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Selective Enrichment to Obtain an Indigenous Microbial Consortium Degrading Recalcitrant TPHs(total petroleum hydrocarbons) from Petroleum-contaminated Soil in Kuwait
Jinho Ha¹·Seonghoon Kim²·Hyunsoo Lim¹·Woosik Jung¹·Dajung Kim¹·Keumyoung Lee³·Joonhong Park¹*
¹School of Civil and Environmental Engineering, Yonsei University, Seoul 03722, Korea
²Hankuk Engineering Consultant Co., Ltd, Gyeonggi-Do 14056, Korea
³H-Plus Eco Ltd, Seoul 05610, Korea
쿠웨이트 원유오염 토양 내 잔류 난분해성 유기물 분해능 지닌 토착 미생물 배양체 획득을 위한 선택적 계대배양 실험 연구
하진호¹·김성훈²·임현수¹·정우식¹·김다정¹·이금영³·박준홍¹*
¹연세대학교 사회환경시스템공학부
²(주)한국종합엔지니어링
³에이치플러스에코(주)
This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References

1. Al‐Awadhi, N., Al‐Daher, R., EINawawy, A., and Salba, M.T., 1996, Bioremediation of oil‐contaminated soil in Kuwait. I. landfarming to remediate oil‐contaminated soil, Soil and Sediment Contamination, 5(3), 243-260.
2. Ali, N., Dashti, N., Khanafer, M., Al-Awadhi, H., Radwan, S., 2020, Bioremediation of soils saturated with spilled crude oil, Scientific reports, 10(1), 1-9.
3. Alshemmari, H., 2021, An overview of persistent organic pollutants along the coastal environment of Kuwait, Open Chemistry, 19(1), 149-156.
4. Andreolli, M., Lampis, S., Poli, M., Gullner, G., Biró, B., and Vallini, G., 2013, Endophytic Burkholderia fungorum DBT1 can improve phytoremediation efficiency of polycyclic aromatic hydrocarbons, Chemosphere, 92(6), 688-694.
5. Ashraf, M.A., 2017, Persistent organic pollutants (POPs): a global issue, a global challenge, Environmental Science and Pollution Research, 24, 4223-4227.
6. Carmichael, A.B. and Wong, L.L., 2001, Protein engineering of Bacillus megaterium CYP102: the oxidation of polycyclic aromatic hydrocarbons, European Journal of Biochemistry, 268 (10), 3117-3125.
7. Choi, M., Chaudhary, R., Lee, M., Kim, J., Cho, K., Chung, Y.C., Bae, H., and Park, J., 2020, Enhanced selective enrichment of partial nitritation and anammox bacteria in a novel two-stage continuous flow system using flat-type poly (vinylalcohol) cryogel films, Bioresource Technology, 300, 122546.
8. Dineen, S.M., Aranda IV, R., Anders, D.L., and Robertson, J.M., 2010, An evaluation of commercial DNA extraction kits for the isolation of bacterial spore DNA from soil, Journal of Applied Microbiology, 109(6), 1886-1896.
9. Ejoh, O.E., Adenipekun, C.O., and Ogunjobi, A.A., 2012, Effect of Pleurotus tuber-regium Singer and microorganisms on degradation of soil contaminated with spent cutting fluid, New York Science Journal, 5(10), 121-128.
10. Eto, D., Watanabe, K., Saeki, H., Oinuma, K.I., Otani, K.I., Nobukuni, M., Takano, H.S., Takano, H., Beppu, T., Ueda, K., 2013, Divergent effects of desferrioxamine on bacterial growth and characteristics, The Journal of Antibiotics, 66(4), 199-203.
11. Guo-Liang, Z., Yue-ting, W.U., Xin-ping, Q., and Qin, M., 2005, Biodegradation of crude oil by Pseudomonas aeruginosa in the presence of rhamnolipids, Journal of Zhejiang University Science B, 6(8), 725-730.
12. Haritash, A.K. and Kaushik, C.P., 2009, Biodegradation aspects of polycyclic aromatic hydrocarbons (PAHs): a review, Journal of Hazardous Materials, 169(1-3), 1-15.
13. Hamzah, A., Rabu, A., Azmy, R.F.H.R., and Yussoff, N.A., 2010, Isolation and characterization of bacteria degrading Sumandak and South Angsi oils, Sains Malaysiana, 39(2), 161-168.
14. Herlemann, D.P., Labrenz, M., Jürgens, K., Bertilsson, S., Waniek, J.J., and Andersson, A.F., 2011, Transitions in bacterial communities along the 2000 km salinity gradient of the Baltic Sea, The ISME Journal, 5(10), 1571-1579.
15. Izmalkova, T.Y., Gafarov, A.B., Sazonova, O.I., Sokolov, S.L., Kosheleva, I.A., and Boronin, A.M., 2018, Diversity of oil-degrading microorganisms in the Gulf of Finland (Baltic Sea) in spring and in summer, Microbiology, 87(2), 261-271.
16. JALILZADEH, Y.R., Sekhavatjou, M.S., Maktabi, P., ARBAB, S.N., Khadivi, S., Pourjafarian, V., 2014, The biodegradation of crude oil by Bacillus subtilis isolated from contaminated soil in hot weather areas, International Journal of Environmental Research, 8(2), 509-514.
17. Kavynifard, A., Ebrahimipour, G., and Ghasempour, A., 2016, Optimization of crude oil degradation by Dietzia cinnamea KA1, capable of biosurfactant production, Journal of Basic Microbiology, 56(5), 566-575.
18. Lee, J., Lee, T.K., Löffler, F.E., and Park, J., 2011, Characterization of microbial community structure and population dynamics of tetrachloroethene-dechlorinating tidal mudflat communities, Biodegradation, 22(4), 687-698.
19. Lu, X., Zhang, T., Fang, H.H.P., Leung, K.M., and Zhang, G., 2011, Biodegradation of naphthalene by enriched marine denitrifying bacteria, International Biodeterioration and Biodegradation, 65(1), 204-211.
20. Okoh, A., Ajisebutu, S., Babalola, G., and Trejo-Hernandez, M., 2001, Potential of Burkholderia cepacia RQ1 in the biodegradation of heavy crude oil, International Microbiology, 4(2), 83-87.
21. Radwan, S., 2008, Microbiology of Oil-Contaminated Desert Soils and Coastal Areas in the Arabian Gulf Region. Dion, P., and Nautiyal, C. S.,(ed.), Microbiology of Extreme Soils, Springer, Germany, p.275-298
22. Raymond, J.W., Rogers, T.N., Shonnard, D.R., Kline, A.A., 2001, A review of structure-based biodegradation estimation methods, Journal of Hazardous Materials, 84(2-3), 189-215.
23. Wang, W., Wang, L., and Shao, Z., 2010, Diversity and abundance of oil-degrading bacteria and alkane hydroxylase (alkB) genes in the subtropical seawater of Xiamen Island, Microbial Ecology, 60(2), 429-439.

This Article

2021; 26(4): 20-26

Published on Aug 31, 2021
10.7857/JSGE.2021.26.4.020
Received on Apr 6, 2021
Revised on Apr 13, 2021
Accepted on Aug 19, 2021

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Correspondence to

Joonhong Park
School of Civil and Environmental Engineering, Yonsei University, Seoul 03722, Korea
E-mail: parkj@yonsei.ac.kr