading bacteria in a polluted south Wales
River. Applied and Environmental Microbiology. 54:555-560.
Anderson, D. J., Day, M. J., Russell, N. J. and White, G. F (1990). Die-
away kinetic analysis of the capacity of epilithic and planktonic
162
bacteria from clean and polluted river water to biodegrade sodium
dodecyl sulfate. Applied Environmental Microbiology .56:758–63.
Andrew, J. Ellis., Stephen, G. Hales., Naheed. G. A., Ur-Rehman.,
Graham. F. White., Payne, W. J and Feisal, V. E (2002). Novel
alkyl sulphatases required for biodegradation of the branched
primary alkyl sulphatase surfactant, 2- Butyl octyl sulphate. Applied
Microbiology. 68 :31-36.
APHA, AWWA and WPCF (1989) .Standard methods for the examination
of water and wastewater. 17th ed. USA.
Asok, A. K., Rebello, S and Jisha, M. S (2009). Linear alkylbenzene
sulfonate (LAS) - Toxicity study & it’s bioremediation. Proceedings
of 21st Kerala Science Congress.
Augier, H (1991). Impact of detergents on environment. Rev. Int.
Oceanography Med. 101: 236-243.
Batholomew, B., Dodgson, K. S and Gorham, S. G (1978). Purification
and properties of the S1 secondary alkyl sulphohydrolase of the
detergent degrading microorganism. P seudomonas C12B.
Biochemistry Journal. 169:659-667.
Barbieri, E., Phan, N. G and Gomes, V (2000). Effect of low
concentration of sodium dodeyl sulphate on aquatic organisam
Cyprinus carpio. Ecotoxicology and Environmental Restoration .3
(2): 69-75.
Bellas, J., Beiras, R., Marino- Balsa, J. C and Fernandez, N (2005). Toxicity
of organic compounds to marine invertebrate embryos and larvae: a
compsarison between sea urchin embryogrnesis bioassay and
alternative test species.Ecotoxicology.14(3): 337-53.
References 163
Bhatia, M., Singh H.D (1996). Biodegradation of commercial linear alkyl
benzenes by Nocardia amarae. Journal of Bioscience. 21. 487-496.
Boronin, A. M., Naumova, A. V., Grishchenkov, V. G and Ilijinskaya, O. N
(1984). Plasmids specifying e-caprolactam degradation in
Pseudomonas strains. FEMS Microbiology Letters. 22 :167 -170
Bromange, N.R and Fuchs, A (1976). A histological study of the response
of the internal cells of the gold fish to the treatment with SLS.
Journal Fisheries Biology. 9 : 529-535.
Bucke, C (1987). in K. Mosbach (Ed.) Methodsin enzymology. Vol. 135,
Academic press, Orlando. 175.
Cain, R. B (1981). Microbial degradation of surfactants and builder
components. In microbial degradation of Xenobiotics and
Recalcitrant compounds. FEMS synopsium Edited by T.
Leisinger, R. Hutter, A.M.Cook and J. Niieseh Londan: Academic
press. 12: 325-370.
Chakrabarty, A. M (1972). Genetic basis of the biodegradation of salicylate
in Pseudomonas. Journal of Bacteriology. 112: 815-823.
Chakrabarty, A.M (1976). Plasmids in Pseudomonas. Ann. Rev. Genet.
10:7-30.
Chikyu, Ahn., Young, M., Kim., Seung, H. W. and Jong M (2009).
Removal of cationic Heavy Metal and HOC from soil-washed
water using Activated Carbon. World Academy of Science,
Engineering and Technology. 49: 135-139.
Chukwu, L. O. and Odunzeh, C. C (2006). Relative toxicity of spent
lubricant oil and detergent against benthic macro-invertebrates of
164
a West African estuarine lagoon. Journal of Environmental
Biology. 27: 479-484.
Chunlong, Zhang., Kalliat, T., Valsaraj., W. David Constant and Dipak
Roy (1998). Aerobic biodegradation kinetics of four anionic and
non-ionic Surfactants at Sub and Supra-critical micelle
concentrations. Water Resource. 33 (1) : 115-124.
CIR publication (1983). Final Report on the Safety Assessment of
Sodium Lauryl Sulfate and Ammonium Lauryl Sulfate. Journal of
the American College of Toxicology. 2 (7): 127-181.
Claus, G. W. and Balkwill, D (1989). Understanding microbes: a
laboratory textbook for microbiology. NY: Freeman and company.
Cloves, J. M. Dodgson, K. S. White, G. F and Fitzgerald, J. W (1980).
Specificity of P2 primary alkyl sulphohydrolase induction in the
detergent degrading bacterium Pseudomonas 12B. Biochemistry
Journal. 185:23-31.
Corby, Lee., Nicholas, J., Russell and Graham, F. white (1998).
Development and validation of Laboratory microcosms for anionic
surfactant biodegradation by riverine biofilms. Water Research.
22 (8): 2291-2298.
Cserháti, T., Forgács, E and Oros, G (2002). Biological activity and
environmental impact of anionic surfactants. Environmental
International. 28: 337-348.
