Degradability of Chemicals by Microorganisms in Pond Water
To examine the biodegradation of environmental pollutants, particularly pesticides, by aquatic microbes, water sample from three ponds with different surroundings in Nagoya City were subjected to water quality analysis, classification of microflora and microbial biodegradation tests using the cultiv...
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| Published in | Eisei kagaku Vol. 40; no. 1; pp. 78 - 90 |
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| Main Authors | , , , , |
| Format | Journal Article Conference Proceeding |
| Language | English |
| Published |
Tokyo
The Pharmaceutical Society of Japan
1994
Nippon Yakugakkai |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0013-273X |
| DOI | 10.1248/jhs1956.40.78 |
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| Abstract | To examine the biodegradation of environmental pollutants, particularly pesticides, by aquatic microbes, water sample from three ponds with different surroundings in Nagoya City were subjected to water quality analysis, classification of microflora and microbial biodegradation tests using the cultivation method (Handai method). Physicochemical studies revealed that the three ponds were class B or C according to the Environmental Standard for Lakes and Marshes. The total phosphorus concentration suggested that they were eutrophic. Gram-negative bacteria were predominant in the microflora of all three, and included microorganisms of Alcaligenes sp., Acinetobacter sp., and Pseudomonas sp. Studies on the microbial biodegradation of pesticides revealed that ethylthiometon and fenitrothion were degraded to a considerable extent in the ponds, while isoxathion and simazine were degraded little. The degree of biodegradation varied among the water samples with the month of collection and the test chemicals used to assess it. Microorganisms of Acinetobacter sp. reportedly degrade environmental pollutants, and many isolates of this genus proved capable of destroying ethylthiometon, isoxathion, fenitrothion and anthracene. These organisms were able to grow vigorously in liquid culture, particularly in the presence of fenitrothion or anthracene. |
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| AbstractList | To examine the biodegradation of environmental pollutants, particularly pesticides, by aquatic microbes, water samples from three ponds with different surroundings in Nagoya City were subjected to water quality analysis, classification of microflora and microbial biodegradation tests using the cultivation method (Handai method). Physicochemical studies revealed that the three ponds were class B or C according to the Environmental Standard for Lakes and Marshes. The total phosphorus concentration suggested that they were eutrophic. Gram-negative bacteria were predominant in the microflora of all three, and included microorganisms of Alcaligenes sp., Acinetobacter sp., and Pseudomonas sp.. Studies on the microbial biodegradation of pesticides revealed that ethylthiometon and fenitrothion were degraded to a considerable extent in the ponds, while isoxathion and simazine were degraded little. The degree of biodegradation varied among the water samples with the month of collection and the test chemicals used to assess it. Microorganisms of Acinetobacter sp. reportedly degrade environmental pollutants, and many isolates of this genus proved capable of destroying ethylthiometon, isoxathion, fenitrothion and anthracene. These organisms were able to grow vigorously in liquid culture, particularly in the presence of fenitrothion or anthracene. To examine the biodegradation of environmental pollutants, particularly pesticides, by aquatic microbes, water sample from three ponds with different surroundings in Nagoya City were subjected to water quality analysis, classification of microflora and microbial biodegradation tests using the cultivation method (Handai method). Physicochemical studies revealed that the three ponds were class B or C according to the Environmental Standard for Lakes and Marshes. The total phosphorus concentration suggested that they were eutrophic. Gram-negative bacteria were predominant in the microflora of all three, and included microorganisms of Alcaligenes sp., Acinetobacter sp., and Pseudomonas sp. Studies on the microbial biodegradation of pesticides revealed that ethylthiometon and fenitrothion were degraded to a considerable extent in the ponds, while isoxathion and simazine were degraded little. The degree of biodegradation varied among the water samples with the month of collection and the test chemicals used to assess it. Microorganisms of Acinetobacter sp. reportedly degrade environmental pollutants, and many isolates of this genus proved capable of destroying ethylthiometon, isoxathion, fenitrothion and anthracene. These organisms were able to grow vigorously in liquid culture, particularly in the presence of fenitrothion or anthracene. |
| Author | HASHIZUME, KIYOMATSU YASUI, TERUYO NAGANO, HIDEO NOZAWA, MASANORI TODA, CHITOSE |
