Nakano, Takeshi

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orcid::0000-0002-4329-5860
  • Nakano, Takeshi (15)

Author's Bibliography

Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS

Lješević, Marija; Gojgić-Cvijović, Gordana D.; Ieda, T.; Hashimoto, S.; Nakano, Takeshi; Bulatović, S.; Ilić, Mila V.; Beškoski, Vladimir

(2019)

TY  - JOUR
AU  - Lješević, Marija
AU  - Gojgić-Cvijović, Gordana D.
AU  - Ieda, T.
AU  - Hashimoto, S.
AU  - Nakano, Takeshi
AU  - Bulatović, S.
AU  - Ilić, Mila V.
AU  - Beškoski, Vladimir
PY  - 2019
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/351
AB  - Polycyclic aromatic hydrocarbons (PAHs) from petroleum and fossil fuels are one of the most dominant pollutants in the environment. Since aromatic fraction from petroleum diesel fuel is mainly composed of PAHs, it is important to discover new microorganisms that can biodegrade these compounds. This article describes the biodegradation of the aromatic fraction separated from petroleum diesel fuel using the strain Oerskovia sp. CHP-ZH25 isolated from petroleum oil-contaminated soil. The biodegradation was monitored by gravimetry and GC × GC-TOF MS. An innovative method was applied to visualize degraded compounds in the data provided by a GC × GC-TOF MS. It was shown that Oerskovia sp. CHP-ZH25 degraded 77.4% based on gravimetric analysis within 30 days. Average rate of degradation was 14.4 mg/L/day, 10.5 mg/l/day and 4.0 mg/l/day from 0 to 10 day, 10–20 and 20–30 day, respectively. The order of PAH degradation based on decrease in peak volume after 30 days of incubation was as follows: dibenzothiophene derivatives  gt  benzo[b]thiophene derivatives  gt  naphthalene derivatives  gt  acenaphthene derivatives  gt  acenaphthylene/biphenyl derivatives  gt  fluorene derivatives  gt  phenanthrene/anthracene derivatives. Here we demonstrated that Oerskovia sp. CHP-ZH25 could potentially be a suitable candidate for use in bioremediation of environments polluted with different PAHs. © 2018 Elsevier B.V.
T2  - Journal of Hazardous Materials
T1  - Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS
VL  - 363
SP  - 227
EP  - 232
DO  - 10.1016/j.jhazmat.2018.10.005
ER  - 
@article{
author = "Lješević, Marija and Gojgić-Cvijović, Gordana D. and Ieda, T. and Hashimoto, S. and Nakano, Takeshi and Bulatović, S. and Ilić, Mila V. and Beškoski, Vladimir",
year = "2019",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/351",
abstract = "Polycyclic aromatic hydrocarbons (PAHs) from petroleum and fossil fuels are one of the most dominant pollutants in the environment. Since aromatic fraction from petroleum diesel fuel is mainly composed of PAHs, it is important to discover new microorganisms that can biodegrade these compounds. This article describes the biodegradation of the aromatic fraction separated from petroleum diesel fuel using the strain Oerskovia sp. CHP-ZH25 isolated from petroleum oil-contaminated soil. The biodegradation was monitored by gravimetry and GC × GC-TOF MS. An innovative method was applied to visualize degraded compounds in the data provided by a GC × GC-TOF MS. It was shown that Oerskovia sp. CHP-ZH25 degraded 77.4% based on gravimetric analysis within 30 days. Average rate of degradation was 14.4 mg/L/day, 10.5 mg/l/day and 4.0 mg/l/day from 0 to 10 day, 10–20 and 20–30 day, respectively. The order of PAH degradation based on decrease in peak volume after 30 days of incubation was as follows: dibenzothiophene derivatives  gt  benzo[b]thiophene derivatives  gt  naphthalene derivatives  gt  acenaphthene derivatives  gt  acenaphthylene/biphenyl derivatives  gt  fluorene derivatives  gt  phenanthrene/anthracene derivatives. Here we demonstrated that Oerskovia sp. CHP-ZH25 could potentially be a suitable candidate for use in bioremediation of environments polluted with different PAHs. © 2018 Elsevier B.V.",
journal = "Journal of Hazardous Materials",
title = "Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS",
volume = "363",
pages = "227-232",
doi = "10.1016/j.jhazmat.2018.10.005"
}
Lješević, M., Gojgić-Cvijović, G. D., Ieda, T., Hashimoto, S., Nakano, T., Bulatović, S., Ilić, M. V.,& Beškoski, V. (2019). Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS.
Journal of Hazardous Materials, 363, 227-232.
https://doi.org/10.1016/j.jhazmat.2018.10.005
Lješević M, Gojgić-Cvijović GD, Ieda T, Hashimoto S, Nakano T, Bulatović S, Ilić MV, Beškoski V. Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS. Journal of Hazardous Materials. 2019;363:227-232
Lješević Marija, Gojgić-Cvijović Gordana D., Ieda T., Hashimoto S., Nakano Takeshi, Bulatović S., Ilić Mila V., Beškoski Vladimir, "Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS" Journal of Hazardous Materials, 363 (2019):227-232,
https://doi.org/10.1016/j.jhazmat.2018.10.005 .
9
6
8

Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS

Lješević, Marija; Gojgić-Cvijović, Gordana D.; Ieda, T.; Hashimoto, S.; Nakano, Takeshi; Bulatović, S.; Ilić, Mila V.; Beškoski, Vladimir

(2019)

TY  - JOUR
AU  - Lješević, Marija
AU  - Gojgić-Cvijović, Gordana D.
AU  - Ieda, T.
AU  - Hashimoto, S.
AU  - Nakano, Takeshi
AU  - Bulatović, S.
AU  - Ilić, Mila V.
AU  - Beškoski, Vladimir
PY  - 2019
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/2800
AB  - Polycyclic aromatic hydrocarbons (PAHs) from petroleum and fossil fuels are one of the most dominant pollutants in the environment. Since aromatic fraction from petroleum diesel fuel is mainly composed of PAHs, it is important to discover new microorganisms that can biodegrade these compounds. This article describes the biodegradation of the aromatic fraction separated from petroleum diesel fuel using the strain Oerskovia sp. CHP-ZH25 isolated from petroleum oil-contaminated soil. The biodegradation was monitored by gravimetry and GC × GC-TOF MS. An innovative method was applied to visualize degraded compounds in the data provided by a GC × GC-TOF MS. It was shown that Oerskovia sp. CHP-ZH25 degraded 77.4% based on gravimetric analysis within 30 days. Average rate of degradation was 14.4 mg/L/day, 10.5 mg/l/day and 4.0 mg/l/day from 0 to 10 day, 10–20 and 20–30 day, respectively. The order of PAH degradation based on decrease in peak volume after 30 days of incubation was as follows: dibenzothiophene derivatives  gt  benzo[b]thiophene derivatives  gt  naphthalene derivatives  gt  acenaphthene derivatives  gt  acenaphthylene/biphenyl derivatives  gt  fluorene derivatives  gt  phenanthrene/anthracene derivatives. Here we demonstrated that Oerskovia sp. CHP-ZH25 could potentially be a suitable candidate for use in bioremediation of environments polluted with different PAHs. © 2018 Elsevier B.V.
T2  - Journal of Hazardous Materials
T1  - Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS
VL  - 363
SP  - 227
EP  - 232
DO  - 10.1016/j.jhazmat.2018.10.005
ER  - 
@article{
author = "Lješević, Marija and Gojgić-Cvijović, Gordana D. and Ieda, T. and Hashimoto, S. and Nakano, Takeshi and Bulatović, S. and Ilić, Mila V. and Beškoski, Vladimir",
year = "2019",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/2800",
abstract = "Polycyclic aromatic hydrocarbons (PAHs) from petroleum and fossil fuels are one of the most dominant pollutants in the environment. Since aromatic fraction from petroleum diesel fuel is mainly composed of PAHs, it is important to discover new microorganisms that can biodegrade these compounds. This article describes the biodegradation of the aromatic fraction separated from petroleum diesel fuel using the strain Oerskovia sp. CHP-ZH25 isolated from petroleum oil-contaminated soil. The biodegradation was monitored by gravimetry and GC × GC-TOF MS. An innovative method was applied to visualize degraded compounds in the data provided by a GC × GC-TOF MS. It was shown that Oerskovia sp. CHP-ZH25 degraded 77.4% based on gravimetric analysis within 30 days. Average rate of degradation was 14.4 mg/L/day, 10.5 mg/l/day and 4.0 mg/l/day from 0 to 10 day, 10–20 and 20–30 day, respectively. The order of PAH degradation based on decrease in peak volume after 30 days of incubation was as follows: dibenzothiophene derivatives  gt  benzo[b]thiophene derivatives  gt  naphthalene derivatives  gt  acenaphthene derivatives  gt  acenaphthylene/biphenyl derivatives  gt  fluorene derivatives  gt  phenanthrene/anthracene derivatives. Here we demonstrated that Oerskovia sp. CHP-ZH25 could potentially be a suitable candidate for use in bioremediation of environments polluted with different PAHs. © 2018 Elsevier B.V.",
journal = "Journal of Hazardous Materials",
title = "Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS",
volume = "363",
pages = "227-232",
doi = "10.1016/j.jhazmat.2018.10.005"
}
Lješević, M., Gojgić-Cvijović, G. D., Ieda, T., Hashimoto, S., Nakano, T., Bulatović, S., Ilić, M. V.,& Beškoski, V. (2019). Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS.
Journal of Hazardous Materials, 363, 227-232.
https://doi.org/10.1016/j.jhazmat.2018.10.005
Lješević M, Gojgić-Cvijović GD, Ieda T, Hashimoto S, Nakano T, Bulatović S, Ilić MV, Beškoski V. Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS. Journal of Hazardous Materials. 2019;363:227-232
Lješević Marija, Gojgić-Cvijović Gordana D., Ieda T., Hashimoto S., Nakano Takeshi, Bulatović S., Ilić Mila V., Beškoski Vladimir, "Biodegradation of the aromatic fraction from petroleum diesel fuel by Oerskovia sp. followed by comprehensive GC×GC-TOF MS" Journal of Hazardous Materials, 363 (2019):227-232,
https://doi.org/10.1016/j.jhazmat.2018.10.005 .
9
6
8

