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Issue
Korean Journal of Chemical Engineering,
Vol.39, No.11, 3074-3082, 2022
Analysis of diesel hydrocarbon decomposition using efficient indigenous bacterial isolate: Bacterial growth and biodegradation kinetics
Khalid S, Iqbal A, Javed A, Rashid J, Haq IU, El-Fetouh Barakat MA, Kumar R
Industrialization and urbanization have increased the demand for petroleum hydrocarbons; hence the likelihood of contamination of air, soil, and water bodies increases. The survival and biodegradation capabilities of fifteen bacterial isolates were tested in a harsh diesel environment. The bacteria were isolated from soil samples and identified by 16S rRNA gene sequencing. The biodegradation capability of isolates was performed in batch experiments, and diesel degradation analyses were conducted on gas chromatography-mass spectroscopy (GC-MS). The results revealed that only two bacterial isolates (A1 and E5) sufficiently consumed diesel hydrocarbons as a carbon-based energy source. 16S rRNA sequencing identified both isolates as Bacillus genera. An average of 60% of 3% (v/v) diesel was degraded in about 16 hours. Bacillus sp. E5 strain could degrade about 72% and 68% heavier compounds of C24 and C26. The Monod kinetic model for Bacillus sp. E5 utilizing diesel as a substrate showed maximum specific bacterial growth rate (µmax) as 0.1131 hr-1 at 1%, while 0.1287 hr-1 for 3% diesel. Results suggest that the isolated bacterial strain Bacillus sp. E5 has bioremediation potential and can be used as an alternative method for cleaning contaminated petroleum hydrocarbon field sites for sustainable development.
Keywords: Biodegradation; Indigenous Isolate; Diesel Hydrocarbons; Monod Kinetics; Wastewater
[References]
  1. Mustapha HI, Gupta PK, Yadav BK, Van Bruggen J, Lens P, Chemosphere, 205, 166, 2018
  2. Li H, Shen T, Song T, Bao M, Sun P, J. Taiwan Institute Chem. Eng., 93, 519, 2018
  3. Cerqueda-García D, García-Maldonado JQ, Aguirre-Macedo L, García-Cruz U, Mar. Pollut. Bull., 150, 110775, 2020
  4. Lambert T, Cantaurus, 25, 29, 2017
  5. Kennish MJ, Practical handbook of estuarine and marine pollution, C.R.C. Press (2017).
  6. Mojiri A, Zhou JL, Ohashi A, Ozaki N, Kindaichi T, Sci. Total Environ., 696, 133971, 2019
  7. Lin TC, Shen FT, Chang JS, Young CC, Arun AB, Lin SY, Chen TL, J. Taiwan Institute Chem. Eng., 40, 580, 2009
  8. Mahmud HNME, Huq AO, Bint-Yahya R, RSC Adv., 6, 14778, 2016
  9. Choo MY, Oi LE, Show PL, Chang JS, Ling TC, Ng EP, Phang SM, Juan JC, J. Taiwan Institute Chem. Eng., 79, 116, 2017
  10. Pete AJ, Bharti B, Benton MG, ACS EST Eng., 1, 928, 2021
  11. Sharma P, Kumar S, Pandey A, J. Environ. Chem. Eng., 2, 105684, 2021
  12. Jain M, Khan SA, Sharma K, Jadhao PR, Pant KK, Ziora ZM, Blaskovich MAT, Bioresour. Technol., 344, 126305, 2022
  13. Marchand C, St-Arnaud M, Hogland W, Bell TH, Hijri M, Int. Biodeterior. Biodegrad., 116, 48, 2017
  14. Nkem BM, Halimoon N, Yusoff FM, Johari WLW, Zakaria MP, Medipally SR, Kannan N, Mar. Pollut. Bull., 107, 261, 2016
  15. Bôto ML, Magalhães C, Perdigão R, Alexandrino DAM, Fernandes JP, Bernabeu AM, Ramos S, Carvalho MF, Front. Microbiol., 12, 633659, 2021