Da, Ros, L., Nasci, C., Campesan, G., Sartorello, P.,Stocco, G and
Menetto, A (1995) Effects of linear alkylbenzene sulphonate
(LAS) and cadmium in the digestive gland of mussel, Mytilus sp.
Marine Environmental Research. 39: 321-324
References 165
Denger, K. and Cook, A, M (1997). Assimilation of sulfur from alkyl- and
arylsulfonates by Clostridium spp. Archives of Microbiology.
167(2-3): 177-81.
Denner, W.H.B., Olavesen, A. H., Powell, G.M and Dodgson, K. S
(1969). The metabolisam of potassium dodecyl sulphate in the
rat. Biochemical Journal.111: 43-51.
Deshpande, N.M., Dhakephalkar, P.K and Kanekar, P.P (2001). Plasmid
mediated dimethoate degradation in Pseudomonas aeruginosa
MCMB – 427. Letters in Applied Microbiology. 35: 275-279.
Deschenes, L., Lafrance, P., Villeneuve, J.-P. and Samson (1996).
Adding sodium dodecyl sulfate and Pseudomonas aeruginosa
UG2 biosurfactants inhibits polycyclic aromatic hydrocarbon
biodegradation in a weathered creosote-contaminated soil.
Applied Microbiology and Biotechnology. 46: 638-646.
Dhouib, A., Hamad, N. and Hassairi, I (2003). Degradation of anionic
surfactant by Citrobacter brakki.Process Biochemistry.38:1245-
1250.
Di Corcia, A., Samperi. R and Marcomini, A (1994). Monitoring aromatic
surfactants and their biodegradation intermediates in raw and
treated sewages by solid-phase extraction and liquid
chromatography. Environmental Science and Technology. 28:
850-858.
Dick, S.G., Fuerstenau, D.W and Healy, T.W (1999). Adsorption of
Alkylbenzene Sulphonate Surfactants at the Alumina–Water
Interface. J. Colloidial Interface Science. 37: 595–602.
166
Dodgson, K. S (1961). Determination of inorganic sulphate in studies on
the enzymatic and non enzymatic hydrolysis of carbohydrates and
other sulphate esters.Biochemistry Journal .138:53-62.
Dodgson, K.S., Fitzgerald, J. W. and Payne, W. J (1974) .Chemically
defind inducers of alkyl sulphatases present in Pseudomonas
C12B. Biochemical Journal. 138: 53-62.
Dodgson, K.S (1981) Observations on enzyme systems involved in the
biodegradation of anionic Surfactants. In M.Kageyammaled.
Science and Scientists; essays by biochemists, biologists and
chemist. Japan. Scientific societies press, Tokyo.
Dodgson, K S., White, G. F., Fitzgerald, J. W (1982). The alkyl
sulfatases. In Sulfatases of Microbial origin 19-48. Boca Raton:
CRC Press.
Dodgson, K. S and White, G. F (1983) .Alkyl sulphatase enzyme. Top.
Enzyme fermentation Biotechnology . 7: 90-155.
Drewa, G (1988) The effect of detergent ABS on shrimp Crangon
crangon L. Polskie archieal hydrobiology. 35 (1): 97-108.
Eichhorn, P and Knepper, T. P (2000) .Studies of the non-ionic surfactant
aldylglucamide by liquid chromatography/ mass specronetry.
Journal mass spectrum. 34 : 468 – 475.
Echrhard, H, M and Rehm, H., J (1989). Semicontinuous and continuous
degradation of phenol by Pseudomonas putida P8 adsorbed on
activated carbon.Applied microbiology and Biotechnology. 30: 312-
317.
Esikova, T. Z., Grishchenkov, V.G and Boronin, A. M (1990). Plasmids
that control caprolactam biodegradation. Microbiology.4: 547-552
References 167
Feitkenhaner, H and Meyer, U (2002). Anaerobic digestion of alcohol
sulfate rich wastewater batch experiment. Part I. Influence of the
sludge loading. Bioresource Technology. 82:115-121.
Feitkenhaner, H. and Meyer, U (2002)., Anaerobic digestion of alcohol
sulfate rich wastewater batch experiment. Part II influence of the l
hydrophobic chain length. Bio resource Technology. 82: 123-129.
Fitzgerald, J. W. and Kight, L. C (1977). Physiological control of alkyl
sulphatase synthesis in Pseudomonas aeruginosa .Effects of
glucose, glucose analog and sulphur. Canadian journal
microbiology. 23: 1456 -1464.
Gadler, P. and Faber, K (2007). New enzymes for biotransformations:
microbial alkyl sulfatases displaying stereo- and enantioselectivity.
Trends.Biotechnology. 25(2): 83-8.
Gledhill, W. E (1974). Linear alkylbenzene sulfonate, biodegradation and
aquatic interactions. Advance Applied Microbiology. 17: 265-293.
Grishchenkov, V. G., Aminov, R. I. and Boronin, A. M (1993). Competitive
interactions in mixed cultures of isogenic strains Pseudomonas
putida BS394 carrying various natural plasmids of caprolactam
utilization. Microbiology. 62 :460-468.