Supplementary data for the article: Lješević, M.; Gojgić-Cvijović, G.; Ieda, T.; Hashimoto, S.; Nakano, T.; Bulatović, S.; Ilić, M.; Beškoski, V. Biodegradation of the Aromatic Fraction from Petroleum Diesel Fuel by Oerskovia Sp. Followed by Comprehensive GC×GC-TOF MS. Journal of Hazardous Materials 2019, 363, 227–232. https://doi.org/10.1016/j.jhazmat.2018.10.005

Lješević, Marija; Gojgić-Cvijović, Gordana D.; Ieda, T.; Hashimoto, S.; Nakano, Takeshi; Bulatović, S.; Ilić, Mila V.; Beškoski, Vladimir

(2019)

TY  - BOOK
AU  - Lješević, Marija
AU  - Gojgić-Cvijović, Gordana D.
AU  - Ieda, T.
AU  - Hashimoto, S.
AU  - Nakano, Takeshi
AU  - Bulatović, S.
AU  - Ilić, Mila V.
AU  - Beškoski, Vladimir
PY  - 2019
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/2950
T2  - Journal of Hazardous Materials
T1  - Supplementary data for the article: Lješević, M.; Gojgić-Cvijović, G.; Ieda, T.; Hashimoto, S.; Nakano, T.; Bulatović, S.; Ilić, M.; Beškoski, V. Biodegradation of the Aromatic Fraction from Petroleum Diesel Fuel by Oerskovia Sp. Followed by Comprehensive GC×GC-TOF MS. Journal of Hazardous Materials 2019, 363, 227–232. https://doi.org/10.1016/j.jhazmat.2018.10.005
ER  - 
@book{
author = "Lješević, Marija and Gojgić-Cvijović, Gordana D. and Ieda, T. and Hashimoto, S. and Nakano, Takeshi and Bulatović, S. and Ilić, Mila V. and Beškoski, Vladimir",
year = "2019",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/2950",
journal = "Journal of Hazardous Materials",
title = "Supplementary data for the article: Lješević, M.; Gojgić-Cvijović, G.; Ieda, T.; Hashimoto, S.; Nakano, T.; Bulatović, S.; Ilić, M.; Beškoski, V. Biodegradation of the Aromatic Fraction from Petroleum Diesel Fuel by Oerskovia Sp. Followed by Comprehensive GC×GC-TOF MS. Journal of Hazardous Materials 2019, 363, 227–232. https://doi.org/10.1016/j.jhazmat.2018.10.005"
}
Lješević, M., Gojgić-Cvijović, G. D., Ieda, T., Hashimoto, S., Nakano, T., Bulatović, S., Ilić, M. V.,& Beškoski, V. (2019). Supplementary data for the article: Lješević, M.; Gojgić-Cvijović, G.; Ieda, T.; Hashimoto, S.; Nakano, T.; Bulatović, S.; Ilić, M.; Beškoski, V. Biodegradation of the Aromatic Fraction from Petroleum Diesel Fuel by Oerskovia Sp. Followed by Comprehensive GC×GC-TOF MS. Journal of Hazardous Materials 2019, 363, 227–232. https://doi.org/10.1016/j.jhazmat.2018.10.005.
Journal of Hazardous Materials.
Lješević M, Gojgić-Cvijović GD, Ieda T, Hashimoto S, Nakano T, Bulatović S, Ilić MV, Beškoski V. Supplementary data for the article: Lješević, M.; Gojgić-Cvijović, G.; Ieda, T.; Hashimoto, S.; Nakano, T.; Bulatović, S.; Ilić, M.; Beškoski, V. Biodegradation of the Aromatic Fraction from Petroleum Diesel Fuel by Oerskovia Sp. Followed by Comprehensive GC×GC-TOF MS. Journal of Hazardous Materials 2019, 363, 227–232. https://doi.org/10.1016/j.jhazmat.2018.10.005. Journal of Hazardous Materials. 2019;
Lješević Marija, Gojgić-Cvijović Gordana D., Ieda T., Hashimoto S., Nakano Takeshi, Bulatović S., Ilić Mila V., Beškoski Vladimir, "Supplementary data for the article: Lješević, M.; Gojgić-Cvijović, G.; Ieda, T.; Hashimoto, S.; Nakano, T.; Bulatović, S.; Ilić, M.; Beškoski, V. Biodegradation of the Aromatic Fraction from Petroleum Diesel Fuel by Oerskovia Sp. Followed by Comprehensive GC×GC-TOF MS. Journal of Hazardous Materials 2019, 363, 227–232. https://doi.org/10.1016/j.jhazmat.2018.10.005" Journal of Hazardous Materials (2019)

Chemical contamination caused by various disasters and risk reduction

Nakano, Takeshi; Haga, Yuki; Yoshiki, R.; Matsumura, Chisato; Beškoski, Vladimir

(2018)

TY  - CONF
AU  - Nakano, Takeshi
AU  - Haga, Yuki
AU  - Yoshiki, R.
AU  - Matsumura, Chisato
AU  - Beškoski, Vladimir
PY  - 2018
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/4425
C3  - The 12th International Conference on the Environmental Management of the Enclosed Coastal Seas (EMECS 12), Pattaya, Thailand
T1  - Chemical contamination caused by various disasters and risk reduction
ER  - 
@conference{
author = "Nakano, Takeshi and Haga, Yuki and Yoshiki, R. and Matsumura, Chisato and Beškoski, Vladimir",
year = "2018",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/4425",
journal = "The 12th International Conference on the Environmental Management of the Enclosed Coastal Seas (EMECS 12), Pattaya, Thailand",
title = "Chemical contamination caused by various disasters and risk reduction"
}
Nakano, T., Haga, Y., Yoshiki, R., Matsumura, C.,& Beškoski, V. (2018). Chemical contamination caused by various disasters and risk reduction.
The 12th International Conference on the Environmental Management of the Enclosed Coastal Seas (EMECS 12), Pattaya, Thailand.
Nakano T, Haga Y, Yoshiki R, Matsumura C, Beškoski V. Chemical contamination caused by various disasters and risk reduction. The 12th International Conference on the Environmental Management of the Enclosed Coastal Seas (EMECS 12), Pattaya, Thailand. 2018;
Nakano Takeshi, Haga Yuki, Yoshiki R., Matsumura Chisato, Beškoski Vladimir, "Chemical contamination caused by various disasters and risk reduction" The 12th International Conference on the Environmental Management of the Enclosed Coastal Seas (EMECS 12), Pattaya, Thailand (2018)

Supplementary material for the article: Beškoski, V. P.; Yamamoto, A.; Nakano, T.; Yamamoto, K.; Matsumura, C.; Motegi, M.; Beškoski, L. S.; Inui, H. Defluorination of Perfluoroalkyl Acids Is Followed by Production of Monofluorinated Fatty Acids. Science of the Total Environment 2018, 636, 355–359. https://doi.org/10.1016/j.scitotenv.2018.04.243

Beškoski, Vladimir; Yamamoto, Atsushi; Nakano, Takeshi; Yamamoto, Katsuya; Matsumura, Chisato; Motegi, Mamoru; Slavković-Beškoski, Latinka; Inui, Hideyuki

(Elsevier Science Bv, Amsterdam, 2018)

