Isolation of Malathion degrading Pseudomonas xanthomarina with ...

Research Journal of Chemistry and Environment___________________________________Vol.17 (3) March (2013)
Res. J. Chem. Environ.
parathion by Pseudomonas putida, Canadian Journal of
Microbiology, 40, 1000-1006 (1994)
34. Rath C. C., Studies on thermotolerant bacteria isolated from
hotsprings of Orissa, Ph.D. Thesis, Utkal University, India (1996)
35. Rezzonico F., Zala M., Keel C., Duffy B., Moenne-Loccoz Y.
and Defago G., Is the ability of biocontrol fluorescent
pseudomonads to produce the antifungal metabolite 2, 4-
diacetylphloroglucinol really synonymous with higher plant
protection, New Phytology, 173, 861– 872 (2007)
36. Rosenberg A. and Alexander M., Microbial cleavage of
various organophosphorus insecticides, Applied Environmental
Microbiology, 37(5), 886-891 (1993)
37. Roy M. K., Guha A., Kumari B. and Borta T. C., Pesticide
degradation characteristics, plasmid profile and degradative
efficiency of facultative anaerobs, International Symposium in
Microbiology, Calcutta, India, 62 (1995)
38. Sackett W. G., Palten A. J. and Brown C. W., The solvent
action of soil bacteria upon the insoluble phosphates of raw bone
meal and natural rock phosphate, Zbt. Bakt. Abt. II, 20, 688
(1908)
39. Singh A. K. and Seth P. K., Degradation of Malathion by
microorganisms isolated from industrial effluents, Bulletin of
Environmental Contamination and Toxicology, 43, 28-35 (1989)
40. Stephane C., Duffy B., Nowak J., Clement C. and Barka E.
A., Use of plant growth promoting bacteria for biocontrol of plant
diseases: Principles, Mechanisms of Action and Future Prospects,
Applied Environmental Microbiology, 4951–4959 (2005)
41. Stephen B. P. and Kevin D. H., Bio-exploitation of
filamentous fungi, Fungal Diversity Press, The University of
Hong Kong, Hong Kong, China, 467 (2001)
42. Suresh A., Pallavi P., Srinivas P., Kumar V. P., Chandra S. J.
(66)
and Reddy S. R., Plant growth promoting activites of fluorescent
Pseudomonas associated with some crop plants, African Journal
of Microbiology Res., 4, 1491-1494 (2010)
43. Thassitou P. K. and Arvanitoyannis I. S., Bioremediation: a
novel approach to food waste management, Trends in Food
Science and Technology, 12(5-6), 185-196 (2001)
44. Tien T. M., Gaskins M. S. and Hubbel D. H., Plant growth
substance produced by Azospirillum brasilense and their effect on
the growth of pearlmillet (Pennisetum americanum L.), Applied
Environmental Microbiology, 37(5), 1016-1024 (1979)
45. Walker W. W. and Stojanovic B. J., Acetylcholinesterase
toxicity of Malathion and its metabolites, Journal of
Environmental Quality, 2, 474-475 (1973)
46. Watanabe K. and Haryana K., Seasonal variation of extracted
proteases and their relation to the overall soil protease and
exchangeable ammonia in paddy soil, Biological Fertilizers in
Soils, 21, 89-94 (1996)
47. Wenk M., Baumgartner T., Fuchs T. D., Kuesera J., Zopfi J.
and Stuchi G., Rapid atrazine degrading Pseudomonas sp. Strain,
Applied Microbiology and Biotechnology, 49, 624-630 (1998)
48. Whipps J. M., Microbial interactions and biocontrol in the
rhizosphere, Journal of Exp Botany, 52, 487-511 (2001)
49. Woo S. M., Lee M. K., Hong I., Poonguzahli S. and Tong M.,
Isolation and characterization of phosphate solubilizing bacteria
from Chinese cabbage, 19th World Congress of soil science, soil
solutions for a changing world (2010)
50 Zeinat K. M., Fetyan N. A. H., Ibrahim M. A. and El-Nagdy
S., Biodegradation and detoxification of Malathion by Bacillus
thuringiensis MOS-5, Australian Journal of Basic and Applied
Science, 2(3), 724-732 (2008).
(Received 15 th October 2012, accepted 17 th January 2013)