Hales, S. G., Dodgson, K. S., White, G. F., Jones N and Watson K. G
(1985). Initial stages in the biodegradation of the surfactant
sodium dodecyl triethoxy sulphate by Pseudomonas sp. strain
DES1. Applied Environmental Microbiology. 44 : 790-800.
Hana, Jerabkova., Blanka, Kralova and Josef, Nahlik (1999). Biofilm of
Pseudomonas C12B on glass support as catalytic agent for
168
continuous SDS removal. International Biodegradation and
Biodeterioration. 44: 223-241.
Hansen, B., Fotel, F.L., Jensen, N. J. and Wittrup, L (1997). Physiological
effects of the detergent linear alkylbenzene sulphonate on blue
mussel larvae (Mytilus adulis) in laboratory and mesocosm
experiments. Marine Biology. 128:627-637.
Hayashi, K (1975 ). A rapid determination of SDS with methylene blue.
Analatical Biochemistry. 67:503-506.
Hebes,S. E and Schwall, I. R (1987). Microbial degradation of polycyclic
aromatic hydrocarbons in pristine and petroleum contaminated
sediments. Applied Environmental Microbiolgy. 35: 306-316.
Helenius, A. and Simons, K (1975). Solubilization of membranes by
detergents. Biochim.Biophys. Acta.415: 29-79.
Holt, J. G., Krieg, N. R., Sneath, P. H. A., Staloj, J. T. and Williams, S. T
(1994). Bergey’s Manual of Determinative Bacteriology- 9th Ed.
Williams and Wilkins. Baltimore/London.
Hosseini, F., Malekzadeh, F., Amirmozafari, N and Ghaemi, N (2007).
Biodegradation of anionic Surfactants by isolated bacteria from
activated sludge, International Journal of Environmental Science
and Technology. 4:127-132.
Hosseini Farzaneh., Malekzadeh Fereidon., Amirmozafari Noor and
Ghaemi Naser (2010). Bioodegradation of dodecylbenzene
sulfonate sodium by Stenotrophomonas maltophilia Biofilm
.African journal of biotechnology.9 (1): 55-62.
Hryhoryeva, L. V (1976). Effect of new detergents on bacilli and yeast like
fungus of genus Candida. KIEV. 38: 351.
References 169
Hsu,Y. C (1965). Detergent splitting enzyme from Pseudomonas. Nature
(London) 207: 385-388.
Huang, B.Q and Wang, D.Y (1994). Effects of linear Alkylbenzene
sulfonate (LAS) on the respiratory functions of tigerperch
(Terapon jurbua). Zoology Studies. 33: 205-210.
Isobe, K.O., Zakaria, M.P., Chiem, N.H., Minh, L. Y., Prudente, M.,
Boonyatumanond, R., Saha, M., Sarkar, S and Takada, H (2004).
Distribution of linear alkylbenzene (LABs ) in r iver ine and coastal
environmentals in South and Southeast Asia. Water Research.
38: 2449-2459
Janosch, Klebensberger., Oliver, Rui., Eva, Fritz., Bernhard, Schink and
Bodo Philipp (2006). Cell aggregation of Pseudomonas aeruginosa
strain. PAOI as an energy dependent stress response during
growth with SDS. Arch Microbiolgy.. 185: 417-427.
Jan, Kostal., Miloslave, Suchanek., Hana, Klierova., Katerina,
Demneroa., Blanka, Kralova., Dani,L and McBeth(1998).
Pseudomonas C12B, an SDS degrading strain, harbors a plasmid
coding for degradation of medium chain length n-alkanes..
International Biodeterioration and biodegradation. 42: 221-228.
Jayachandran, K., Suresh, P.V and Chandrasekaran, M (1994). A novel
Acinetobacter sp. for treating highly acidic rubber latex
centrifugation effluent.Biotechnology letters.16(6):649-654.
Jean-Claude., Sigoillot, Marie and Helene, Nguyen (1990 ).Isolation and
characterization of surfactant egrading bacteria in a marine
environment. FEMS Microbiology Ecology. 73 :59-68.
170
Jerabkova, H., Blanka, K and Nahlik, J (1999). Biofilm of Pseudomonas
C12B on glass support as atalytic agent for continuous SDS
removal. International Biodeterioration Biodegradation. 44 : 233-241.
Jhon, J. Morelli and Gerald, Szajer (2000). Journal of surfactants and
detergents. Analysis of surfactants and detergents.3 :539-552.
Jimenez, L., Breen, A and Thomas, N (1991). Mineralization of linear
alkylbenzene sulfonate by a four-member aerobic bacterial
consortium. Applied Environmental Microbiology. 57: 1566-1569.
Juker, E., Leisinger, T and Cook, A.M (1994). 3-Sulphocatechol
2,3dioxygenase and others in the degradative pathways of 2-
aminobenzenesulphonic and 4-toluenesulphonic acids in
Alcaligenes SP Microbioliology. 140 : 1713-1722.
Julian, R. Marchesi., Sarah, A. Owen., Graham, F. White., Alan House and
Nicholas J Russell (1994). SDS-degrading bacteria attach to
riverine sediment in response to the surfactant or its primary
biodegradation product dodecanol. Microbiology. 140: 2999-3006.