TY  - BOOK
AU  - Beškoski, Vladimir
AU  - Yamamoto, Atsushi
AU  - Nakano, Takeshi
AU  - Yamamoto, Katsuya
AU  - Matsumura, Chisato
AU  - Motegi, Mamoru
AU  - Slavković-Beškoski, Latinka
AU  - Inui, Hideyuki
PY  - 2018
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/3114
PB  - Elsevier Science Bv, Amsterdam
T2  - Science of the Total Environment
T1  - Supplementary material for the article: Beškoski, V. P.; Yamamoto, A.; Nakano, T.; Yamamoto, K.; Matsumura, C.; Motegi, M.;  Beškoski, L. S.; Inui, H. Defluorination of Perfluoroalkyl Acids Is Followed by Production of  Monofluorinated Fatty Acids. Science of the Total Environment 2018, 636, 355–359.  https://doi.org/10.1016/j.scitotenv.2018.04.243
ER  - 
@book{
author = "Beškoski, Vladimir and Yamamoto, Atsushi and Nakano, Takeshi and Yamamoto, Katsuya and Matsumura, Chisato and Motegi, Mamoru and Slavković-Beškoski, Latinka and Inui, Hideyuki",
year = "2018",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/3114",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Science of the Total Environment",
title = "Supplementary material for the article: Beškoski, V. P.; Yamamoto, A.; Nakano, T.; Yamamoto, K.; Matsumura, C.; Motegi, M.;  Beškoski, L. S.; Inui, H. Defluorination of Perfluoroalkyl Acids Is Followed by Production of  Monofluorinated Fatty Acids. Science of the Total Environment 2018, 636, 355–359.  https://doi.org/10.1016/j.scitotenv.2018.04.243"
}
Beškoski, V., Yamamoto, A., Nakano, T., Yamamoto, K., Matsumura, C., Motegi, M., Slavković-Beškoski, L.,& Inui, H. (2018). Supplementary material for the article: Beškoski, V. P.; Yamamoto, A.; Nakano, T.; Yamamoto, K.; Matsumura, C.; Motegi, M.;  Beškoski, L. S.; Inui, H. Defluorination of Perfluoroalkyl Acids Is Followed by Production of  Monofluorinated Fatty Acids. Science of the Total Environment 2018, 636, 355–359.  https://doi.org/10.1016/j.scitotenv.2018.04.243.
Science of the Total Environment
Elsevier Science Bv, Amsterdam..
Beškoski V, Yamamoto A, Nakano T, Yamamoto K, Matsumura C, Motegi M, Slavković-Beškoski L, Inui H. Supplementary material for the article: Beškoski, V. P.; Yamamoto, A.; Nakano, T.; Yamamoto, K.; Matsumura, C.; Motegi, M.;  Beškoski, L. S.; Inui, H. Defluorination of Perfluoroalkyl Acids Is Followed by Production of  Monofluorinated Fatty Acids. Science of the Total Environment 2018, 636, 355–359.  https://doi.org/10.1016/j.scitotenv.2018.04.243. Science of the Total Environment. 2018;
Beškoski Vladimir, Yamamoto Atsushi, Nakano Takeshi, Yamamoto Katsuya, Matsumura Chisato, Motegi Mamoru, Slavković-Beškoski Latinka, Inui Hideyuki, "Supplementary material for the article: Beškoski, V. P.; Yamamoto, A.; Nakano, T.; Yamamoto, K.; Matsumura, C.; Motegi, M.;  Beškoski, L. S.; Inui, H. Defluorination of Perfluoroalkyl Acids Is Followed by Production of  Monofluorinated Fatty Acids. Science of the Total Environment 2018, 636, 355–359.  https://doi.org/10.1016/j.scitotenv.2018.04.243" Science of the Total Environment (2018)

Supplementary material for the article: Fukushi, K.; Fujita, Y.; Nonogaki, J.; Tsujimoto, J.-I.; Hattori, T.; Inui, H.; Beškoski, V. P.; Hotta, H.; Hayashi, M.; Nakano, T. Capillary Zone Electrophoresis Determination of Fluoride in Seawater Using Transient Isotachophoresis. Analytical and Bioanalytical Chemistry 2018, 410 (6), 1825–1831. https://doi.org/10.1007/s00216-017-0838-0

Fukushi, Keiichi; Fujita, Yuki; Nonogaki, Junpei; Tsujimoto, Jun-ichi; Hattori, Takanari; Inui, Hideyuki; Beškoski, Vladimir; Hotta, Hiroki; Hayashi, Mitsuru; Nakano, Takeshi

(Springer Heidelberg, Heidelberg, 2018)

TY  - BOOK
AU  - Fukushi, Keiichi
AU  - Fujita, Yuki
AU  - Nonogaki, Junpei
AU  - Tsujimoto, Jun-ichi
AU  - Hattori, Takanari
AU  - Inui, Hideyuki
AU  - Beškoski, Vladimir
AU  - Hotta, Hiroki
AU  - Hayashi, Mitsuru
AU  - Nakano, Takeshi
PY  - 2018
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/3182
PB  - Springer Heidelberg, Heidelberg
T2  - Analytical and Bioanalytical Chemistry
T1  - Supplementary material for the article: Fukushi, K.; Fujita, Y.; Nonogaki, J.; Tsujimoto, J.-I.; Hattori, T.; Inui, H.; Beškoski, V. P.;  Hotta, H.; Hayashi, M.; Nakano, T. Capillary Zone Electrophoresis Determination of  Fluoride in Seawater Using Transient Isotachophoresis. Analytical and Bioanalytical  Chemistry 2018, 410 (6), 1825–1831. https://doi.org/10.1007/s00216-017-0838-0
ER  - 
@book{
author = "Fukushi, Keiichi and Fujita, Yuki and Nonogaki, Junpei and Tsujimoto, Jun-ichi and Hattori, Takanari and Inui, Hideyuki and Beškoski, Vladimir and Hotta, Hiroki and Hayashi, Mitsuru and Nakano, Takeshi",
year = "2018",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/3182",
publisher = "Springer Heidelberg, Heidelberg",
journal = "Analytical and Bioanalytical Chemistry",
title = "Supplementary material for the article: Fukushi, K.; Fujita, Y.; Nonogaki, J.; Tsujimoto, J.-I.; Hattori, T.; Inui, H.; Beškoski, V. P.;  Hotta, H.; Hayashi, M.; Nakano, T. Capillary Zone Electrophoresis Determination of  Fluoride in Seawater Using Transient Isotachophoresis. Analytical and Bioanalytical  Chemistry 2018, 410 (6), 1825–1831. https://doi.org/10.1007/s00216-017-0838-0"
}
Fukushi, K., Fujita, Y., Nonogaki, J., Tsujimoto, J., Hattori, T., Inui, H., Beškoski, V., Hotta, H., Hayashi, M.,& Nakano, T. (2018). Supplementary material for the article: Fukushi, K.; Fujita, Y.; Nonogaki, J.; Tsujimoto, J.-I.; Hattori, T.; Inui, H.; Beškoski, V. P.;  Hotta, H.; Hayashi, M.; Nakano, T. Capillary Zone Electrophoresis Determination of  Fluoride in Seawater Using Transient Isotachophoresis. Analytical and Bioanalytical  Chemistry 2018, 410 (6), 1825–1831. https://doi.org/10.1007/s00216-017-0838-0.
Analytical and Bioanalytical Chemistry
Springer Heidelberg, Heidelberg..
Fukushi K, Fujita Y, Nonogaki J, Tsujimoto J, Hattori T, Inui H, Beškoski V, Hotta H, Hayashi M, Nakano T. Supplementary material for the article: Fukushi, K.; Fujita, Y.; Nonogaki, J.; Tsujimoto, J.-I.; Hattori, T.; Inui, H.; Beškoski, V. P.;  Hotta, H.; Hayashi, M.; Nakano, T. Capillary Zone Electrophoresis Determination of  Fluoride in Seawater Using Transient Isotachophoresis. Analytical and Bioanalytical  Chemistry 2018, 410 (6), 1825–1831. https://doi.org/10.1007/s00216-017-0838-0. Analytical and Bioanalytical Chemistry. 2018;
Fukushi Keiichi, Fujita Yuki, Nonogaki Junpei, Tsujimoto Jun-ichi, Hattori Takanari, Inui Hideyuki, Beškoski Vladimir, Hotta Hiroki, Hayashi Mitsuru, Nakano Takeshi, "Supplementary material for the article: Fukushi, K.; Fujita, Y.; Nonogaki, J.; Tsujimoto, J.-I.; Hattori, T.; Inui, H.; Beškoski, V. P.;  Hotta, H.; Hayashi, M.; Nakano, T. Capillary Zone Electrophoresis Determination of  Fluoride in Seawater Using Transient Isotachophoresis. Analytical and Bioanalytical  Chemistry 2018, 410 (6), 1825–1831. https://doi.org/10.1007/s00216-017-0838-0" Analytical and Bioanalytical Chemistry (2018)

Defluorination of perfluoroalkyl acids is followed by production of monofluorinated fatty acids

Beškoski, Vladimir; Yamamoto, Atsushi; Nakano, Takeshi; Yamamoto, Katsuya; Matsumura, Chisato; Motegi, Mamoru; Slavković-Beškoski, Latinka; Inui, Hideyuki

(Elsevier Science Bv, Amsterdam, 2018)

