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Sains Malaysiana 50(2)(2021): 279-286
http://dx.doi.org/10.17576/jsm-2021-5002-01
Identification
and Physiological Characteristics of Potential Indigenous Bacteria as Bioremediation
Agent in the Wastewater of Sugar Factory
(Pengecaman dan Pencirian Fisiologi Potensi Bakteria Asli sebagai Agen Bio-Pemulihan dalam AirSisa Kilang Gula)
MIKCHAELL
ALFANOV PARDAMEAN1, R
ADHARYAN ISLAMY2, VERYL HASAN3*, ENDANG YULI HERAWATI4 & NURUL
MUTMAINNAH4
1Department of Fisheries and Product Technology, Faculty of Fisheries and Marine Science, Brawijaya University, Malang City, East Java 65145, Indonesia
2Department of Aquaculture, Faculty of Fisheries and Marine Science, Brawijaya University, Malang City,
East Java 65145, Indonesia
3Department of Fish Health
Management and Aquaculture, Fisheries and Marine Faculty, Airlangga University, Surabaya, East Java, Indonesia
4Departement of Water Resources Management, Faculty of Fisheries and Marine Science, Brawijaya University, Malang City, East Java 65145, Indonesia
Diserahkan: 19 April 2020/Diterima: 7 Julai 2020
ABSTRACT
Wastewater
is the remainder of an activity released in the liquid form. Wastewater product
is feared to have negative influence on the environmental balance; therefore,
it is necessary to measure the quality standards of wastewater as a reference
in the disposal and treatment. Bioremediation is an environmentally friendly
technology utilizing microorganisms as agents in the process of cleaning or
restoring wastewater conditions. The
use of microorganism services can reduce the concentration of organic waste
into simpler organic compounds by converting organic compounds into CO2,
CH4, H2, and H2S, as well as water and energy
intended for the process of growth and production of microorganisms in the
remediation process. This study aims to identify the type of dominant bacteria
growing in the wastewater of the sugar factory and has a potential role as a
bioremediation agent for the waste. The method used in this study is the
experimental, by observing several environmental parameters as indicators,
among others, BOD, COD, TSS, and pH. The results of
this study found two types of dominant bacteria, i.e., Staphylococcus
aureus and Bacillus subtilis, then used as bioremediation agents. The
bioremediation activity was able to reduce pH, BOD, and COD levels.
Keywords: Bacillus
subtilis; bioremediation; indigenous bacteria; Staphylococcus aureus; wastewater
ABSTRAK
Air sisa adalah sisa aktiviti yang dikeluarkan dalam bentuk cecair. Produk air buangan dikhuatiri mempunyai pengaruh negatif terhadap keseimbangan alam sekitar; oleh itu, adalah penting untuk mengetahui standard kualiti air sisa sebagai rujukan dalam pembuangan dan rawatan. Biopemulihan adalah teknologi mesra alam yang memanfaatkan mikroorganisma sebagai agen dalam proses pembersihan atau pemulihan keadaan air sisa. Penggunaan perkhidmatan mikroorganisma dapat mengurangkan kepekatan sisa organik menjadi sebatian organik yang lebih sederhana dengan mengubah sebatian organik menjadi CO2, CH4, H2 dan H2S, serta air dan tenaga yang dimaksudkan untuk proses pertumbuhan dan pengeluaran mikroorganisma dalam proses pemulihan. Kajian ini bertujuan untuk mengenal pasti jenis bakteria dominan yang tumbuh di dalam air sisa kilang gula dan berpotensi berperanan sebagai agen biopemulihan bagi sisa tersebut. Kaedah yang digunakan dalam kajian ini adalah kaedah uji kaji dengan memerhatikan beberapa parameter persekitaran sebagai petunjuk, antara lain BOD, COD, TSS dan pH. Hasil kajian ini mendapati dua jenis bakteria dominan, iaituStaphylococcus aureus dan Bacillus
subtilis, kemudian digunakan sebagai agen biopemulihan. Aktiviti biopemulihan dapat mengurangkan tahap pH, BOD dan
COD.
Kata kunci: Air sisa; Bacillus
subtilis; bakteria asli; biopemulihan; Staphylococcus
aureus
RUJUKAN
Ahmed, K.M., Haroun, M.A., Mahyoub, J.A., Al-Solami, H.M. & Ghramh, H.A. 2017. Environmental impacts of the liquid
waste from assalaya sugar factory in Rabek locality, White Nile State, Sudan. International
Journal of Environment, Agriculture and Biotechnology 2(4): 238819.