Kado ,C .I and Liu.,S.T.J (1981). Rapid procedure for detection and
isolation of large and small plasmids. Journal of bacteriology.145 :
1365-1373.
Kahnert, A and Kertesz, M.A (2000). Characterization of a sulfur-
regulated oxygenative alkylsulfatase from Pseudomonas putida
S-313. J ournal of Biological Chemistry .275(41): 31661-7.
Kertesz, A., Kolbener, P., Stockinger, H and Beil, S (1999) .
Desulfonation of l inear alkylbenzene sulfonate and related
compounds by bacteria. Applied and environmental
Microbiology. 60: 2296-2303.
References 171
Khaled, M. Khleifal (2006). Biodegradation of SLES by two different
bacterial consortia .Current microbiology. 53: 444-448.
Kierstan, M., P., J. and Coughlan, M. P (1985). In: J.Woodward(ed.)
Immobilized cell and enzymes,. p43. A practical Approch, IRL,
Oxford (press).
Klebensberger, J., Rui, O., Fritz, E., Schink, B. and Philipp, B (2006). Cell
aggregation of Pseudomonas aeruginosa strain PAOI as an
energy-dependent stress response during growth with sodium
dodecyl sulfate. Archives of Microbiology. 185: 417-427.
Koch,B., Osterman,Hoke,H and Hempel,D .C ( 1991) .Sand and activated
carbon as biofilim carriers for microbial degradation of phenol and
nitrogen containing aromatic compouns.Water research. 25 : 1-8.
Kowalsaka, I., Kabsch-Korbutowicz, M., Majewska-Nowak, K. and Winnicki,
T(1991). Separation of anionic surfactants on ultrafiltration
membranes.Desalination.162 : 33-40 .
Kramer,V.C.,Calabrese,D.M and Nickerson, K. W (1980). Growth of
Enterobacter cloacae in the presence of 25% sodium dodecyl
sulphate. Applied Environmental Microbiology. 40(5): 973-976.
Krishna Murthy, S (1986) . Soil adsorption of LAS. Journal of American
Soil Science Society . 50:685.
Kulkarni, R.S., Kanekar, P.P (1998). Effects of some curing agents on
phenolypic stability in Pseudomonas putida degrading -
caprolactam. World Journal of Microbiology and Biotechnology.
14: 255-257.
172
Kumar, M., Trivedi, S.P., Misra. A and Sharma, S (2007).
Histopathological changes in testis of the freshwater fish,
Heteropneustes fossilis (Bloch) exposed to linear alkyl benzene
sulphonate (LAS). Journal of Environmental Biology. 28: 679-684.
Kusum ,Lata ,Singh., Arvind, Kumar and Ashok, Kumar (1998) .Bacillus
cereus capable of degrading SDS shows growth with a variety of
detergents. Wolrd J. of Microbiology & Biotechnology. 14 : 7777-
7779.
Lee, N., Hwang, M., Jung, G., Kim, Y and Min, K (1996). Physical
structure and expression of alkBA encoding alkane hydroxylase and
rubredoxin reductase from Pseudomonas maltophilia. Biochemical
and Biophysical Research Communications. 218: 17-21.
Leveque, J.L., J, de. Rigal., Saint-Leger, D and Billy, D (1993 ). How
does sodium lauryl sulphate alter the barrier function in man? A
multiparametric approach. Skin Pharmacology. 6: 111-115.
Lewis, M.A and Suprenant, D (1983). Comparative acute toxicities of
surfactants to aquatic invertebrates. Ecotoxicology Environmental
Safety. 7: 313-322.
Lewis, M.A (1991). Chronic and sublethal toxicities of surfactants to
aquatic animals: A review and risk assessment. Water Research.
25: 101-113.
Lewis, M. A (1992). Review paper: The effects of mixtures and other
environmental modifying factors on the toxicities of surfactants to
freshwater and marine life. Water Research. 26: 1013-1023.
References 173
Li, M.H (2008). Effects of nonionic and ionic surfactants on survival,
oxidative stress and cholinesterase activity of planarian.
Chemosphere. 70: 1796-1803.
Lipnitskaya, G.P., Parshikova,T. V. and Topalova,E.K (1989 ).The effect
of sodium dodecyl sulfate on the growth of Chlorella and
Microcystis in culture.Gidrobiol.Zh.25(2):63-6.
Liwarska, E and Bizukojc, M (2006). Effect of selected anionic
surfactants on Activated sludge flocs. Enzyme Microbioliogy
Technology. 33: 1-9.
Madhyastha, M. N. and Nayak, R. R (1979). Bioassay studies with SLS
with reference to certain haematological parameters of Rasbora
Daniconius. Proc. Symp. Environmental Biology. 7: 327-336.
Maggs, J. l., Dodgson, K. S., Howes, D., Black, J. G and Olavesen, A.H
(1982). Metabolisam in the rate of potassium DL Octan-2-
Sulphate,a secondary alkyl sulphate.Xenobiotica.12 :101-109.