TY  - JOUR
AU  - Beškoski, Vladimir
AU  - Yamamoto, Atsushi
AU  - Nakano, Takeshi
AU  - Yamamoto, Katsuya
AU  - Matsumura, Chisato
AU  - Motegi, Mamoru
AU  - Slavković-Beškoski, Latinka
AU  - Inui, Hideyuki
PY  - 2018
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/2168
AB  - We investigated the capability of microorganisms isolated from environments polluted with perfluoroalkyl adds (PFAAs) to conduct biotransformation of these emerging pollutants. Two different microbial consortia (chemoorganoheterotrophic bacteria and total yeast and molds) were isolated from two river sediments in Saitama and Osaka, Japan, known for long term pollution with perfluorooctane sulfonic acid (PFOS) and perfluorooctanoic acid (PFOA). The microbial consortia were incubated in the presence of added PFOS and PFOA, and decreases in concentrations of these compounds were between 46-69% and 16-36%, respectively. Decreases in concentrations were, in part, due to sorption on biomass, but defluorinated PFOS and PFOA products were not detected. However, untargeted analysis suggested the presence of several metabolites found only in samples from consortia with PFOS and PFOA but not in the control samples. Molecular formula candidates were narrowed down to two options, C18H28O5F and C21H27O4. It was assumed that these formulas were associated with unsaturated monofluorinated fatty acids and hydrocarbons with multiple unsaturated bonds or ring structures. (C) 2018 Elsevier B.V. All rights reserved.
PB  - Elsevier Science Bv, Amsterdam
T2  - Science of the Total Environment
T1  - Defluorination of perfluoroalkyl acids is followed by production of monofluorinated fatty acids
VL  - 636
SP  - 355
EP  - 359
DO  - 10.1016/j.scitotenv.2018.04.243
ER  - 
@article{
author = "Beškoski, Vladimir and Yamamoto, Atsushi and Nakano, Takeshi and Yamamoto, Katsuya and Matsumura, Chisato and Motegi, Mamoru and Slavković-Beškoski, Latinka and Inui, Hideyuki",
year = "2018",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/2168",
abstract = "We investigated the capability of microorganisms isolated from environments polluted with perfluoroalkyl adds (PFAAs) to conduct biotransformation of these emerging pollutants. Two different microbial consortia (chemoorganoheterotrophic bacteria and total yeast and molds) were isolated from two river sediments in Saitama and Osaka, Japan, known for long term pollution with perfluorooctane sulfonic acid (PFOS) and perfluorooctanoic acid (PFOA). The microbial consortia were incubated in the presence of added PFOS and PFOA, and decreases in concentrations of these compounds were between 46-69% and 16-36%, respectively. Decreases in concentrations were, in part, due to sorption on biomass, but defluorinated PFOS and PFOA products were not detected. However, untargeted analysis suggested the presence of several metabolites found only in samples from consortia with PFOS and PFOA but not in the control samples. Molecular formula candidates were narrowed down to two options, C18H28O5F and C21H27O4. It was assumed that these formulas were associated with unsaturated monofluorinated fatty acids and hydrocarbons with multiple unsaturated bonds or ring structures. (C) 2018 Elsevier B.V. All rights reserved.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Science of the Total Environment",
title = "Defluorination of perfluoroalkyl acids is followed by production of monofluorinated fatty acids",
volume = "636",
pages = "355-359",
doi = "10.1016/j.scitotenv.2018.04.243"
}
Beškoski, V., Yamamoto, A., Nakano, T., Yamamoto, K., Matsumura, C., Motegi, M., Slavković-Beškoski, L.,& Inui, H. (2018). Defluorination of perfluoroalkyl acids is followed by production of monofluorinated fatty acids.
Science of the Total Environment
Elsevier Science Bv, Amsterdam., 636, 355-359.
https://doi.org/10.1016/j.scitotenv.2018.04.243
Beškoski V, Yamamoto A, Nakano T, Yamamoto K, Matsumura C, Motegi M, Slavković-Beškoski L, Inui H. Defluorination of perfluoroalkyl acids is followed by production of monofluorinated fatty acids. Science of the Total Environment. 2018;636:355-359
Beškoski Vladimir, Yamamoto Atsushi, Nakano Takeshi, Yamamoto Katsuya, Matsumura Chisato, Motegi Mamoru, Slavković-Beškoski Latinka, Inui Hideyuki, "Defluorination of perfluoroalkyl acids is followed by production of monofluorinated fatty acids" Science of the Total Environment, 636 (2018):355-359,
https://doi.org/10.1016/j.scitotenv.2018.04.243 .
1
10
7
11

Greener approaches to the measurement of polyaromatic hydrocarbons (PAHs) in unused and used crankcase motor oils from Malaysia

Narayanan, Kannan; Miyagawa, Haruhiko; Kitano, Riki; Nakagawa, Katsuhiro; Hirooka, Megumi; Hashimoto, Shunji; Beškoski, Vladimir; Hamida, Haris Hafizal Abd; Jahromi, Fatemeh A.; Phang, Ignatius; Aris, Ahmad Zaharin; Li, Donghao; Nakano, Takeshi

(Springer Heidelberg, Heidelberg, 2018)

TY  - JOUR
AU  - Narayanan, Kannan
AU  - Miyagawa, Haruhiko
AU  - Kitano, Riki
AU  - Nakagawa, Katsuhiro
AU  - Hirooka, Megumi
AU  - Hashimoto, Shunji
AU  - Beškoski, Vladimir
AU  - Hamida, Haris Hafizal Abd
AU  - Jahromi, Fatemeh A.
AU  - Phang, Ignatius
AU  - Aris, Ahmad Zaharin
AU  - Li, Donghao
AU  - Nakano, Takeshi
PY  - 2018
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/2110
AB  - The antifungal potential of the pygidial gland secretion of the troglophilic ground beetle Laemostenus
punctatus from a cave in Southeastern Serbia against cavedwelling micromycetes, isolated from the same habitat, has
been investigated. Eleven collected samples were analyzed
and 32 isolates of cave-dwelling fungi were documented. A
total of 14 fungal species were identified as members of the
genera Aspergillus, Penicillium, Alternaria, Cladosporium,
Rhizopus, Trichoderma, Arthrinium, Aureobasidium,
Epicoccum, Talaromyces, and Fusarium. Five isolates were
selected for testing the antifungal activity of the pygidial gland
secretion: Talaromyces duclauxi, Aspergillus
brunneouniseriatus, Penicillium sp., Rhizopus stolonifer, and
Trichoderma viride. The microdilution method has been applied to detect minimal inhibitory concentrations (MICs) and
minimal fungicidal concentrations (MFCs). The most sensitive isolate was Penicillium sp., while the other isolates demonstrated a high level of resistance to the tested agent.
L. punctatus has developed a special mechanism of producing
specific compounds that act synergistically within the
secretion mixture, which are responsible for the antifungal
action against pathogens from the cave. The results open opportunities for further research in the field of ground beetle
defense against pathogens, which could have an important
application in human medicine, in addition to the environmental impact, primarily.
PB  - Springer Heidelberg, Heidelberg
T2  - Environmental Science and Pollution Research
T1  - Greener approaches to the measurement of polyaromatic hydrocarbons (PAHs) in unused and used crankcase motor oils from Malaysia
VL  - 25
IS  - 8
SP  - 7206
EP  - 7211
DO  - 10.1007/s11356-015-5403-9
ER  - 
@article{
author = "Narayanan, Kannan and Miyagawa, Haruhiko and Kitano, Riki and Nakagawa, Katsuhiro and Hirooka, Megumi and Hashimoto, Shunji and Beškoski, Vladimir and Hamida, Haris Hafizal Abd and Jahromi, Fatemeh A. and Phang, Ignatius and Aris, Ahmad Zaharin and Li, Donghao and Nakano, Takeshi",
year = "2018",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/2110",
abstract = "The antifungal potential of the pygidial gland secretion of the troglophilic ground beetle Laemostenus
punctatus from a cave in Southeastern Serbia against cavedwelling micromycetes, isolated from the same habitat, has
been investigated. Eleven collected samples were analyzed
and 32 isolates of cave-dwelling fungi were documented. A
total of 14 fungal species were identified as members of the
genera Aspergillus, Penicillium, Alternaria, Cladosporium,
Rhizopus, Trichoderma, Arthrinium, Aureobasidium,
Epicoccum, Talaromyces, and Fusarium. Five isolates were
selected for testing the antifungal activity of the pygidial gland
secretion: Talaromyces duclauxi, Aspergillus
brunneouniseriatus, Penicillium sp., Rhizopus stolonifer, and
Trichoderma viride. The microdilution method has been applied to detect minimal inhibitory concentrations (MICs) and
minimal fungicidal concentrations (MFCs). The most sensitive isolate was Penicillium sp., while the other isolates demonstrated a high level of resistance to the tested agent.
L. punctatus has developed a special mechanism of producing
specific compounds that act synergistically within the
secretion mixture, which are responsible for the antifungal
action against pathogens from the cave. The results open opportunities for further research in the field of ground beetle
defense against pathogens, which could have an important
application in human medicine, in addition to the environmental impact, primarily.",
publisher = "Springer Heidelberg, Heidelberg",
journal = "Environmental Science and Pollution Research",
title = "Greener approaches to the measurement of polyaromatic hydrocarbons (PAHs) in unused and used crankcase motor oils from Malaysia",
volume = "25",
number = "8",
pages = "7206-7211",
doi = "10.1007/s11356-015-5403-9"
}
Narayanan, K., Miyagawa, H., Kitano, R., Nakagawa, K., Hirooka, M., Hashimoto, S., Beškoski, V., Hamida, H. H. A., Jahromi, F. A., Phang, I., Aris, A. Z., Li, D.,& Nakano, T. (2018). Greener approaches to the measurement of polyaromatic hydrocarbons (PAHs) in unused and used crankcase motor oils from Malaysia.
Environmental Science and Pollution Research
Springer Heidelberg, Heidelberg., 25(8), 7206-7211.
https://doi.org/10.1007/s11356-015-5403-9
Narayanan K, Miyagawa H, Kitano R, Nakagawa K, Hirooka M, Hashimoto S, Beškoski V, Hamida HHA, Jahromi FA, Phang I, Aris AZ, Li D, Nakano T. Greener approaches to the measurement of polyaromatic hydrocarbons (PAHs) in unused and used crankcase motor oils from Malaysia. Environmental Science and Pollution Research. 2018;25(8):7206-7211
Narayanan Kannan, Miyagawa Haruhiko, Kitano Riki, Nakagawa Katsuhiro, Hirooka Megumi, Hashimoto Shunji, Beškoski Vladimir, Hamida Haris Hafizal Abd, Jahromi Fatemeh A., Phang Ignatius, Aris Ahmad Zaharin, Li Donghao, Nakano Takeshi, "Greener approaches to the measurement of polyaromatic hydrocarbons (PAHs) in unused and used crankcase motor oils from Malaysia" Environmental Science and Pollution Research, 25, no. 8 (2018):7206-7211,
https://doi.org/10.1007/s11356-015-5403-9 .
2
4
2

