Article citationsMore>>
Liu, H., Yao, J., Yuan, Z., Shang, Y., Chen, H., Wang, F., Masakorala, K., Yu, C., Cai, M.M., Blake, R.E. and Choi, M.M.F. (2014) Isolation and Characterization of Crude-Oil-Degrading Bacteria from Oil-Water Mixture in Dagang Oilfield, China. International Biodeterioration & Biodegradation, 87, 52-59.
https://doi.org/10.1016/j.ibiod.2013.11.005
has been cited by the following article:
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TITLE:
Phytoremediation of Oil-Contaminated Soils by Combining Flowering Plant Cultivation and Inoculation with Acinetobacter junii Strain M-2
AUTHORS:
Takamitsu Kai, Yu Okamoto, Shuichiro Murakami, Masahiko Tamaki
KEYWORDS:
Phytoremediation, Zinnia, Acinetobacter junii Strain M-2, Total Petroleum Hydrocarbon, Dehydrogenase Activity
JOURNAL NAME:
Journal of Agricultural Chemistry and Environment,
Vol.9 No.3,
August
12,
2020
ABSTRACT: Oil contamination of the soil by petroleum products has become an
enormous environmental problem. In this study, we examined whether remediation
of oil-contaminated soils by cultivating three flowering plants (Mimosa,
Gazania, and Zinnia) could be enhanced by inoculation with Acinetobacter junii strain M-2 at different plant growth stages (at
sowing, at early growth, and at mid-growth). The growth of Zinnia cultivated in
oil-contaminated soils inoculated at sowing was significantly superior to that
in the non-inoculated soil. Although total petroleum hydrocarbon concentrations
in soils inoculated at sowing were nominally lower than those in non-inoculated
soils, especially in the case of Zinnia planting, the effect did not reach
statistical significance. However, dehydrogenase activity was significantly
higher in the soils inoculated with A. junii strain M-2 than in
non-inoculated soils for all three plant species tested. These results
demonstrate that a combination of ornamental plant cultivation (particularly
Zinnia) and inoculation with A. junii strain M-2 increases the efficiency of oil-contaminated soil phytoremediation.