Bergmans, L., Moisiadis, P., Van Meerbeek, B., Quirynen, M. & Lambrecht, P. 2005. Microscopic observation of bacteria: Review highlighting the use of environmental SEM. Int. Endod. J. 38: 775-788. Christopher, K. & Bruno, E. 2003. Identification of bacterial species. In Tested Studies for Laboratory Teaching, edited by O’Donnell, M.A. Proceedings of the 24th Workshop/Conference of the Association for Biology Laboratory Education 24: 103-130. Dewi, A.K. 2013. Isolation, identification and sensitivity test of Staphylococcus aureus against amoxicillin
from mastitis goat milk (PE) samples of mastitis sufferers in Yogyakarta's
girimulyo kulonprogo region. Jurnal Sain Veteriner 31(2): 138-150.
Divya, M., Aanand, S., Srinivasan, A. & Ahilan,
B. 2015. Bioremediation - An eco-friendly tool for effluent treatment: A
review. International Journal of Applied Research 1(12): 530-537.
Ethica, S.N., Oedjijono, O., Semiarti, E., Widada, J. & Raharjo, T.J.
2018. Genotypic and phenotypic characterization of Alcaligenes javaensis JG3 potential as an effective biodegrader. BIOTROPIA-The Southeast. Asian Journal
of Tropical Biology 25(1): 1-10.
Fitriyah, D., Arimurti, S. & Senjarini, K.
2013. Physiological and molecular
characteristics of bacterial isolates from bandealit coastal area Jember, East Java, Indonesia. HAYATI
Journal of Bioscience 20(2): 89-93.
Government Regulation No. 82. 2001. Management of Water Quality and Control Over Water Pollution.
Hiremath, P.S., Bannigidad, P. & Yelgond,
S.S. 2013. An improved automated method for identification of bacterial cell
morphological characteristics. International
Journal of Advanced Trends in Computer Science and Engineering 2(1): 11-16.
Isnawati & Trimulyono, G. 2018. Temperature range and degree of acidity growth
of isolate of indigenous bacteria on fermented feed “fermege”. In Journal of Physics: Conference Series. IOP Publishing. 953(1): 012209.
Jadhav,
P.G., Vaidya, N.G. & Dethe, S.B. 2013.
Characterization and comparative study of cane sugar industry wastewater. International Journal of Chemical &
Physical Sciences 2(2): 19-25.
Lehninger, A.L. 1982. Principles of Biochemistry, Part
II. New York: Worth Pubs. Inc. p. 1011.
Lu,
L., Huggins, T., Jin, S., Zuo,
Y. & Ren, Z.J. 2014. Microbial metabolism and community structure in
response to bioelectrochemically enhanced
remediations of petroleum hydrocarbon-contaminated soil. Environmental Science & Technology 48(7): 4021-4029.
Mambang, D.E.P., Rosidah & Suryanto, D. 2014. Antibacterial activity of tempe extract against Bacillus subtilis and Staphylococcus
aureus. Jurnal Teknologi dan Industri
Pangan 25(1): 115-118.
Mohamed, Y.A., Wahab, H.A., Khalifa, S.A., Yahia, D. & Mansour, F. 2017. Wastewater analysis of Assalaya Sugar
Factory. International Journal of Trend in Research and Development 4(6): 21-24.
Nurhayati, C., Hamzah, B.
& Pambayun, R. 2014. Pengaruh pH, konsentrasi isolat Chlorella
vulgaris dan waktu pengamatan terhadap tingkat cemaran limbah cair crumb rubber. Jurnal Dinamika Penelitian Industri 25(2): 96-106.
Poddar,
P.K. & Sahu, O. 2015. Quality and management of
wastewater in the sugar industry. Applied Water Science 7(1): 461-468.
Pommiera, S., Chenub, D., Quintard, M. &
Lefebvre, X. 2007. Modelling of moisture-dependent aerobic degradation of solid
waste. Waste Manage. 28: 1188-1200.
Rahmanian, N., Ali, S.H.B., Homayoonfard, M., Ali, N.J., Rehan, M., Sadef, Y.
& Nizami, A.S. 2015. Analysis of physicochemical parameters to evaluate the drinking water
quality in the State of Perak, Malaysia. Journal of Chemistry. 2015: Article ID. 716125.
Retnosari, A.A.
& Shovitri, M. 2013. Kemampuan isolat Bacillus sp. dalam mendegradasi limbah tangki septik. Jurnal Sains and Seni Pomits 2(1): 2337-3520.
Sarkar,
J., Kazy, S.K., Gupta, A., Dutta, A., Mohapatra, B.,
Roy, A., Bera, P., Mitra, A. & Sar, P. 2016. Biostimulation of indigenous microbial community for
bioremediation of petroleum refinery sludge. Frontiers in Microbiology 7: 1407.
Tshikhudo, P., Nnzeru, R., Ntushelo, K. & Mudau, F. 2013. Bacterial species identification getting
easier. African Journal of Biotechnology 12(41): 5975-5982.
*Pengarang untuk surat-menyurat; email:
veryl.hasan@fpk.unair.ac.id
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