Capillary zone electrophoresis determination of fluoride in seawater using transient isotachophoresis

Fukushi, Keiichi; Fujita, Yuki; Nonogaki, Junpei; Tsujimoto, Jun-ichi; Hattori, Takanari; Inui, Hideyuki; Beškoski, Vladimir; Hotta, Hiroki; Hayashi, Mitsuru; Nakano, Takeshi

(Springer Heidelberg, Heidelberg, 2018)

TY  - JOUR
AU  - Fukushi, Keiichi
AU  - Fujita, Yuki
AU  - Nonogaki, Junpei
AU  - Tsujimoto, Jun-ichi
AU  - Hattori, Takanari
AU  - Inui, Hideyuki
AU  - Beškoski, Vladimir
AU  - Hotta, Hiroki
AU  - Hayashi, Mitsuru
AU  - Nakano, Takeshi
PY  - 2018
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/2083
AB  - We developed capillary zone electrophoresis (CZE) with indirect UV detection for the determination of fluoride (F-) in seawater using transient isotachophoresis (tITP) as an on-line concentration procedure. A method of correcting sample salinity effects was also proposed so that F- concentrations were obtained using a calibration graph. The proposed method is simple: it requires no sample pretreatment aside from dilution. The following optimum conditions were established: background electrolyte (BGE), 5 mM 2,6-pyridinedicarboxylic acid (PDC) adjusted to pH 3.5 containing 0.03% m/v hydroxypropyl methylcellulose (HPMC); detection wavelength, 200 nm; vacuum (50 kPa) injection period of sample, 5 s (254 nL); and applied voltage, 23 kV with the sample inlet side as the cathode. The limit of detection (LOD, S/N = 3) and limit of quantification (LOQ, S/N = 10) for F- reached 0.024 and 0.070 mg/L, respectively. The respective values of the relative standard deviation (RSD) of the peak area, peak height, and migration time for F- were 2.5, 3.4, and 0.30%. The proposed method was applied for the determination of F- in seawater samples collected from coastal waters of western Japan during August 26-28, 2014. Both results obtained using standard addition method and a calibration graph agreed with those obtained using a conventional spectrophotometric method.
PB  - Springer Heidelberg, Heidelberg
T2  - Analytical and Bioanalytical Chemistry
T1  - Capillary zone electrophoresis determination of fluoride in seawater using transient isotachophoresis
VL  - 410
IS  - 6
SP  - 1825
EP  - 1831
DO  - 10.1007/s00216-017-0838-0
ER  - 
@article{
author = "Fukushi, Keiichi and Fujita, Yuki and Nonogaki, Junpei and Tsujimoto, Jun-ichi and Hattori, Takanari and Inui, Hideyuki and Beškoski, Vladimir and Hotta, Hiroki and Hayashi, Mitsuru and Nakano, Takeshi",
year = "2018",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/2083",
abstract = "We developed capillary zone electrophoresis (CZE) with indirect UV detection for the determination of fluoride (F-) in seawater using transient isotachophoresis (tITP) as an on-line concentration procedure. A method of correcting sample salinity effects was also proposed so that F- concentrations were obtained using a calibration graph. The proposed method is simple: it requires no sample pretreatment aside from dilution. The following optimum conditions were established: background electrolyte (BGE), 5 mM 2,6-pyridinedicarboxylic acid (PDC) adjusted to pH 3.5 containing 0.03% m/v hydroxypropyl methylcellulose (HPMC); detection wavelength, 200 nm; vacuum (50 kPa) injection period of sample, 5 s (254 nL); and applied voltage, 23 kV with the sample inlet side as the cathode. The limit of detection (LOD, S/N = 3) and limit of quantification (LOQ, S/N = 10) for F- reached 0.024 and 0.070 mg/L, respectively. The respective values of the relative standard deviation (RSD) of the peak area, peak height, and migration time for F- were 2.5, 3.4, and 0.30%. The proposed method was applied for the determination of F- in seawater samples collected from coastal waters of western Japan during August 26-28, 2014. Both results obtained using standard addition method and a calibration graph agreed with those obtained using a conventional spectrophotometric method.",
publisher = "Springer Heidelberg, Heidelberg",
journal = "Analytical and Bioanalytical Chemistry",
title = "Capillary zone electrophoresis determination of fluoride in seawater using transient isotachophoresis",
volume = "410",
number = "6",
pages = "1825-1831",
doi = "10.1007/s00216-017-0838-0"
}
Fukushi, K., Fujita, Y., Nonogaki, J., Tsujimoto, J., Hattori, T., Inui, H., Beškoski, V., Hotta, H., Hayashi, M.,& Nakano, T. (2018). Capillary zone electrophoresis determination of fluoride in seawater using transient isotachophoresis.
Analytical and Bioanalytical Chemistry
Springer Heidelberg, Heidelberg., 410(6), 1825-1831.
https://doi.org/10.1007/s00216-017-0838-0
Fukushi K, Fujita Y, Nonogaki J, Tsujimoto J, Hattori T, Inui H, Beškoski V, Hotta H, Hayashi M, Nakano T. Capillary zone electrophoresis determination of fluoride in seawater using transient isotachophoresis. Analytical and Bioanalytical Chemistry. 2018;410(6):1825-1831
Fukushi Keiichi, Fujita Yuki, Nonogaki Junpei, Tsujimoto Jun-ichi, Hattori Takanari, Inui Hideyuki, Beškoski Vladimir, Hotta Hiroki, Hayashi Mitsuru, Nakano Takeshi, "Capillary zone electrophoresis determination of fluoride in seawater using transient isotachophoresis" Analytical and Bioanalytical Chemistry, 410, no. 6 (2018):1825-1831,
https://doi.org/10.1007/s00216-017-0838-0 .
1
3
4
4

Supplementary data for the article: Beškoski, V.; Yamamoto, K.; Yamamoto, A.; Okamura, H.; Hayashi, M.; Nakano, T.; Matsumura, C.; Fukushi, K.; Wada, S.; Inui, H. Distribution of Perfluoroalkyl Compounds in Osaka Bay and Coastal Waters of Western Japan. Chemosphere 2017, 170, 260–265. https://doi.org/10.1016/j.chemosphere.2016.12.028

Beškoski, Vladimir; Yamamoto, Katsuya; Yamamoto, Atsushi; Okamura, Hideo; Hayashi, Mitsuru; Nakano, Takeshi; Matsumura, Chisato; Fukushi, Keiichi; Wada, Shinpei; Inui, Hideyuki

(Pergamon-Elsevier Science Ltd, Oxford, 2017)

TY  - BOOK
AU  - Beškoski, Vladimir
AU  - Yamamoto, Katsuya
AU  - Yamamoto, Atsushi
AU  - Okamura, Hideo
AU  - Hayashi, Mitsuru
AU  - Nakano, Takeshi
AU  - Matsumura, Chisato
AU  - Fukushi, Keiichi
AU  - Wada, Shinpei
AU  - Inui, Hideyuki
PY  - 2017
PY  - 2017
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/2955
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Chemosphere
T1  - Supplementary data for the article: Beškoski, V.; Yamamoto, K.; Yamamoto, A.; Okamura, H.; Hayashi, M.; Nakano, T.; Matsumura, C.; Fukushi, K.; Wada, S.; Inui, H. Distribution of Perfluoroalkyl Compounds in Osaka Bay and Coastal Waters of Western Japan. Chemosphere 2017, 170, 260–265. https://doi.org/10.1016/j.chemosphere.2016.12.028
ER  - 
@book{
author = "Beškoski, Vladimir and Yamamoto, Katsuya and Yamamoto, Atsushi and Okamura, Hideo and Hayashi, Mitsuru and Nakano, Takeshi and Matsumura, Chisato and Fukushi, Keiichi and Wada, Shinpei and Inui, Hideyuki",
year = "2017, 2017",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/2955",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Chemosphere",
title = "Supplementary data for the article: Beškoski, V.; Yamamoto, K.; Yamamoto, A.; Okamura, H.; Hayashi, M.; Nakano, T.; Matsumura, C.; Fukushi, K.; Wada, S.; Inui, H. Distribution of Perfluoroalkyl Compounds in Osaka Bay and Coastal Waters of Western Japan. Chemosphere 2017, 170, 260–265. https://doi.org/10.1016/j.chemosphere.2016.12.028"
}
Beškoski, V., Yamamoto, K., Yamamoto, A., Okamura, H., Hayashi, M., Nakano, T., Matsumura, C., Fukushi, K., Wada, S.,& Inui, H. (2017). Supplementary data for the article: Beškoski, V.; Yamamoto, K.; Yamamoto, A.; Okamura, H.; Hayashi, M.; Nakano, T.; Matsumura, C.; Fukushi, K.; Wada, S.; Inui, H. Distribution of Perfluoroalkyl Compounds in Osaka Bay and Coastal Waters of Western Japan. Chemosphere 2017, 170, 260–265. https://doi.org/10.1016/j.chemosphere.2016.12.028.
Chemosphere
Pergamon-Elsevier Science Ltd, Oxford..
Beškoski V, Yamamoto K, Yamamoto A, Okamura H, Hayashi M, Nakano T, Matsumura C, Fukushi K, Wada S, Inui H. Supplementary data for the article: Beškoski, V.; Yamamoto, K.; Yamamoto, A.; Okamura, H.; Hayashi, M.; Nakano, T.; Matsumura, C.; Fukushi, K.; Wada, S.; Inui, H. Distribution of Perfluoroalkyl Compounds in Osaka Bay and Coastal Waters of Western Japan. Chemosphere 2017, 170, 260–265. https://doi.org/10.1016/j.chemosphere.2016.12.028. Chemosphere. 2017;
Beškoski Vladimir, Yamamoto Katsuya, Yamamoto Atsushi, Okamura Hideo, Hayashi Mitsuru, Nakano Takeshi, Matsumura Chisato, Fukushi Keiichi, Wada Shinpei, Inui Hideyuki, "Supplementary data for the article: Beškoski, V.; Yamamoto, K.; Yamamoto, A.; Okamura, H.; Hayashi, M.; Nakano, T.; Matsumura, C.; Fukushi, K.; Wada, S.; Inui, H. Distribution of Perfluoroalkyl Compounds in Osaka Bay and Coastal Waters of Western Japan. Chemosphere 2017, 170, 260–265. https://doi.org/10.1016/j.chemosphere.2016.12.028" Chemosphere (2017)

Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater

Beškoski, Vladimir; Miletić, Srđan B.; Ilić, Mila V.; Gojgić-Cvijović, Gordana D.; Papić, Petar; Marić, Nenad; Šolević-Knudsen, T.; Jovančićević, Branimir; Nakano, Takeshi; Vrvić, Miroslav M.

(Wiley, Hoboken, 2017)

TY  - JOUR
AU  - Beškoski, Vladimir
AU  - Miletić, Srđan B.
AU  - Ilić, Mila V.
AU  - Gojgić-Cvijović, Gordana D.
AU  - Papić, Petar
AU  - Marić, Nenad
AU  - Šolević-Knudsen, T.
AU  - Jovančićević, Branimir
AU  - Nakano, Takeshi
AU  - Vrvić, Miroslav M.
PY  - 2017
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/3045
AB  - The objective of this study was to stimulate microbial biodegradation of petroleum pollution in groundwater and to analyze changes in the abundance and distribution of organic compounds detectable in petroleum. Bioremediation was conducted in a closed bipolar system, by bioaugmentation with consortia of hydrocarbon degrading microorganisms (HD) and biostimulation with nutrients. Comprehensive twodimensional gas chromatography-mass spectrometry (GC X GC-MS) was used to visualize all fractions simultaneously. During the study, the content of total petroleum hydrocarbon (TPH) in groundwater decreased by 92.7% of the initial level, and the average rate of biodegradation was 0.1 mg/L per day. Increased numbers of HD were observed and the dominant genera were Pseudomonas, Rhodococcus, Achromobacter, Bacillus, and Micromonospora. In the first 30 days of bioremediation, there was no significant biodegradation of n-alkanes and petroleum biomarkers - isoprenoids such as pristane and phytane, and polycyclic-saturated hydrocarbons such as terpanes and steranes. However, after 60 days of bioremediation, more than 95% of n-alkanes, terpanes and steranes were biodegraded. Phenanthrene and its methyl-,dimethyl-, and trimethyl-isomers were biodegraded and reduced by more than 99% of their initial levels. However, their decomposition had clearly commenced after just 30 days. This is a somewhat surprising result since it follows that the phenanthrenes were more susceptible to biodegradation than the n-alkanes and isoprenoids. Depending on the microbial community used for bioaugmentation, biodegradation of phenanthrene can precede biodegradation of saturated hydrocarbons.
PB  - Wiley, Hoboken
T2  - Clean - Soil, Air, Water
T1  - Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater
VL  - 45
IS  - 2
DO  - 10.1002/clen.201600023
ER  - 
@article{
author = "Beškoski, Vladimir and Miletić, Srđan B. and Ilić, Mila V. and Gojgić-Cvijović, Gordana D. and Papić, Petar and Marić, Nenad and Šolević-Knudsen, T. and Jovančićević, Branimir and Nakano, Takeshi and Vrvić, Miroslav M.",
year = "2017",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/3045",
abstract = "The objective of this study was to stimulate microbial biodegradation of petroleum pollution in groundwater and to analyze changes in the abundance and distribution of organic compounds detectable in petroleum. Bioremediation was conducted in a closed bipolar system, by bioaugmentation with consortia of hydrocarbon degrading microorganisms (HD) and biostimulation with nutrients. Comprehensive twodimensional gas chromatography-mass spectrometry (GC X GC-MS) was used to visualize all fractions simultaneously. During the study, the content of total petroleum hydrocarbon (TPH) in groundwater decreased by 92.7% of the initial level, and the average rate of biodegradation was 0.1 mg/L per day. Increased numbers of HD were observed and the dominant genera were Pseudomonas, Rhodococcus, Achromobacter, Bacillus, and Micromonospora. In the first 30 days of bioremediation, there was no significant biodegradation of n-alkanes and petroleum biomarkers - isoprenoids such as pristane and phytane, and polycyclic-saturated hydrocarbons such as terpanes and steranes. However, after 60 days of bioremediation, more than 95% of n-alkanes, terpanes and steranes were biodegraded. Phenanthrene and its methyl-,dimethyl-, and trimethyl-isomers were biodegraded and reduced by more than 99% of their initial levels. However, their decomposition had clearly commenced after just 30 days. This is a somewhat surprising result since it follows that the phenanthrenes were more susceptible to biodegradation than the n-alkanes and isoprenoids. Depending on the microbial community used for bioaugmentation, biodegradation of phenanthrene can precede biodegradation of saturated hydrocarbons.",
publisher = "Wiley, Hoboken",
journal = "Clean - Soil, Air, Water",
title = "Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater",
volume = "45",
number = "2",
doi = "10.1002/clen.201600023"
}
Beškoski, V., Miletić, S. B., Ilić, M. V., Gojgić-Cvijović, G. D., Papić, P., Marić, N., Šolević-Knudsen, T., Jovančićević, B., Nakano, T.,& Vrvić, M. M. (2017). Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater.
Clean - Soil, Air, Water
Wiley, Hoboken., 45(2).
https://doi.org/10.1002/clen.201600023
Beškoski V, Miletić SB, Ilić MV, Gojgić-Cvijović GD, Papić P, Marić N, Šolević-Knudsen T, Jovančićević B, Nakano T, Vrvić MM. Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater. Clean - Soil, Air, Water. 2017;45(2)
Beškoski Vladimir, Miletić Srđan B., Ilić Mila V., Gojgić-Cvijović Gordana D., Papić Petar, Marić Nenad, Šolević-Knudsen T., Jovančićević Branimir, Nakano Takeshi, Vrvić Miroslav M., "Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater" Clean - Soil, Air, Water, 45, no. 2 (2017),
https://doi.org/10.1002/clen.201600023 .
1
6
5
6

Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater

Beškoski, Vladimir; Miletić, Srđan B.; Ilić, Mila V.; Gojgić-Cvijović, Gordana D.; Papić, Petar; Marić, Nenad; Šolević-Knudsen, Tatjana; Jovančićević, Branimir; Nakano, Takeshi; Vrvić, Miroslav M.

(Wiley, Hoboken, 2017)

