Analisis Bakteri Simbion Mangrove Avicennia marina Sebagai Antifouling

Authors

  • Alifia Rizky Novitasari Universitas Hang Tuah
  • Nor Sa'adah Universitas Hang Tuah
  • Mahmiah Universitas Hang Tuah

DOI:

https://doi.org/10.30649/jrkt.v3i2.43

Keywords:

biofouling, antifouling, Avicennia marina, bacterial symbionts

Abstract

The accumulation of biofouling on a substrate causes material loss and huge economics in the maintenance of aquaculture systems, ship hulls, seawater pipelines, coastal power plants, and other marine infrastructure. Prevention of the attachment of biofouling organisms using antifouling paints that have been developed and used for a long time. Antifouling paint contains chemical compounds (biocides). The most sensitive organisms to antifouling paint are gastropods and bivalve that cause endocrine disorders, larval disorders and shell malformations. This study aims to obtain antifouling bacteria through the isolation process of bacteria obtained from the bark Avicennia marina mangrove. The method was beginning with isolation of bacteria bark of Avicennia marina mangrove, identification of bacteria, and antifouling activity test. The results obtained from isolation of bacteria, there are 9 bacteria endophytic symbionts of the inner bark and 9 epiphytic bacteria of the outer bark. The inhibition zone test of the endophytic bacteria in the bark showed that there was no antifouling activity.

 

References

Amara, I., W. Miled., R. B. Slama., dan N. Ladhari. 2018. Antifouling Processes and Toxicity Effects of Antifouling Paints on Marine Environment a Review. Environmental Toxicology and Pharmacology. 57: 115-130.

Bhaduri, P., dan P.C. Wright. 2004. Exploitation of marine algae: biogenic compounds for potential antifouling application. Springer-Verlag. Planta 219(4): 561-578.

Kyei, S. K., G. Darko., dan O. Akaranta. 2020. Chemistry and Application of Emerging Ecofriendly Antifouling Paints: A Review. Journal of Coatings Technology and Research. 17(2): 315-332.

Manilal, A., A. Sujith., G. S. Kiran., J. Selvin., dan C. Shakir. 2009. Biopotentials of Mangroves Collected from the Southwest Coast of India. Global Journal of Biotechnology and Biochemistry. 4(1): 59-65.

Marhaeni, B., O. K. Radjasa., M. M. Khoeri., A. Sabdono., D. G. Bengen., dan H. Sudoyo. 2011. Antifouling Activity of Bacterial Symbionts of Seagrasses against Marine Biofilm-Forming Bacteria. Journal of Environmental Protection. 2(9): 1245 – 1249.

Prabhakaran, S., R. Rajaram., V. Balasubramanian., dan K. Mathivanan. 2012. Antifouling Potentials of Extracts from Seaweeds, Seagrasses and Mangroves Against Primary Biofilm Forming Bacteria. Asian Pacific Journal of Tropical Biomedicine. 2(1): S316-S322.

Pratama, B., K. Endang., S. Agung., B. Anto., dan A. B. Susanto. 2014. Eksplorasi dan Karakterisasi Bakteri Potensial Penghasil Senyawa Antifouling yang Berasosiasi dengan Alga Coklat (Phaeophyta) di Perairan Kepulauan KarimunJawa Jepara. Jurnal Biologi. 3(3): 39-48.

Radjasa, O.K. dan A. Sabdono. 2003. Keanekaragaman Genetik Bakteri Laut Penghasil Senyawa Anti Bakteri dalam Pengendalian Penyakit pada Udang. Laporan Kegiatan Proyek Penelitian Ilmu Pengetahuan Dasar, Pusat Kajian Pesisir dan Laut Tropis Lembaga Penelitian Universitas Diponegoro.

Radjasa, O.K., A. Sabdono, Junaidi and E. Zoochi. 2007. Richness of Secondary Metabolite Producing Marine Bacteria Assosiated with Sponge Haliclone sp. J. Pharmaca. 3(3): 275 – 279.

Ramasubburayan, R., S. Prakash., P. Iyapparaj., S. Sumathi., S. Titus., G. Immanueldan., dan A. Palavesam. 2017. Isolation, Screening and Evaluation of Antifouling Activity of Mangrove Associated Bacterium, Bacillus subtilis subsp. subtilis RG. Prociding The National Academy of Science, India. 87(3): 1015-1024.

Renaldi,. Rozirwan,. Dan T. Z. Ulqodry. 2018. Bioaktivitas Senyawa Bioaktif pada Mangrove Avicennia marina dan Bruguiera gymnorrhiza sebagai Antibakteri yang Diambil Dari Pulau Pasui dan Tanjung Api-Api. Maspari Journal. 10(1): 73-80.

Sinatryani, D., M. A. Alamsjah., Sudarno., dan K. T. Pursetyo. 2014. Kelimpahan Bakteri Selulolitik Di Muara Sungai Gunung Anyar Surabaya dan Bancaran Bangkalan. Jurnal Ilmiah Perikanan dan Kelautan. 6(2): 143 – 148.

Syahputra, F., dan Almuqaramah, T. M. H. 2019. Penambahan Ekstrak Larutan Kulit Mangrove pada Cat Minyak Sebagai Antifouling. Aquatic Science Journal. 6(1): 37-40.

Waluyo, Lud. 2018. Mikrobiologi Umum. Universitas Muhammadiyah Malang.

Wiguna, A. S., L. Kusmita., dan Radjasa, O. K. 2016. Uji Aktivitas Antibakteri Pigmen Karotenoid dari Isolat Bakteri Simbion Karang Lunak Sarcophyton sp. Terhadap Pertumbuhan Bakteri Staphylococcus aereus ATCC 25923. IJPST. 3(3): 92 – 98.

Ytreberg, E., M. A. Bighiu., L. Lundgren., dan B. Eklund. 2016. XRF Measurement of Tin, Copper and Zinc in Antifouling Paints Coated on Leisure Boats. Environmental Pollution. 213: 594-599.

Yulma., B. Ihsan., Sunarti., E. Malasari., N. Wahyuni., dan M. Mursyban. 2017. Identifikasi Bakteri pada Serasah Daun Mangrove yang Terdekomposisi di Kawasan Konservasi Mangrove dan Bekantan (KKMB) Kota Tarakan. Journal of Tropical Biodiversity and Biotechnology. 2(1): 28-33.

Zhang, X. Y., W. Fu., X. Chen., M, T, Yan., X. D. Huang., dan J. Bao. 2018. Phylogenetic Analysis and Antifouling Potentials of Culturabel Fungi in Mangrove Sediments from Techeng Isle, China. World Journal of Microbiologi and Biotechnology. 34(90): 1-11.

Additional Files

Published

2021-11-01

How to Cite

Alifia Rizky Novitasari, Nor Sa’adah, & Mahmiah. (2021). Analisis Bakteri Simbion Mangrove Avicennia marina Sebagai Antifouling. Jurnal Riset Kelautan Tropis (Journal Of Tropical Marine Research) (J-Tropimar), 3(2), 87–93. https://doi.org/10.30649/jrkt.v3i2.43

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