Potensi Mikroorganisme Indigen Perairan Teluk Lampung sebagai Pendegradasi Masker Sekali Pakai (Disposable Face Mask)

Deviany Deviany, Feerzet Achmad, Millennia Rischa Purwanti, Tri Febri Yudhanti

Abstract


To prevent the transmission of COVID-19, the World Health Organization recommends the implementation of health protocols including using disposable masks. The use of disposable face masks has an impact on the emergence of mask waste in aquatic environments which results in pollution of water sources by microfibers. Degradation by indigenous microorganisms can be one of the solutions for handling waste that is environmentally friendly and cost effective. In this study, bacteria were isolated from the coast of Lampung Bay which was polluted with plastic waste and masks. Bacterial isolates were characterized by morphological and biochemical tests before the selected one being used for degradation. After seven days of incubation, gravimetric analysis showed that the mask pieces increased in weight when compared to the control. However, the degradation process can be shown by the results of Scanning Electron Microscope (SEM) analysis which shows damage in the form of holes on the surface of the mask when compared to the new mask and the control. SEM images also showed the presence of bacterial biomass remnants attached to the surface of the mask. Based on the results of this study, Lampung Bay indigenous microorganism isolate showed potential as a degrader of disposable face masks.


Keywords


Degradation; Disposable Face Mask; Lampung Bay; Microfiber

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References


Arutchelvi, J., M. Sudhakar, Ambika Arkatkar, Mukesh Doble, Sumit Bhaduri, and Parasu Veera Uppara. 2008. “Biodegradation of Polyethylene and Polypropylene.” 7(January):9–22.

Auta, H. S., C. U. Emenike, B. Jayanthi, and S. H. Fauziah. 2018. “Growth Kinetics and Biodeterioration of Polypropylene Microplastics by Bacillus Sp . and Rhodococcus Sp . Isolated from Mangrove Sediment.” Marine Pollution Bulletin 127(April 2017):15–21. doi: 10.1016/j.marpolbul.2017.11.036.

Damayanti, Sri Suci, Oom Komala, and E. Mulyati Effendi. 2018. ”Identifikasi Bakteri Dari Pupuk Organik Cair Isi Rumen Sapi.” Vol. 18.

D’ambrières, Woldemar. 2019. “Plastics Recycling Worldwide: Current Overview and Desirable Changes.” Field Actions Science Report 2019(Special Issue):12–21.

Helen, Auta Shnada, Emenike Chijioke Uche, and Fauziah Shahul Hamid. 2017. “Screening for Polypropylene Degradation Potential of Bacteria Isolated from Mangrove Ecosystems in Peninsular Malaysia.” International Journal of Bioscience, Biochemistry and Bioinformatics 7(4):245–51. doi: 10.17706/ijbbb.2017.7.4.245-251.

Kumar, Vijay, Shyam Babu Singh, and Simranjeet Singh. 2020. “Journal of Environmental Chemical Engineering COVID-19 : Environment Concern and Impact of Indian Medicinal System.” Journal of Environmental Chemical Engineering 8(5):104144. doi: 10.1016/j.jece.2020.104144.

Lamichhane, G., A. Acharya, R. Marahatha, B. Modi, R. Paudel, A. Adhikari, B. K. Raut, S. Aryal, and N. Parajuli. 2023. “Microplastics in Environment: Global Concern, Challenges, and Controlling Measures.” International Journal of Environmental Science and Technology 20(4):4673–94. doi: 10.1007/s13762-022-04261-1.

Nurhidayati, Sri, Faturrahman, and Mursal Ghazali. 2015. ”Deteksi Bakteri Patogen yang Berasosiasi dengan Kappaphycus Alvarezii (Doty) Bergejala Penyakit Ice-Ice.” Vol. 1.

Panjaitan, Fany Juliarti, Taufiq Bachtiar, Irsyana Arsyad, Onesimus Ke Lele, and Wharisma Indriyani. 2020. ”Karakterisasi Mikroskopis dan Uji Biokimia Bakteri Pelarut Fosfat (BPF) dari Rhizosfer Tanaman Jagung Fase Vegetatif.” Vol. 1.

Permata, Berlian, Dewi Erlambang, and Rike Oktarianti. 2019. “Mikroorganisme Potensial Sebagai Agen Hayati Pendegradasi Limbah Sampah Plastik.” 10(2).

Putri Hiaranya. 2017. ”MIKROBIOLOGI.”

Veronika Simatupang, Yeni, I. Made Mahaputra Wijaya, and Nyoman Semadi. 2019. “Isolation and Identification of Ethanol-Producing High Potential Bacteria from Bali Arak Industry in Karangasem-Bali.”


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