TY  - JOUR
AU  - Beškoski, Vladimir
AU  - Miletić, Srđan B.
AU  - Ilić, Mila V.
AU  - Gojgić-Cvijović, Gordana D.
AU  - Papić, Petar
AU  - Marić, Nenad
AU  - Šolević-Knudsen, Tatjana
AU  - Jovančićević, Branimir
AU  - Nakano, Takeshi
AU  - Vrvić, Miroslav M.
PY  - 2017
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/2436
AB  - The objective of this study was to stimulate microbial biodegradation of petroleum pollution in groundwater and to analyze changes in the abundance and distribution of organic compounds detectable in petroleum. Bioremediation was conducted in a closed bipolar system, by bioaugmentation with consortia of hydrocarbon degrading microorganisms (HD) and biostimulation with nutrients. Comprehensive twodimensional gas chromatography-mass spectrometry (GC X GC-MS) was used to visualize all fractions simultaneously. During the study, the content of total petroleum hydrocarbon (TPH) in groundwater decreased by 92.7% of the initial level, and the average rate of biodegradation was 0.1 mg/L per day. Increased numbers of HD were observed and the dominant genera were Pseudomonas, Rhodococcus, Achromobacter, Bacillus, and Micromonospora. In the first 30 days of bioremediation, there was no significant biodegradation of n-alkanes and petroleum biomarkers - isoprenoids such as pristane and phytane, and polycyclic-saturated hydrocarbons such as terpanes and steranes. However, after 60 days of bioremediation, more than 95% of n-alkanes, terpanes and steranes were biodegraded. Phenanthrene and its methyl-,dimethyl-, and trimethyl-isomers were biodegraded and reduced by more than 99% of their initial levels. However, their decomposition had clearly commenced after just 30 days. This is a somewhat surprising result since it follows that the phenanthrenes were more susceptible to biodegradation than the n-alkanes and isoprenoids. Depending on the microbial community used for bioaugmentation, biodegradation of phenanthrene can precede biodegradation of saturated hydrocarbons.
PB  - Wiley, Hoboken
T2  - CLEAN - Soil Air Water
T1  - Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater
VL  - 45
IS  - 2
DO  - 10.1002/clen.201600023
ER  - 
@article{
author = "Beškoski, Vladimir and Miletić, Srđan B. and Ilić, Mila V. and Gojgić-Cvijović, Gordana D. and Papić, Petar and Marić, Nenad and Šolević-Knudsen, Tatjana and Jovančićević, Branimir and Nakano, Takeshi and Vrvić, Miroslav M.",
year = "2017",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/2436",
abstract = "The objective of this study was to stimulate microbial biodegradation of petroleum pollution in groundwater and to analyze changes in the abundance and distribution of organic compounds detectable in petroleum. Bioremediation was conducted in a closed bipolar system, by bioaugmentation with consortia of hydrocarbon degrading microorganisms (HD) and biostimulation with nutrients. Comprehensive twodimensional gas chromatography-mass spectrometry (GC X GC-MS) was used to visualize all fractions simultaneously. During the study, the content of total petroleum hydrocarbon (TPH) in groundwater decreased by 92.7% of the initial level, and the average rate of biodegradation was 0.1 mg/L per day. Increased numbers of HD were observed and the dominant genera were Pseudomonas, Rhodococcus, Achromobacter, Bacillus, and Micromonospora. In the first 30 days of bioremediation, there was no significant biodegradation of n-alkanes and petroleum biomarkers - isoprenoids such as pristane and phytane, and polycyclic-saturated hydrocarbons such as terpanes and steranes. However, after 60 days of bioremediation, more than 95% of n-alkanes, terpanes and steranes were biodegraded. Phenanthrene and its methyl-,dimethyl-, and trimethyl-isomers were biodegraded and reduced by more than 99% of their initial levels. However, their decomposition had clearly commenced after just 30 days. This is a somewhat surprising result since it follows that the phenanthrenes were more susceptible to biodegradation than the n-alkanes and isoprenoids. Depending on the microbial community used for bioaugmentation, biodegradation of phenanthrene can precede biodegradation of saturated hydrocarbons.",
publisher = "Wiley, Hoboken",
journal = "CLEAN - Soil Air Water",
title = "Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater",
volume = "45",
number = "2",
doi = "10.1002/clen.201600023"
}
Beškoski, V., Miletić, S. B., Ilić, M. V., Gojgić-Cvijović, G. D., Papić, P., Marić, N., Šolević-Knudsen, T., Jovančićević, B., Nakano, T.,& Vrvić, M. M. (2017). Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater.
CLEAN - Soil Air Water
Wiley, Hoboken., 45(2).
https://doi.org/10.1002/clen.201600023
Beškoski V, Miletić SB, Ilić MV, Gojgić-Cvijović GD, Papić P, Marić N, Šolević-Knudsen T, Jovančićević B, Nakano T, Vrvić MM. Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater. CLEAN - Soil Air Water. 2017;45(2)
Beškoski Vladimir, Miletić Srđan B., Ilić Mila V., Gojgić-Cvijović Gordana D., Papić Petar, Marić Nenad, Šolević-Knudsen Tatjana, Jovančićević Branimir, Nakano Takeshi, Vrvić Miroslav M., "Biodegradation of Isoprenoids, Steranes, Terpanes, and Phenanthrenes During In Situ Bioremediation of Petroleum-Contaminated Groundwater" CLEAN - Soil Air Water, 45, no. 2 (2017),
https://doi.org/10.1002/clen.201600023 .
1
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Distribution of perfluoroalkyl compounds in Osaka Bay and coastal waters of Western Japan

Beškoski, Vladimir; Yamamoto, Katsuya; Yamamoto, Atsushi; Okamura, Hideo; Hayashi, Mitsuru; Nakano, Takeshi; Matsumura, Chisato; Fukushi, Keiichi; Wada, Shinpei; Inui, Hideyuki

(Pergamon-Elsevier Science Ltd, Oxford, 2017)

TY  - JOUR
AU  - Beškoski, Vladimir
AU  - Yamamoto, Katsuya
AU  - Yamamoto, Atsushi
AU  - Okamura, Hideo
AU  - Hayashi, Mitsuru
AU  - Nakano, Takeshi
AU  - Matsumura, Chisato
AU  - Fukushi, Keiichi
AU  - Wada, Shinpei
AU  - Inui, Hideyuki
PY  - 2017
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/2385
AB  - Perfluoroalkyl acids (PFAAs) including perfluoroalkyl sulfonates (PFSAs) and perfluoroallcyl carboxylates (PFCAs) were analyzed in sediment samples taken from Ajifu Waterway in Osaka city, from Osaka Bay, and from Kagoshima Bay, as well as in fifteen seawater samples collected from Osaka Bay and coastal waters of Western Japan. In all sediment samples, only PFCAs were detected, and the highest concentration was determined in Ajifu Waterway, where Sigma PFAA was 58990 ng kg(-1) dry weight. The total concentrations of PFAAs in sea water samples ranged between the limit of quantification and 53.4 ng L-1, and perfluorohexanoic acid was the most prevalent and had the highest concentration of 37 ng L-1. The changes in the patterns and concentrations of PFAA5 in Osaka Bay and coastal waters of Western Japan indicate that the PFAAs in surface waters are influenced by sources from Keihanshin Metropolitan Area, mainly the Yodo River basin, and the dilution effect which naturally occurs during their transport to the Pacific Ocean. (C) 2016 Elsevier Ltd. All rights reserved.
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Chemosphere
T1  - Distribution of perfluoroalkyl compounds in Osaka Bay and coastal waters of Western Japan
VL  - 170
SP  - 260
EP  - 265
DO  - 10.1016/j.chemosphere.2016.12.028
ER  - 
@article{
author = "Beškoski, Vladimir and Yamamoto, Katsuya and Yamamoto, Atsushi and Okamura, Hideo and Hayashi, Mitsuru and Nakano, Takeshi and Matsumura, Chisato and Fukushi, Keiichi and Wada, Shinpei and Inui, Hideyuki",
year = "2017",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/2385",
abstract = "Perfluoroalkyl acids (PFAAs) including perfluoroalkyl sulfonates (PFSAs) and perfluoroallcyl carboxylates (PFCAs) were analyzed in sediment samples taken from Ajifu Waterway in Osaka city, from Osaka Bay, and from Kagoshima Bay, as well as in fifteen seawater samples collected from Osaka Bay and coastal waters of Western Japan. In all sediment samples, only PFCAs were detected, and the highest concentration was determined in Ajifu Waterway, where Sigma PFAA was 58990 ng kg(-1) dry weight. The total concentrations of PFAAs in sea water samples ranged between the limit of quantification and 53.4 ng L-1, and perfluorohexanoic acid was the most prevalent and had the highest concentration of 37 ng L-1. The changes in the patterns and concentrations of PFAA5 in Osaka Bay and coastal waters of Western Japan indicate that the PFAAs in surface waters are influenced by sources from Keihanshin Metropolitan Area, mainly the Yodo River basin, and the dilution effect which naturally occurs during their transport to the Pacific Ocean. (C) 2016 Elsevier Ltd. All rights reserved.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Chemosphere",
title = "Distribution of perfluoroalkyl compounds in Osaka Bay and coastal waters of Western Japan",
volume = "170",
pages = "260-265",
doi = "10.1016/j.chemosphere.2016.12.028"
}
Beškoski, V., Yamamoto, K., Yamamoto, A., Okamura, H., Hayashi, M., Nakano, T., Matsumura, C., Fukushi, K., Wada, S.,& Inui, H. (2017). Distribution of perfluoroalkyl compounds in Osaka Bay and coastal waters of Western Japan.
Chemosphere
Pergamon-Elsevier Science Ltd, Oxford., 170, 260-265.
https://doi.org/10.1016/j.chemosphere.2016.12.028
Beškoski V, Yamamoto K, Yamamoto A, Okamura H, Hayashi M, Nakano T, Matsumura C, Fukushi K, Wada S, Inui H. Distribution of perfluoroalkyl compounds in Osaka Bay and coastal waters of Western Japan. Chemosphere. 2017;170:260-265
Beškoski Vladimir, Yamamoto Katsuya, Yamamoto Atsushi, Okamura Hideo, Hayashi Mitsuru, Nakano Takeshi, Matsumura Chisato, Fukushi Keiichi, Wada Shinpei, Inui Hideyuki, "Distribution of perfluoroalkyl compounds in Osaka Bay and coastal waters of Western Japan" Chemosphere, 170 (2017):260-265,
https://doi.org/10.1016/j.chemosphere.2016.12.028 .
13
10
14

Supplementary data for article: Beškoski, V.; Takemine, S.; Nakano, T.; Slavković-Beškoski, L.; Gojgić-Cvijović, G. D.; Ilić, M. V.; Miletić, S. B.; Vrvić, M. M. Perfluorinated Compounds in Sediment Samples from the Wastewater Canal of Pancevo (Serbia) Industrial Area. Chemosphere 2013, 91 (10), 1408–1415. https://doi.org/10.1016/j.chemosphere.2012.12.079

Beškoski, Vladimir; Takemine, Shusuke; Nakano, Takeshi; Slavković-Beškoski, Latinka; Gojgić-Cvijović, Gordana D.; Ilić, Mila V.; Miletić, Srđan B.; Vrvić, Miroslav M.

