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ACTINOBACTERIA - SOURCE OF INFORMATION ON SOIL QUALITY

Borozan, Aurica Breica, Bordean, Despina Maria, Boldura, Oana Maria, Boaca, Viorica, Sasu, Lavinia, Cojocariu, Luminita, Horablaga, Marinel, Cojocariu, Adrian

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bc3/s13.002View metrics

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Publication details

Title
ACTINOBACTERIA - SOURCE OF INFORMATION ON SOIL QUALITY
Authors
Borozan, Aurica Breica, Bordean, Despina Maria, Boldura, Oana Maria, Boaca, Viorica, Sasu, Lavinia, Cojocariu, Luminita, Horablaga, Marinel, Cojocariu, Adrian
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on WATER RESOURCES. FOREST, MARINE AND OCEAN ECOSYSTEMS
Publisher
Stef92 Technology
Year
2013
Pages
489 - 496 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References40
  1. Berdy J., Are Actinomycetes exhausted as a source of secondary metabolites , in Proceedings of the 9th Symposium Actinomycetes, 1995, pp. 13– 34;

  2. Davis, J.C. Statistics and Data Analysis in Geology. John Wiley & Sons, New York, 1986;

  3. Dua, M.; Singh, A.; Sethunathan, N.; Johri, A. K., Biotechnology and bioremediation: successes and limitations. Appl. Microbiol. Biotechnol., 59, 143 –152, 2002;

  4. El-Khawagh, M. A., Hamadah, Kh. Sh. and El-Sheikh, T. M., The insecticidal activity of actinomycete metabolites, against the mosquitoe Culex pipiens, Egypt. Acad. J. biolog. Sci., 4 (1): 103- 113, 2011;

  5. Fuentes S. Maria, Benimeli S. Claudia, Cuozzo A. Sergio, Saez M Juliana and Amoroso J. Maria, Microorganisms capable to degrade organochlorine pesticides, Current Research, Technology and Education Topics in Apllied Microbiology and Microbial Biotechnology A. Mèndez-Vilas (Ed). © Formatex, 1255-1264, 2010;

  6. Hammer O., Harper D.A.T. and Ryan P.D., Past: Paleontological statistics software package for education and data analysis, Palaeontological Association, , http://palaeo electronica.org/2001_1/past/issue1_01.htm, 2001;

  7. Harper, D.A.T. (Ed.), Numerical Palaeobiology. John Wiley & Sons, New York, 1999;

  8. Holden A. Patricia and Firestone K. Mary, Soil Microorganisms in Soil Cleanup: How Can We Improve Our Understanding , Vol. 26 No. 1, p. 32-40,1997;

  9. Katsuda, Y., Development of and future prospects for pyrethroid chemistry. Pestic. Sci., 55 (8), 775-782, 1999; Section Soils

  10. Knisel, W.G. (Ed.). Groundwater Loading Effects of Agricultural Management Systems. Tifton, Georgia: United States Department of Agriculture , Agricultural Research Service, 1993;

  11. Lin Q. S., Chen S.H., Hu M. Y., Haq M. R. Ul, Yang L., Li H., Biodegradation of cypermethrin by a newly isolated actinomycetes HU-S-01 from wastewater sludge. Int. J. Environ. Sci. Tech., 8 (1), 2011, pp. 45-56, 1993;

  12. Maloeny, S. E.; Maule, A.; Smith, A. R.W., Purification and preliminary characterization of permethrinase from a pyrethroid-transforming strain of Bacillus cereus. Appl. Environ. Mocrobiol., 59 (7), 2007-2013, 1993;

  13. Murugesan, A. G.; Jeyasanthi, T.; Maheswari, S., Isolation and characterization of cypermethrin utilizing bacteria from brinjal cultivated soil. Afr. J. Microbiol. Res., 4 (1), 10-13, 2010;

  14. Nirmali, S.; Subrata, K. D.; Bharat, K. C.; Patel, R. N.; Aqbal, S.; Madhuban, G., Biodegradation of beta-cyûuthrin by Pseudomonas stutzeri strain S1. Biodegradation, 16 (6), 581–589, 2005;

  15. Nwuche, C. O.; Ugoji, E. O., Effects of heavy metal pollution on the soil microbial activity. Int. J. Environ. Sci. Tech., 5 (3), 409-414, 2008;

  16. Stefanic Gh., Metode de analiza a solului (biologica, enzimatica si chimica). Probleme de agrofitotehnie teoretica si aplicata. Institutul de cercetare-dezvoltare agricola Fundulea, XXVIII, 5-25, 2006;