Malagrino, W., Pereira, N and Rocha, A. A (1987). Effect of surfactants
on natural communities. Ambiente. 1: 99-101.
Marchesi ,J .R .,Owen , S. A., White, G .F ., House ,W .A and Russell, N
.J (1994). SDS degrading bacteria attach to riverine sediment in
response to the surfactant or its primary biodegradation product
dodecan-1-ol. Microbiology.140: 2999–3006.
Marin, M. G., Pivotti, L., Campesan, G., Turchetto, M and Tallandini, L
(1994). Effects and fate of sediment-sorbed linear alkylbenzene
sulfonate (LAS) on the bivalve mollusc Mytilus galloprovincialis.
Water Research . 28 (1):85-90.
174
Mariani, L. D., De, Pascale., Faraponova, O., Tornambe, A., Sarni, A.,
Giuliani, S., Ruggiero, G., Onorati, F. and Magaletti E (2006).
“The use of a test battery in marine ecotoxicology: The acute
toxicity of sodium dodecyl sulfate”, Inc. Environmental Toxicology.
21: 373-379.
Marshall, S. J., House, W. A. and White, G .F (2000). Role of natural
organic matter in accelerating Bacterial Biodegradation of Sodium
dodecyl sulfate in rivers.Environmental Science technology. 34:
2237-2242.
Matcham, G.W.J., Bartholomew, B., Dodgson, K S., Fitzgerald, J.W. and
Payne, W. J (1977). SDS degrading organisams. FEMS Microbiol.
Lett.1: 197-200.
Mateja, Pogorev and kurt, faber (2003). Purification and characterization
of an inverting strew and Enantioselective sec- Alkyl sulfatase
from the gram-positive Bactrerium Rhodococcus rubber DSM
44541. Applied and Environ. Microbiology. 69 (5): 2810-2815.
Mathru, A.K and Gupta, B. N (1998). Detergent and cosmetic technology.
Indian Journal of Environmental protection.18 (2):90-94.
Matthew, J. S and Malcom, N.J (2000). The biodegradation of surfactants
in the environment. Biochemical Biophysica Acto. 1508: 235-251.
Miller, J.N and Miller. J. C ( 2000). Statistics and Chemometrics for
Analytical Chemistry, (4th Edn.), Prentic, Hall, Harlow, England .
Mitali, Sarker., Mahadeb, Das., Samitha, Manna and Pradip ,Acharya
(2000 ). Removal / Reduction of organic pollutions from Aqueous
environment middle Pomeranian scientific society of the
Environment Protection.34:80-85.
References 175
Mortazavi, S. B. Khavanin, A., Moussavi, G, and Azhdarpoor (2008 ). A
Removal of Sodium dodecyl Sulfate in an intermittent Cycle
Extende geration System. Pakistan Journal of Biological Science.
11(2): 290-293.
Morita, R.Y and Fletcher, G.D (1985). Floodgate (Eds.), Bacteria in their
Natural Environments, Academic Press, London, p.111.
Morita, R. Y (1988). Bacteria in their Natural Environments.11. Canadian
Journal Microbiol ogy .34:436.
Mozia, S., Tomaszewska, M. and Morawski,K (2005 ).Decomposition of
nonionic surfactant in a laby-rinth flow photoreactor with
immobilized TiO2 bed. Applied catalyst Environ.59:155-160.
Muayad, M Abboud., Khaled, Khleifat , M., Mufeed, Batarseh., Khaled .,
Tarawneh. A., Ahmed Al-Mustafa and Maali Al-Madadhah (2007).
Different optimization conditions required for enhancing the
biodegradation of linear alkylbenzosulfonate and sodium dodecyl
sulfate surfactants by novel consortium of Acinetobacter
calcoaceticus and Pantoea agglomerans. Enzyme and Microbial
Technology .41 : 432-439.
Muramato, S (1988). Effects of surface active agents on the salinity
tolerance of water hyacinth (Eichornia crassipes). Journal of
Environmental Science. Health, Part A, A23(6):603-11.
Muyima, Y. O. and Clorte, T. E (1995). Growth and uptake of immobilized
Acinetobacter cells suspended in activated sludge mixed
liquor.Water research.29: 2461-2466.
176
Nand, Lal and Richa, Mishra (2003). Effect of synthetic detergents on
germination parameters, seedling growth and photosynthetic
pigments in Mungbean (Vigna radiata) seedlings. Pollution
Research. 3 (3) : 335-337.
Nasirudhin, M. and Uzva,Z (2005). Sand sorption process for removel of
sodium dodecyl sulphoate from water.Hazard matter.33:1-7.
Nicolotti,G., Rettori,A., Paoletti,E and Gullino,M.L (2005 ).Morphological
and Physiological damage by surfactant polluted sea spray on
Pinus pinea and Pinus halepensis. Environmental monitoring and
assessment.105 (1-3): 175-191.
Nikaido, H. and Vaara,M (1985).Molecular basis of bacterial outer
membrane permeability. Microbiol Rev 49:1-32.