(Pergamon-Elsevier Science Ltd, Oxford, 2013)

TY  - BOOK
AU  - Beškoski, Vladimir
AU  - Takemine, Shusuke
AU  - Nakano, Takeshi
AU  - Slavković-Beškoski, Latinka
AU  - Gojgić-Cvijović, Gordana D.
AU  - Ilić, Mila V.
AU  - Miletić, Srđan B.
AU  - Vrvić, Miroslav M.
PY  - 2013
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/3512
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Chemosphere
T1  - Supplementary data for article: Beškoski, V.; Takemine, S.; Nakano, T.; Slavković-Beškoski, L.; Gojgić-Cvijović, G. D.; Ilić, M. V.; Miletić, S. B.; Vrvić, M. M. Perfluorinated Compounds in Sediment Samples from the Wastewater Canal of Pancevo (Serbia) Industrial Area. Chemosphere 2013, 91 (10), 1408–1415. https://doi.org/10.1016/j.chemosphere.2012.12.079
ER  - 
@book{
author = "Beškoski, Vladimir and Takemine, Shusuke and Nakano, Takeshi and Slavković-Beškoski, Latinka and Gojgić-Cvijović, Gordana D. and Ilić, Mila V. and Miletić, Srđan B. and Vrvić, Miroslav M.",
year = "2013",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/3512",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Chemosphere",
title = "Supplementary data for article: Beškoski, V.; Takemine, S.; Nakano, T.; Slavković-Beškoski, L.; Gojgić-Cvijović, G. D.; Ilić, M. V.; Miletić, S. B.; Vrvić, M. M. Perfluorinated Compounds in Sediment Samples from the Wastewater Canal of Pancevo (Serbia) Industrial Area. Chemosphere 2013, 91 (10), 1408–1415. https://doi.org/10.1016/j.chemosphere.2012.12.079"
}
Beškoski, V., Takemine, S., Nakano, T., Slavković-Beškoski, L., Gojgić-Cvijović, G. D., Ilić, M. V., Miletić, S. B.,& Vrvić, M. M. (2013). Supplementary data for article: Beškoski, V.; Takemine, S.; Nakano, T.; Slavković-Beškoski, L.; Gojgić-Cvijović, G. D.; Ilić, M. V.; Miletić, S. B.; Vrvić, M. M. Perfluorinated Compounds in Sediment Samples from the Wastewater Canal of Pancevo (Serbia) Industrial Area. Chemosphere 2013, 91 (10), 1408–1415. https://doi.org/10.1016/j.chemosphere.2012.12.079.
Chemosphere
Pergamon-Elsevier Science Ltd, Oxford..
Beškoski V, Takemine S, Nakano T, Slavković-Beškoski L, Gojgić-Cvijović GD, Ilić MV, Miletić SB, Vrvić MM. Supplementary data for article: Beškoski, V.; Takemine, S.; Nakano, T.; Slavković-Beškoski, L.; Gojgić-Cvijović, G. D.; Ilić, M. V.; Miletić, S. B.; Vrvić, M. M. Perfluorinated Compounds in Sediment Samples from the Wastewater Canal of Pancevo (Serbia) Industrial Area. Chemosphere 2013, 91 (10), 1408–1415. https://doi.org/10.1016/j.chemosphere.2012.12.079. Chemosphere. 2013;
Beškoski Vladimir, Takemine Shusuke, Nakano Takeshi, Slavković-Beškoski Latinka, Gojgić-Cvijović Gordana D., Ilić Mila V., Miletić Srđan B., Vrvić Miroslav M., "Supplementary data for article: Beškoski, V.; Takemine, S.; Nakano, T.; Slavković-Beškoski, L.; Gojgić-Cvijović, G. D.; Ilić, M. V.; Miletić, S. B.; Vrvić, M. M. Perfluorinated Compounds in Sediment Samples from the Wastewater Canal of Pancevo (Serbia) Industrial Area. Chemosphere 2013, 91 (10), 1408–1415. https://doi.org/10.1016/j.chemosphere.2012.12.079" Chemosphere (2013)

Perfluorinated compounds in sediment samples from the wastewater canal of Pancevo (Serbia) industrial area

Beškoski, Vladimir; Takemine, Shusuke; Nakano, Takeshi; Slavković-Beškoski, Latinka; Gojgić-Cvijović, Gordana D.; Ilić, Mila V.; Miletić, Srđan B.; Vrvić, Miroslav M.

(Pergamon-Elsevier Science Ltd, Oxford, 2013)

TY  - JOUR
AU  - Beškoski, Vladimir
AU  - Takemine, Shusuke
AU  - Nakano, Takeshi
AU  - Slavković-Beškoski, Latinka
AU  - Gojgić-Cvijović, Gordana D.
AU  - Ilić, Mila V.
AU  - Miletić, Srđan B.
AU  - Vrvić, Miroslav M.
PY  - 2013
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/1354
AB  - Perfluoroalkyl sulfonates (PFSAs) and perfluoroalkyl carboxylates (PFCAs) were analyzed in sediment samples from the wastewater canal draining the industrial complex of Pancevo, Serbia (oil refinery, petrochemical plant, and fertilizer factory). The canal is directly connected to Europe's second largest river, the Danube, which drains its water into the Black Sea. Perfluorooctane sulfonate (PFOS) up to 5.7 ng d(-1) weight (dw) and total Perfluorinated compounds (PFCs) up to 6.3 ng g(-1) dw were detected. Compared to other reports, high levels of PFOS were found, even though PFCs are not used in the industrial production associated with this canal. The PFOS concentration in water was recalculated using the adsorption coefficient, K-oc from literature. Using the average output of wastewater from the canal, a mass load of 1.38 kg PFOS per year discharged in the Danube River has been calculated, which undoubtedly points to the contribution to global persistent organic pollution of surface waters originating from this industrial place.
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Chemosphere
T1  - Perfluorinated compounds in sediment samples from the wastewater canal of Pancevo (Serbia) industrial area
VL  - 91
IS  - 10
SP  - 1408
EP  - 1415
DO  - 10.1016/j.chemosphere.2012.12.079
ER  - 
@article{
author = "Beškoski, Vladimir and Takemine, Shusuke and Nakano, Takeshi and Slavković-Beškoski, Latinka and Gojgić-Cvijović, Gordana D. and Ilić, Mila V. and Miletić, Srđan B. and Vrvić, Miroslav M.",
year = "2013",
url = "http://cherry.chem.bg.ac.rs/handle/123456789/1354",
abstract = "Perfluoroalkyl sulfonates (PFSAs) and perfluoroalkyl carboxylates (PFCAs) were analyzed in sediment samples from the wastewater canal draining the industrial complex of Pancevo, Serbia (oil refinery, petrochemical plant, and fertilizer factory). The canal is directly connected to Europe's second largest river, the Danube, which drains its water into the Black Sea. Perfluorooctane sulfonate (PFOS) up to 5.7 ng d(-1) weight (dw) and total Perfluorinated compounds (PFCs) up to 6.3 ng g(-1) dw were detected. Compared to other reports, high levels of PFOS were found, even though PFCs are not used in the industrial production associated with this canal. The PFOS concentration in water was recalculated using the adsorption coefficient, K-oc from literature. Using the average output of wastewater from the canal, a mass load of 1.38 kg PFOS per year discharged in the Danube River has been calculated, which undoubtedly points to the contribution to global persistent organic pollution of surface waters originating from this industrial place.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Chemosphere",
title = "Perfluorinated compounds in sediment samples from the wastewater canal of Pancevo (Serbia) industrial area",
volume = "91",
number = "10",
pages = "1408-1415",
doi = "10.1016/j.chemosphere.2012.12.079"
}
Beškoski, V., Takemine, S., Nakano, T., Slavković-Beškoski, L., Gojgić-Cvijović, G. D., Ilić, M. V., Miletić, S. B.,& Vrvić, M. M. (2013). Perfluorinated compounds in sediment samples from the wastewater canal of Pancevo (Serbia) industrial area.
Chemosphere
Pergamon-Elsevier Science Ltd, Oxford., 91(10), 1408-1415.
https://doi.org/10.1016/j.chemosphere.2012.12.079
Beškoski V, Takemine S, Nakano T, Slavković-Beškoski L, Gojgić-Cvijović GD, Ilić MV, Miletić SB, Vrvić MM. Perfluorinated compounds in sediment samples from the wastewater canal of Pancevo (Serbia) industrial area. Chemosphere. 2013;91(10):1408-1415
Beškoski Vladimir, Takemine Shusuke, Nakano Takeshi, Slavković-Beškoski Latinka, Gojgić-Cvijović Gordana D., Ilić Mila V., Miletić Srđan B., Vrvić Miroslav M., "Perfluorinated compounds in sediment samples from the wastewater canal of Pancevo (Serbia) industrial area" Chemosphere, 91, no. 10 (2013):1408-1415,
https://doi.org/10.1016/j.chemosphere.2012.12.079 .
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