  17. United States Environmental Protection Agency. Cypermethrin Pesticide Fact Sheet. Washington, D.C., 1989;

  18. United States Environmental Protection Agency. Office of Pesticide Programs reference dose tracking report. Washington, D.C., 1997;

  19. Virtue, W. A.; Clayton, J. W., (1997). Sheep dip chemicals and water pollution. Sci. Total Environ., 194, 207–217.Volume 380, Issue 3, Pages 710–714, 2009;

  20. http://patentimages.storage.googleapis.com/WO2008065145A1/imgf000076_0001. png GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  21. Berdy J., Are Actinomycetes exhausted as a source of secondary metabolites , in Proceedings of the 9th Symposium Actinomycetes, 1995, pp. 13– 34;

  22. Davis, J.C. Statistics and Data Analysis in Geology. John Wiley & Sons, New York, 1986;

  23. Dua, M.; Singh, A.; Sethunathan, N.; Johri, A. K., Biotechnology and bioremediation: successes and limitations. Appl. Microbiol. Biotechnol., 59, 143 –152, 2002;

  24. El-Khawagh, M. A., Hamadah, Kh. Sh. and El-Sheikh, T. M., The insecticidal activity of actinomycete metabolites, against the mosquitoe Culex pipiens, Egypt. Acad. J. biolog. Sci., 4 (1): 103- 113, 2011;

  25. Fuentes S. Maria, Benimeli S. Claudia, Cuozzo A. Sergio, Saez M Juliana and Amoroso J. Maria, Microorganisms capable to degrade organochlorine pesticides, Current Research, Technology and Education Topics in Apllied Microbiology and Microbial Biotechnology A. Mèndez-Vilas (Ed). © Formatex, 1255-1264, 2010;

  26. Hammer O., Harper D.A.T. and Ryan P.D., Past: Paleontological statistics software package for education and data analysis, Palaeontological Association, , http://palaeo electronica.org/2001_1/past/issue1_01.htm, 2001;

  27. Harper, D.A.T. (Ed.), Numerical Palaeobiology. John Wiley & Sons, New York, 1999;

  28. Holden A. Patricia and Firestone K. Mary, Soil Microorganisms in Soil Cleanup: How Can We Improve Our Understanding , Vol. 26 No. 1, p. 32-40,1997;

  29. Katsuda, Y., Development of and future prospects for pyrethroid chemistry. Pestic. Sci., 55 (8), 775-782, 1999; Section Soils

  30. Knisel, W.G. (Ed.). Groundwater Loading Effects of Agricultural Management Systems. Tifton, Georgia: United States Department of Agriculture , Agricultural Research Service, 1993;

  31. Lin Q. S., Chen S.H., Hu M. Y., Haq M. R. Ul, Yang L., Li H., Biodegradation of cypermethrin by a newly isolated actinomycetes HU-S-01 from wastewater sludge. Int. J. Environ. Sci. Tech., 8 (1), 2011, pp. 45-56, 1993;

  32. Maloeny, S. E.; Maule, A.; Smith, A. R.W., Purification and preliminary characterization of permethrinase from a pyrethroid-transforming strain of Bacillus cereus. Appl. Environ. Mocrobiol., 59 (7), 2007-2013, 1993;

  33. Murugesan, A. G.; Jeyasanthi, T.; Maheswari, S., Isolation and characterization of cypermethrin utilizing bacteria from brinjal cultivated soil. Afr. J. Microbiol. Res., 4 (1), 10-13, 2010;

  34. Nirmali, S.; Subrata, K. D.; Bharat, K. C.; Patel, R. N.; Aqbal, S.; Madhuban, G., Biodegradation of beta-cyûuthrin by Pseudomonas stutzeri strain S1. Biodegradation, 16 (6), 581–589, 2005;

  35. Nwuche, C. O.; Ugoji, E. O., Effects of heavy metal pollution on the soil microbial activity. Int. J. Environ. Sci. Tech., 5 (3), 409-414, 2008;

  36. Stefanic Gh., Metode de analiza a solului (biologica, enzimatica si chimica). Probleme de agrofitotehnie teoretica si aplicata. Institutul de cercetare-dezvoltare agricola Fundulea, XXVIII, 5-25, 2006;

  37. United States Environmental Protection Agency. Cypermethrin Pesticide Fact Sheet. Washington, D.C., 1989;

  38. United States Environmental Protection Agency. Office of Pesticide Programs reference dose tracking report. Washington, D.C., 1997;

  39. Virtue, W. A.; Clayton, J. W., (1997). Sheep dip chemicals and water pollution. Sci. Total Environ., 194, 207–217.Volume 380, Issue 3, Pages 710–714, 2009;

  40. http://patentimages.storage.googleapis.com/WO2008065145A1/imgf000076_0001. png GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

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