Nystrom, T., Albertson, N.H., Flardh, K and Kjelleber, S( 1989 ).Effect of
starvtion on photosynthesis and genetic regulation. FEMS
microbial Ecology . 74 : 129.
Olusola, Abayomi, Ojo., Benjamin and A. Oso (2009). Isolation of
pasmid-DNA from synthetic detergent degraders in wastewater
from a tropical environment. African Journal of microbiology
Research.3(3) :123-127.
Olusola, A .Ojo., Benjamin and A. Oso (2009).Biodegradation of synthetic
detergents in waste water. African Journal of Biotechnology.8(6):
1090-1109.
Ogbulie, T.E., Ogbulie, J. Nn., Umezuruike, I ( 2008) .Biodegradation of
detergents by aquatic bacterial flora from Otamiri River, Nigeria.
African J. Biotechnol., 7, 824-830.
References 177
Ostroumov, S.A (2003). Studying effects of some surfactants and
detergents on filter feeding bivalves. Hydrobiologia. 500(1-3):
341-344.
Ostroumov, S. A. and Widdow, S. J (2006). Inhibition of mussel
suspension feeding by surfactants of three classes.
Hydrobiologia.556: 381-386.
Owen R. T. Thomas and Graham F. white (1991). Immobilization of the
surfactant degrading bacterium Pseudomonas C12B in
Polyarcylamide gel. Enzyme microbial Technology. 13: 338-343.
PAN (Pesticides Action Network) (2005). PAN Pesticides Database -
Pesticide Registration Status: Sodium Lauryl Sulfate.
Paritosh Das Purakayastha., Anjali Pal and Manas, Bandyopadhyay
(1981). Sorption of anionic surfactants on a fixed bed of rubber
granules. International Journal of Environment and Pollution.195:
421-429
Patterson, S. J., C. C. Scott., 1970. and K. B. E. Tucker (1970). Nonionic
detergent degradation. III. Initial mechanism of the degradation.
Journal of American Oil Chemistry Society. 47:37-41.
Paul J Mattis., Graham F. White and William J Payne (1994). Purification
and characterization of the short chain alkyl sulphatase of
Coryneform B1a. Biochemistry Journal. 304:937-943.
Payne, W. J (1963a). Pure culture studies of the degradation of detergent
compounds. Biotechnology Bioengineering .5: 355-365.
Payne, W. J. and Feisal, V. E (1963 b). Bacterial Utilization of Dodecyl
Sulfate and dodecyl benzene sulfonate. Industrial Engineering
Chemistry. 45: 239-344.
178
Payne ,W. J., Williams, J. P. and Mayberry, W. R (1965). Primary alcohol
sulphatase in a Pseudomonas species.Applied Microbiology.13:
698-701.
Payne, W. J (2004). Pure culture studies of the degradation of detergent
compounds.Biotechnology Bioengineering .5: 355-365.
Petrea, V (1979). Effect of sodium dodecyl sulfate of polluted water on
some physiological processes in the algae Chlorella vulgaris.
Rev. Roum. Biol., Ser. Biol. Veg.24 (1): 39-41.
Petterson, S. J., Scott., C. C and Tucker., K.B. E ( 2000 ). Nonionic
detergent degradation. I. Thin layer chromatography and foaming
properties of alcohol. Journal of American Oil Chemcal Society.
47:37-41.
Pitcher, D.G., Saunders, N.A and Owen, R.J (1989). Rapid extraction of
bacteria DNA with guanidium thiocyanate. Letters in Applied
Microbiology . 8: 151-156.
Rajagopal,S., Sudarsan,N., Nickerson, K. W (2002).Sodium dodecyl
sulfate hypersensitivity of clpP and clpB mutants of Escherichia
coli . Applied Environmental Microbiology. 68:4117-4121.
Rocha, A.J., Gomes., V. , Ngan., P.V. , Passos., M.J and R.R. Furia
(2007). Effects of anionic surfactant and salinity on the
bioenergetics of juveniles of Centropomus parallelus (Poey).
Ecotoxicology Environmental Safety. 63: 397-404.
Roig, M,G ., Dedraz, M ,A and Sanchez, J M (1998). Sorption isotherms
and kinetics in the primary biodegradation of aionic surfactants by
immobilized bacteria, Pscudomonas C12B. Journal of molecular
catalysis B : Enzymatic. 4: 253-270
References 179
Roig, M.G., M.A. Pedraz., J.M. Sanchez., J. Huska and D. Toth (1998).
Sorption isoterms and kinetics in the primary biodegradation of
anionic surfactants by immobilized bacteria, II Comamonas
terrigena N3H. journal of molecular catalysis B : Enzymatic. 4 :
271-281.
Rosen, M., F. Li., S.W and Morrall (2001 ). The relationship between the
interfacial properties of surfactants and their toxicity to aquatic
organisms. Environmental Science Technology. 35:954-959.
Rosety, M., Rosety, I., Frias., L., Rosety., J. M., Ordoñez., F.J. and
Rosety-Rodríguez., M ( 2007 ). Lipid peroxidation was associated
to the impairment of the fertilizing capability of gilthead sperm
exposed to surfactants. Histol. Histpathology.22: 869-872.