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| Keywords | Pseudomonadales Biodegradation Biodegradability Alcaligenes Neisseriaceae Pesticides Method Pseudomonas Pollutant Pond Water quality Microorganism culture Bacteria Micrococcales Pseudomonadaceae Acinetobacter Water pollution |
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| References | e) J. Zeyer, A. Wasserfallen and K.N. Timmis, Appl. Environ. Microbiol., 50, 447 (1985). 9) K. Furukawa, K. Tonomura and A. Kamibayashi, Appl. Environ. Microbiol., 35, 223 (1978). 15) O. Yagi and R. Sudo, J. Water Pollut. Control Fed., 52, 1035 (1980). c) G.K. Watoson and N. Jones, Water Res., 11, 95 (1977 4) Y. Fushiwaki, N. Tase, K. Kotoda and K. Urano, Eisei Kagaku, 37, 529 (1991). 8) a) S.T. Cowan (translated by Sakazaki), "Manual for the Identification of Medical Bacteria," 2nd ed., Kindai-Shuppan, Tokyo, 1984 b) A. Rosenberg and M. Alexander, Appl. Environ. Microbiol., 37, 886 (1979 10) a) G.S. Sayler and R.R. Colwell, Micobial Ecology, 3, 241 (1977 16) T. Sawa, Y. Fukazawa, I. Homma, T. Takeuchi and H. Umezawa, J. Antibiot., (ser. A) 20, 317 (1967). 2) N. Goonewardena, M. Goto, Y. Takubo, T. Nishihara and M. Kondo, Eisei Kagaku, 36, 385 (1990). 11) R.C. Wyndham, Appl. Environ. Microbiol., 51, 781 (1986). 5) M. Kondo, T. Nishihara, T. Shimamoto, K. Watabe and M. Fujii, Eisei Kagaku, 34, 115 (1988). d) R. Kurane, T. Suzuki and Y. Takahara, Agric. Biol. Chem., 43, 907 (1979 b) N.R. Krieg and J.G. Holt, "Bergey's Manual of Systematic Bacteriology," Vol. 1, William & Wikins, Baltimore/London, 1984. 14) I. Yall, W.H. Boughton, R.C. Knudsen and N.A. Sinclair, Appl. Microbiol., 20, 145 (1970). 12) A.H. Neilson, J. Appl. Bacteriol., 44, 259 (1978). 1) C.D. Lyons, S. Katz and R. Bartha, Appl. Environ. Microbiol., 48, 491 (1984). 3) Y. Osaki, T. Matsueda, M. Nagase, A. Ogo and K. Takahashi, Eisei Kagaku, 37, 411 (1991). 7) Japanese Industrial Standards Committee (ed.), "Japanese Industrial Standard ; Testing Method for Industrial Wastewater JIS K 0102," Japanese Standard Association, Tokyo, 1986. 6) Pharmaceutical Society of Japan (ed.), "Standard Methods of Analysis for Hygienic Chemists," Kanehara Shoten, Tokyo, 1990. 13) M.O. Moss, C. Ryall and N.A. Logan, J. Gen. Microbiol., 105, 11 (1978). |
| References_xml | – reference: 5) M. Kondo, T. Nishihara, T. Shimamoto, K. Watabe and M. Fujii, Eisei Kagaku, 34, 115 (1988). – reference: 3) Y. Osaki, T. Matsueda, M. Nagase, A. Ogo and K. Takahashi, Eisei Kagaku, 37, 411 (1991). – reference: 8) a) S.T. Cowan (translated by Sakazaki), "Manual for the Identification of Medical Bacteria," 2nd ed., Kindai-Shuppan, Tokyo, 1984 – reference: b) A. Rosenberg and M. Alexander, Appl. Environ. Microbiol., 37, 886 (1979) – reference: 14) I. Yall, W.H. Boughton, R.C. Knudsen and N.A. Sinclair, Appl. Microbiol., 20, 145 (1970). – reference: 9) K. Furukawa, K. Tonomura and A. Kamibayashi, Appl. Environ. Microbiol., 35, 223 (1978). – reference: b) N.R. Krieg and J.G. Holt, "Bergey's Manual of Systematic Bacteriology," Vol. 1, William & Wikins, Baltimore/London, 1984. – reference: 4) Y. Fushiwaki, N. Tase, K. Kotoda and K. Urano, Eisei Kagaku, 37, 529 (1991). – reference: e) J. Zeyer, A. Wasserfallen and K.N. Timmis, Appl. Environ. Microbiol., 50, 447 (1985). – reference: 6) Pharmaceutical Society of Japan (ed.), "Standard Methods of Analysis for Hygienic Chemists," Kanehara Shoten, Tokyo, 1990. – reference: d) R. Kurane, T. Suzuki and Y. Takahara, Agric. Biol. Chem., 43, 907 (1979) – reference: 13) M.O. Moss, C. Ryall and N.A. Logan, J. Gen. Microbiol., 105, 11 (1978). – reference: 11) R.C. Wyndham, Appl. Environ. Microbiol., 51, 781 (1986). – reference: 12) A.H. Neilson, J. Appl. Bacteriol., 44, 259 (1978). – reference: 7) Japanese Industrial Standards Committee (ed.), "Japanese Industrial Standard ; Testing Method for Industrial Wastewater JIS K 0102," Japanese Standard Association, Tokyo, 1986. – reference: 10) a) G.S. Sayler and R.R. Colwell, Micobial Ecology, 3, 241 (1977) – reference: 1) C.D. Lyons, S. Katz and R. Bartha, Appl. Environ. Microbiol., 48, 491 (1984). – reference: 2) N. Goonewardena, M. Goto, Y. Takubo, T. Nishihara and M. Kondo, Eisei Kagaku, 36, 385 (1990). – reference: c) G.K. Watoson and N. Jones, Water Res., 11, 95 (1977) – reference: 15) O. Yagi and R. Sudo, J. Water Pollut. Control Fed., 52, 1035 (1980). – reference: 16) T. Sawa, Y. Fukazawa, I. Homma, T. Takeuchi and H. Umezawa, J. Antibiot., (ser. A) 20, 317 (1967). |
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| SubjectTerms | Acinetobacter biodegradation Biodegradation of pollutants Biological and medical sciences Biotechnology cultivation method Environment and pollution Freshwater Fundamental and applied biological sciences. Psychology Industrial applications and implications. Economical aspects microflora pond water water quality |
| Title | Degradability of Chemicals by Microorganisms in Pond Water |
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