Characterization of Pseudomonas stutzeri NT-I capable of removing soluble selenium from the aqueous phase under aerobic conditions

Masashi Kuroda; Emi Notaguchi; Akiko Sato; Masaya Yoshioka; Ai Hasegawa; Tsubasa Kagami; Takanobu Narita; Mitsuo Yamashita; Kazunari Sei; Satoshi Soda; Michihiko Ike

doi:10.1016/j.jbiosc.2011.05.012

Characterization of Pseudomonas stutzeri NT-I capable of removing soluble selenium from the aqueous phase under aerobic conditions

Masashi Kuroda, Emi Notaguchi, Akiko Sato, Masaya Yoshioka, Ai Hasegawa, Tsubasa Kagami, Takanobu Narita, Mitsuo Yamashita, Kazunari Sei, Satoshi Soda, Michihiko Ike

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Abstract

Pseudomonas stutzeri strain NT-I was isolated from the drainage wastewater of a selenium refinery plant. This bacterium efficiently reduced selenate to elemental selenium without prolonged accumulation of selenite under aerobic conditions. Strain NT-I was able to reduce selenate completely at high concentrations (up to 10mM) and selenite almost completely (up to 9mM). In addition, higher concentrations of selenate and selenite were substantially reduced. Activity was observed under the following experimental conditions: 20-50°C, pH 7-9, and 0.05-20g L ^-1 NaCl for selenate reduction, and 20-50°C, pH 6-9, and 0.05-50g L ^-1 NaCl for selenite reduction. Under anaerobic conditions, selenate was reduced more rapidly, whereas selenite was not reduced at all. The high selenate- and selenite-reducing capability at high concentrations suggested that strain NT-I is suitable for the removal of selenium from high-strength industrial wastewater.

Original language	English
Pages (from-to)	259-264
Number of pages	6
Journal	Journal of Bioscience and Bioengineering
Volume	112
Issue number	3
DOIs	https://doi.org/10.1016/j.jbiosc.2011.05.012
Publication status	Published - 2011 Sept

Keywords

Elemental selenium
Industrial wastewater
Pseudomonas stutzeri
Selenate
Selenite
Selenium removal
Specific growth rate
Specific reduction rate

ASJC Scopus subject areas

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology

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10.1016/j.jbiosc.2011.05.012

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Kuroda, M., Notaguchi, E., Sato, A., Yoshioka, M., Hasegawa, A., Kagami, T., Narita, T., Yamashita, M., Sei, K., Soda, S., & Ike, M. (2011). Characterization of Pseudomonas stutzeri NT-I capable of removing soluble selenium from the aqueous phase under aerobic conditions. Journal of Bioscience and Bioengineering, 112(3), 259-264. https://doi.org/10.1016/j.jbiosc.2011.05.012

Kuroda, M, Notaguchi, E, Sato, A, Yoshioka, M, Hasegawa, A, Kagami, T, Narita, T, Yamashita, M, Sei, K, Soda, S & Ike, M 2011, 'Characterization of Pseudomonas stutzeri NT-I capable of removing soluble selenium from the aqueous phase under aerobic conditions', Journal of Bioscience and Bioengineering, vol. 112, no. 3, pp. 259-264. https://doi.org/10.1016/j.jbiosc.2011.05.012

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abstract = "Pseudomonas stutzeri strain NT-I was isolated from the drainage wastewater of a selenium refinery plant. This bacterium efficiently reduced selenate to elemental selenium without prolonged accumulation of selenite under aerobic conditions. Strain NT-I was able to reduce selenate completely at high concentrations (up to 10mM) and selenite almost completely (up to 9mM). In addition, higher concentrations of selenate and selenite were substantially reduced. Activity was observed under the following experimental conditions: 20-50°C, pH 7-9, and 0.05-20g L -1 NaCl for selenate reduction, and 20-50°C, pH 6-9, and 0.05-50g L -1 NaCl for selenite reduction. Under anaerobic conditions, selenate was reduced more rapidly, whereas selenite was not reduced at all. The high selenate- and selenite-reducing capability at high concentrations suggested that strain NT-I is suitable for the removal of selenium from high-strength industrial wastewater.",

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AU - Kuroda, Masashi

AU - Notaguchi, Emi

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AU - Hasegawa, Ai

AU - Kagami, Tsubasa

AU - Narita, Takanobu

AU - Yamashita, Mitsuo

AU - Sei, Kazunari

AU - Soda, Satoshi

AU - Ike, Michihiko

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N2 - Pseudomonas stutzeri strain NT-I was isolated from the drainage wastewater of a selenium refinery plant. This bacterium efficiently reduced selenate to elemental selenium without prolonged accumulation of selenite under aerobic conditions. Strain NT-I was able to reduce selenate completely at high concentrations (up to 10mM) and selenite almost completely (up to 9mM). In addition, higher concentrations of selenate and selenite were substantially reduced. Activity was observed under the following experimental conditions: 20-50°C, pH 7-9, and 0.05-20g L -1 NaCl for selenate reduction, and 20-50°C, pH 6-9, and 0.05-50g L -1 NaCl for selenite reduction. Under anaerobic conditions, selenate was reduced more rapidly, whereas selenite was not reduced at all. The high selenate- and selenite-reducing capability at high concentrations suggested that strain NT-I is suitable for the removal of selenium from high-strength industrial wastewater.

AB - Pseudomonas stutzeri strain NT-I was isolated from the drainage wastewater of a selenium refinery plant. This bacterium efficiently reduced selenate to elemental selenium without prolonged accumulation of selenite under aerobic conditions. Strain NT-I was able to reduce selenate completely at high concentrations (up to 10mM) and selenite almost completely (up to 9mM). In addition, higher concentrations of selenate and selenite were substantially reduced. Activity was observed under the following experimental conditions: 20-50°C, pH 7-9, and 0.05-20g L -1 NaCl for selenate reduction, and 20-50°C, pH 6-9, and 0.05-50g L -1 NaCl for selenite reduction. Under anaerobic conditions, selenate was reduced more rapidly, whereas selenite was not reduced at all. The high selenate- and selenite-reducing capability at high concentrations suggested that strain NT-I is suitable for the removal of selenium from high-strength industrial wastewater.

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KW - Industrial wastewater

KW - Pseudomonas stutzeri

KW - Selenate

KW - Selenite

KW - Selenium removal

KW - Specific growth rate

KW - Specific reduction rate

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Characterization of Pseudomonas stutzeri NT-I capable of removing soluble selenium from the aqueous phase under aerobic conditions

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