D. Roy (1988). “Toxicity of an anionic detergent, dodecylbenzene sodium
sulfonate, to a freshwater fish, Rita rita: determination of LC50
values by different methods”. Ecotoxicology Environmental
Safety.15: 186-195.
D. Sales, J. A., Perales, M. A., Manzano and J. M. Quiroga(1999).
Anionic surfactant biodegradation in seawater. Bol. Inst. Esp.
Oceanography. 15 (1-4): 517-522.
Savitsky, A.C., Wiers, B.H and Wendt, R. H (1981). Adsorption of
Organic Compounds from Dilute Aqueous Solutions onto the
External Surface of Type A Zeolite. Environmental Science
Technology. 15: 1191–1196.
Sawyer, C.N., Bogan, R.H and Simpson, J.R (1956). Biochemical
behavior of synthetic detergents. Ind. Eng. Chem. 48: 236-240.
180
Schleheck, D., Dong, W and Denger, K (2000). An Alphaproteobacterium
converts linear alkyibenzene sulfonate into sulfophenylcarboxylates
and linear alkyldiphenyletherdisulfonate surfactants into
sulfodiphenylethercarboxylat.es., Applied Environmental Microbiology.
66: 1911-1916.
Schleheck, D., Lechner M. and Schonenberger, R (2003). Desulfonation of the-
disufodiphenylethercarboxylatcs from alkyldiphenyletherdisulfonate
surfactants., Applied Environmental Microbiology. 69: 938-944.
Schewnger, N. J (1970 ). Surfactant adsorption by activated carbon in the
range of low surfactant concentration. Chemical Abstract. 73:
101825
Scholz, W and Fuchs, W (2000). Treatment of oil contaminated
wastewater in a membrane bioreactor. Water Research. 34(14):
3621-29.
Schulz, S and Dong, U ( 2000 ). Enantimetric degradation of 2-, (4-
sulfophenyl) butyrate via 4-sulfocatechol in Delftia acidovorance
SPB1., Applied Environmental Microbiology. 66 : 1905-, 1910.
Shahid, M and Malik, A (2004). Plasmid mediated amikacin resistance in
clinical isolates of Pseudomonas aeruginosa. Indian Journal of
Medical Microbiology. 22(3): 182-184.
Shalaby, M. N. and El-Feky, A. A (1999). Adsorption of Nonionic
Surfactant from Its aqueous Solution onto Commercial Rubber. J.
Dispersion Sci. Technol. 20(5): 1389–1406.
Sheng, H., Chi, M and Horng G (1999).Operating characteristics and
kinetic studies of surfactant wastewater treatment by fenton
oxidation. Water research. 33 (7):1735-41.
References 181
Siegele, D.A. and Kolter, R (1992) .Effect of starvation on metabolic
activity.Journal Bacteriology. 174:345.
Sigoillot, J., C and Nguyen, M, H (1992). Complete oxidation of linear
alkylbenzene sulfonate by bacterial communities selected from
coastal seawater. Applied Environmental Microbiology 58(4):
1308-12 (1992).
Sigoillot, J. C. and Nguyen, M (1990 ). Isolation and characterization of
surfactants degrading bacteria in a marine environment. FEMS
Microbology Ecology. 73 :59-68.
Singer, M.M and Tjeerdema, R.S (1993). Fate and effects of the
surfactant sodium dodecyl sulfate. Reviews in Environmental
Contamination and Toxicology. 133:95-149.
Singh,K.L., Arvind Kumar and Ashok Kumar (1998). Bacillus cereus
capable of degrading SDS shows growth with a variety of
detergents. World Journal of Microbiology and Biotechnology. 14
(5): 777-779.
Singh, K.L and Kumar, A ( 2002 ). Short communication Bacillus cereus
capable of degrading SDS shows growth with a variety of
detergents. World Journal Microbiology Biotechnology. 14: 777-
779.
Shaw, D. J., Dodgson, K. S and White, G. F (1980 ). Substrate specificity
and other properties of the inducible S3 secondary
alkylsulphohydrolase purified from the detergent –degrading
bacterium Pseudomonas C12B.Biochemistry Journal. 187: 181-190.
Shukor, M. Y., Husin, W.S.W., Rahman, M.F.A., Shamaan, N.A and
Syed, M.A (2009). Isolation and characterization of an SDS-
182
degrading Klebsiella oxytoca. Journal Environmental Biology
.30(1): 129-134.
Stephen, G Hales., Keith Watson, G., Kenneth, S., Dodgson .,Graham, F
and White (1986 ). A comparative study of the biodegradation of
the surfactant sodium dodecyl triethoxy sulphate by four detergent
degrading bacteria. J. of General Microbiology.132 :953-961.
Tayler, A.J., Powell G.M., Howes,D., Black J.G and Olavesen,A.H
(1978). Metabolism of the surfactants Sodium dodecyltriethoxy
sulphate in the rat. Biochemistry. 174: 405-412.
Truex, M.J. Brockman, F.J, Johnstone, D. L. and Fredrickson, J. K.
(1992). Effect of starvation on quinoline degradationby
Pseudomonas cepacia. Applied Environment Microbiology.8
:2386.
