Korean Journal of Chemical Engineering, Vol.36, No.8, 1305-1312, 2019
Biodegradation of tetrachloroethylene by a newly isolated aerobic Sphingopyxis ummariensis VR13
Chlorinated aliphatic solvents are major sources of groundwater and soil contamination. In this study, an aerobic bacterial strain, Sphingopyxis ummariensis VR13, which has been newly isolated from petrochemical wastewater sludge, was used for the dechlorination of PCE in relatively high concentrations. The addition of a co-substrate as glucose and yeast extract enhanced the dechlorination of PCE. An adaptation of the bacterial cells to PCE resulted in a significant increase in the PCE degradation yield (62.9-39.4%) at relatively high initial PCE concentrations (0.4-5 mM). The adapted cells achieved the highest biodegradation yield (64.8%) in 1.2mM. However, the maximum dechlorination percentage (41.6%) was measured in lower PCE concentration. The kinetic studies showed that PCE degradation was associated with the biomass growth because a higher removal of PCE (64.8%) occurred in a higher cell density. The degradation kinetics of PCE was properly fitted by Monod-like equation with the specific degradation rate of 7.2mmol PCE (g biomass) -1d -1, which was even faster than the reported anaerobic bacteria at this concentration. This strain can be used in the aerobic degradation of PCE.
[References]
Doucette WJ, Chard JK, Fabrizius H, Crouch C, Petersen MR, Carlsen TE, Chars BK, Gorder K, Environ. Sci. Technol. , 41 , 2505, 2007
Janulewicz PA, Killiany RJ, White RF, Martin BM, Winter MR, Weinberg JM, Winter M, Martin B, Aschengrau A, Neurotoxicol. Teratol. , 38 , 13, 2013
Ye L, Fei L, Honghan C, Jinhua S, Yufan W, Acta Geolog. Sinica , 82 , 911, 2008
Tiehm A, Schmidt KR, Curr. Opin. Biotechnol. , 22 , 415, 2011
Dong Y, Butler EC, Philp RP, Krumholz LR, Biodegradation , 22 , 431, 2011
Futagami T, Goto M, Furukawa K, Chem. Rec. , 8 , 1, 2008
Doherty RE, Environ. Forensics , 1 , 69, 2000
Miguet M, Goetz V, Plantard G, Jaeger Y, Ind. Eng. Chem. Res. , 54 (40), 9813, 2015
Linek V, Sinkule J, Janda V, Water Res. , 32 , 1264, 1998
Gil A, Elmchaouri A, El Mouzdahir Y, Korili S, Adsorp. Sci. Technol. , 33 , 355, 2015
Grzechulska-Damszel J, Grzeskowiak M, Przepiorski J, Morawski A, Int. J. Environ. Res. , 8 , 347, 2014
Zheng F, Gao B, Sun Y, Shi X, Xu H, Wu J, Gao Y, Chem. Eng. J. , 2016, 283 , 595, 283
Dolinova I, Strojsova M, Cernik M, Nemecek J, Machackova J, Sevcu A, Environ. Sci. Pollut. Res. , 24 , 13262, 2017
Yoshikawa M, Zhang M, Toyota K, Water, Air, Soil Pollut. , 228 , 25, 2017
Lee J, Lee TK, J. Microbiol. Biotechnol. , 26 , 120, 2016
Mattes TE, Alexander AK, Coleman NV, FEMS Microbiol. , 34 , 445, 2010
Ryoo D, Shim H, Canada K, Barbieri P, Wood TK, Nature Biotechnol. , 18 , 775, 2000
Shim H, Ryoo D, Barbieri P, Wood TK, Appl. Microbiol. Biotechnol. , 56 (1-2), 265, 2001
Yoshikawa M, Zhang M, Toyota K, Microb. Environ. , 23 , 188, 2017
Tabernacka A, Zborowska E, Pogoda K, Zoladek M, Environ. Technol. , 40 (4), 470, 2019
Pazarlioglu NK, Telefoncu A, Proc. Biochem. , 40 , 1807, 2005
Gonzalez G, Herrera G, Garcia MT, Pena M, Bioresour. Technol. , 80 (2), 137, 2001
Shokrollahzadeh S, Azizmohseni F, Golmohamad F, Adv. Environ. Sci. Technol. , 1 , 1, 2015
Sedighi M, Zamir SM, Vahabzadeh F, J. Environ. Manage. , 165 , 53, 2016
Yu J, Cai W, Cheng Z, Chen J, J. Environ. Sci. , 26 , 1108, 2014
Aranda C, Godoy F, Becerra J, Barra R, Martinez M, Biodegradation , 14 , 265, 2003
Gaza S, Schmidt KR, Weigold P, Heidinger M, Tiehm A, Water Res. , 151 , 343, 2019
Fathepure BZ, Boyd SA, J. Appl. Environ. Microbiol. , 54 , 2976, 1988
Shen H, Sewell GW, Environ. Sci. Technol. , 39 , 9286, 2005
Zhang Y, Tay JH, Biochem. Eng. J. , 106 , 1, 2016
Li Y, Li B, Wang CP, Fan JZ, Sun HW, Int. J. Mol. Sci. , 15 (5), 9134, 2014
Bhatt P, Kumar MS, Mudliar S, Chakrabarti T, Crit. Rev. Environ. Sci. Technol. , 37 , 165, 2007
Landa AS, Sipkema EM, Weijma J, Beenackers A, Dolfing J, Janssen DB, J. Appl. Environ. Microbiol. , 60 , 3368, 1994
Chang HL, Alvarezcohen L, Biotechnol. Bioeng. , 45 (5), 440, 1995
Fan S, Scow KM, J. Appl. Environ. Microbiol. , 59 , 1911, 1993
Humphries JA, Ashe AMH, Smiley JA, Johnston CG, Can. J. Microbiol. , 51 , 433, 2005
Nijenhuis I, Andert J, Beck K, Kastner M, Diekert G, Richnow HH, J. Appl. Environ. Microbiol. , 71 , 3413, 2005
Suyama A, Iwakiri R, Kai K, Tokunaga T, Sera N, Furukawa K, Biosci. Biotechnol. Biochem. , 65 , 1474, 2001
Chen YM, Lin TF, Huang C, Lin JC, Chemosphere , 72 , 1671, 2008
DiSpirito AA, Gulledge J, Shiemke AK, Murrell JC, Lidstrom ME. Krema CL, Biodegradation , 2 , 151, 1991
Lontoh S, DiSpirito AA, Semrau JD, Arch. Microbiol. , 171 , 301, 1999
Shukla AK, Vishwakarma P, Upadhyay SN, Tripathi AK, Prasana HC, Dubey SK, Bioresour. Technol. , 100 (9), 2469, 2009
Shukla AK, Vishwakarma P, Singh RS, Upadhyay SN, Dubey SK, Bioresour. Technol. , 101 (7), 2126, 2010
Li H, Zhang SY, Wang XL, Yang J, Gu JD, Zhu RL, Wang P, Lin KF, Liu YD, Environ. Technol. , 36 , 667, 2015
Neufeld JD, Vohra J, Dumont MG, Lueders T, Manefield M, Friedrich MW, Murrell JC, Nat. Protoc. , 2 , 860, 2007
Yoshikawa M, Zhang M, Kurisu F, Toyota K, Water, Air, Soil Pollut. , 228 , 418, 2017
[Cited By]
Rahman MS, Kim YK, Chan MM, Lee SH, Choi YH, Cho SS, Park CH, Yoo JC, Korean Journal of Chemical Engineering , 37 (11), 1942, 2020
이전 논문 다음 논문
Result Search