  16. Wang Y, Liang J, Wang J, Gao S, Environ. Sci. Pollut. Res., 25, 2830, 2018
  17. Kureel MK, Geed SR, Giri BS, Rai BN, Singh RS, Bioresour. Technol., 242, 92, 2017
  18. Liu CW, Liu HS, Process Biochem., 46, 202, 2011
  19. Karamalidis AK, Evangelou AC, Karabika E, Koukkou AI, Drainas C, Voudrias EA, Bioresour. Technol., 101, 6545, 2010
  20. Mansur AA, Taha M, Shahsavari E, Haleyur N, Adetutu EM, Ball AS, Int. Biodeterior. Biodegrad., 115, 179, 2016
  21. Fu X, Wang H, Bai Y, Xue J, Gao Y, Hu S, Wu T, Sun J, Environ. Sci. Ecotechnol., 2, 100028, 2020
  22. Manheim DC, Detwiler R, MethodsX, 6, 1398, 2019
  23. Sakthipriya N, Doble M, Sangwai JS, J. Pet. Sci. Eng., 160, 412, 2018
  24. Bhattacharya M, Guchhait S, Biswas D, Datta S, Bioprocess. Biosyst. Eng., 38, 2095, 2015
  25. Das N, Chandran P, Biotechnol. Res. Int., 2011, 1, 2011
  26. Rahman KSM, Rahman T, Lakshmanaperumalsamy P, Banat IM, J. Basic Microbiol., 42, 284, 2002
  27. Iqbal A, Arshad M, Karthikeyan R, Gentry TJ, Rashid J, Ahmed I, Schwab AP, 3 Biotech., 9, 35, 2019
  28. Islam MA, Thorstensen T, Clarke JL, Agrobacterium protocols, Vol. 2, Springer, New York, NY (2015).
  29. Jukes TH, Cantor CR, Mammalian protein metabolism, Vol. 3, Academic Press, New York (1969).
  30. Kumar S, Stecher G, Tamura K, Mol. Biol. Evol., 33, 1870, 2016
  31. Shen Y, Stehmeier LG, Voordouw G, Appl. Environ. Microbiol., 64, 637, 1998
  32. Hasan SA, Jabeen S, Biotechnol. Biotec. Eq., 29, 45, 2015
  33. Adeniji AO, Okoh OO, Okoh AI, J. Chem., 2017, 1, 2017
  34. Da Cruz GF, Dos Santos-Neto EV, Marsaioli AJ, Brazil. Org. Geochem., 39, 1204, 2008
  35. Palanisamy N, Ramya J, Kumar S, Vasanthi N, Chandran P, Khan S, J. Environ. Health Sci. Eng., 12, 142, 2014
  36. Luo Q, Zhang JG, Shen XR, Fan ZQ, He Y, Hou DY, Ann. Microbiol., 63, 633, 2013
  37. Lacalle RG, Gómez-Sagasti MT, Artetxe U, Garbisu C, Becerril JM, Sci. Total Environ., 618, 347, 2018
  38. Udgire M, Shah N, Jadhav M, Int. J. Curr. Microbio. Appl. Sci., 4, 708, 2015
  39. Makadia TH, Adetutu EM, Simons KL, Jardine D, Sheppard PJ, Ball AS, J. Environ. Manage., 92, 866, 2011
  40. Ramadass K, Megharaj M, Venkateswarlu K, Naidu R, Int. J. Environ. Sci. Technol., 13, 2863, 2016
  41. Raju MN, Leo R, Herminia SS, Morán REB, Venkateswarlu K, Laura S, Bull. Environ. Conta. Toxicol., 98, 698, 2017
  42. Hong JH, Kim J, Choi OK, Cho KS, Ryu HW, World J. Microbiol. Biotechnol., 21, 381, 2005
  43. Valer M, Ioana S, Sustainability, 13, 8165, 2021
  44. Zhao X, Fan F, Zhou H, Zhang P, Zhao G, Bioprocess. Biosyst. Eng., 41, 871, 2018
  45. Dixit H, Lowry M, Mohsin U, Moond M, Kumar S, Chokriwal A, Gupta S, Int. J. Recent. Sci. Res., 9, 24730, 2018
  46. Odola OI, Owabor C, Odola MN, Int. J. Atmos. Oceanic. Sci., 3, 8, 2019
  47. Safitri RM, Mangunwardoyo W, Ambarsari H, AIP conference proceedings, Vol. 2021, American Institute of Physics, New York, USA (2018).
  48. Ismail W, Al-Rowaihi IS, Al-Humam AA, Hamza RY, El Nayal AM, Bououdina M, Int. Biodeterior. Biodegrad., 84, 168, 2013
  49. Kacena MA, Merrell G, Manfredi B, Smith E, Klaus DM, Todd P, Appl. Microbiol. Biotechnol., 51, 229, 1999
  50. Kehinde FO, Isaac SA, Afr. J. Bioethanol., 16, 1242, 2017
  51. Hibbing ME, Fuqua C, Parsek MR, Peterson SB, Nat. Rev. Microbiol., 8, 15, 2010
  52. Roslee AFA, Gomez-Fuentes C, Zakaria NN, Shaharuddin NA, Zulkharnain A, Khalil KA, Convey P, Ahmad SA, Biology, 10, 493, 2021
  53. Safdari MS, Kariminia HR, Nejad ZG, Fletcher TH, Water Air Soil Pollut., 228, 1, 2017
  54. Kumar A, Kumar S, Kumar S, Biochem. Eng. J., 22, 151, 2005
  55. Rivera D, Margaritis A, De Lasa H, Can. J. Chem. Eng., 77, 903, 1999
  56. Ghanem KM, Al-Garni SM, Al-Zahrani MA, Pol. J. Environ. Stud., 25, 97, 2016
  57. Singh P, Dipali P, Ajit P, Bull. Environ. Pharma. Life Sci., 4, 91, 2015
  58. Santhakumar M, Sivalingam S, Dharmapal D, Sadras SR, J. Microbiol., 48, 637, 2017
  59. Chen Q, Li J, Liu M, Sun H, Bao M, Plots ONE, 12, e0174445, 2017
  60. Sund W, Cao W, Jiang M, Saren G, Liu J, Cao J, Ali I, Yu X, Peng C, Naz I, RSC Adv., 8, 39710, 2018
  61. Alnuaimi MT, Taher TA, Aljanabi ZZ, Adel MM, Res. Crops, 21, 650, 2020
  62. Striebich RC, Smart CE, Gunasekera TS, Mueller SS, Strobel EM, Mcnichols BW, Ruiz ON, Int. Biodeterior. Biodegrad., 93, 33, 2014
  63. Parthipan P, Preetham E, Machuca LL, Rahman PK, Murugan K, Rajasekar A, Front Microbiol., 9, 193, 2017
  64. Ho MT, Li MSM, McDowell T, Macdonald J, Yuan ZC, BMC Biotechnol., 20, 39, 2020
  65. Hassanshahian M, Zeynalipour MS, Musa FH, Mar. Pollut. Bull., 82, 39, 2014
  66. Silva DDSP, De Lima Cavalcanti D, De Melo EJV, Dos Santos PNF, Da Luz ELP, De Gusmão NB, De Queiroz MDFV, Int. Biodeterior. Biodegrad., 97, 85, 2015
  67. Mohanty G, Mukherji S, Int. Biodeterior. Biodegrad., 61, 240, 2008
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