Thomas, O.R.T and White .G. F (1989). Metabolic pathway for
biodegradation of SDS by Pseudomonas sp C12B. Biotechnology
Applied Biochemistry. 11: 318-327.
Thomas, O, R, T., and White, G, F (1991). Immobilization of the surfactant
degrading bacterium Pseudomonas C12B in polyacrylamide gel.
Part-III. Biodegradation specificity for raw surfactants and industrial
wastes. Enzyme and microbial Technology. 13 : 338-343.
Tiehm, A (1994 ). Degradation of polycyclic aromatic hydrocarbons in the
presence of synthetic surfactants. Applied Environmental
Microbiology. 60(1): 258-263.
Tobin, R. S., F. I. Onuska, B. G. Brownlee, D. H. J. Antony, and M. E.
Combs (1976). The application of an ether cleavage technique to
References 183
study of the biodegradation of a linear alcohol ethoxylate nonionic
surfactant. Water Research. 10:529-535.
Tozum-Calgan, S.R.D., Atay-Guneyman, N.Z (1994 ). “The effects of an
anionic and a non-ionic surfactant on growth and nitrogen fixing
ability of a cyanobacterium, Gloeocapsa”, Journal Environmental
Science Health. Part A. 29: 355-370.
Trevors, J. T (1986). Plasmid curing in bacteria. FEMS Microbiology
Reviews. 32: 149-157.
Tuomanen, E.,Markiewicz, A and Tomasez (1998 ).Effect of starvation on
alternation of the cell surface structure.Journal Bacteriology .170:
1373.
Vance C Kramer, Diane M calabrese and Kenneth W. Nickerson (1980 ).
Growth of Enterobacter cloacae in the presence of 25% SDS.
Applied and Environmental Microbiology. 40(5) :973-976.
Venhuis, S.H and Mehrvar, M (2004). Health effects, environmental
impacts and photochemical degradation of selected surfactants in
water. International Journal Photoenergy. 6: 115-125.
Wadaan, M.A.M., Mubarak, M (2009). Blood chemistry changes as an
evidence of the toxic effects of anionic surfactant sodium dodecyl
sulfate. Asian Journal Scientific Research. 2: 113-118.
Wallner,S.R., Bauer,M., Wurdemann,C., Wecker,P., Glockner,F.O.,
Faber,K (2005a ). Highly enantioselective sec-alkyl sulfatase
activity of the marine planctomycete Rhodopirellula baltica shows
retention of configuration. Angew Chem Int Ed Engl. 44(39):
6381-6384.
184
Waymen, C. H (1984). Surfactant sorption on clay menerals. Proc. 11th
Nat. clay conf. Pergamen Press. N. Y.
White, G.F., Dodgson, K.S. Davies I, Matts, P.J. and Payne (1983).
Bacterial utilization of short chain primary alkyl sulfate esters.
FEMS Microbiology Letters. 40: 173-177.
White, G. F., Russell, N. J and Day, M. J (1984). Immobilized surfactant
– degrading bacteria would be exploited for the on-site removal of
excessive surfactant concentrations Environmental Pollution.
37:1-11
White, G.F., Russell, N.J and Day, M.J (1985) .A survey of sodium
dodecyl sulphate (SDS) resistance and alkylsulphatase
production in bacteria from clean and polluted river sites.
Environmental Pollution. Ser. A.37 :1-11.
White, G. E and Thomas, O. R T ( 1990). Alkyl sulphatase enzyme
.Enzyme microbial Technology. 12 :697-705.
Wheeler, O. H and Levy, E. M ( 1959 ).Adsorption of sterically hindered
phenols on carbon. Canadian Journal Chemistry. 37: 1235.
Williams, P. A. (1978). Microbial genetics relating to hydrocarbon
degradation. In: Watkinson, R. J. (cd), Developments in
biodegradation of hydrocarbons. Applied Science Publishers LTP.
London. pp. 135-164.
Williams, J. P., Mayberry, W. R and Payne , W. J (1966 ). Metabolism of
linear alcohols with various chain lengths by a Pseudomonas
species. Applied Microbiology. 14:156-160.
Williams, P.A (1978). Molecular genetics related to hydrocarbon
degradation.In: Watkinson, R .J. (ed).Developments in
References 185
biodegradation of hydrocarbons.Applied Science Publishers LTD,
London .135-164.
White., Paul and J .Matts (1991) .Biodegradation of short-chain alkyl
sulphate by a coryneform species. Biodegradation. 3(1) : 83-91.
Ying, G. G., Williams, B and Kookana, R (2002). Environmental fate of
alkylphenols and alkylphenol ethoxylates: A review. Environmental
Int. 28: 215-226.
Ying, G.G (2006). Fate, behavior and effects of surfactants and their
degradation products in the environment. Environ. Int., 32: 417-431.
Zhang C. L., Valsaraj K.T., Constant, W. D. and Roy. D (1999). Aerobic
biodegradation kinetics of four anionic and nonionic surfactants
at-sub-and supra-critical micelle concentrations, water Research.
33(1): 115-124.