Rhodamin B merupakan salah satu pewarna yang paling sering digunakan pada industri tekstil. Limbah pewarna tekstil ini dapat mencemari lingkungan jika masuk ke lingkungan melebihi ambang batas normal. Penggunaan bakteri pembentuk biofilm sebagai agensia pendegradasi Rhodamin B sangat memungkinkan karena mampu meningkatkan degradasi senyawa melalui interaksi antar bakteri sehingga mampu melengkapi proses metabolik. Tujuan penelitian ini adalah untuk mengetahui kemampuan isolat bakteri lokal pembentuk biofilm dalam mendegradasi pewarna tekstil Rhodamin B. Penelitian ini menggunakan 3 isolat bakteri pembentuk biofilm yang diperoleh dari perairan Tanjung Tiram, Kabupaten Konawe Selatan, Sulawesi Tenggara, yaitu isolat bakteri Chromohalobactersp. BfTT2.1.5, Bacillussp. BfTT2.11 dan Vibriosp. BfTT2.14. Kemampuan biodegradasi Rhodamin B oleh isolat bakteri pembentuk biofilm dideteksi menggunakan tiga parameter yaitu dekolorisasi pewarna Rhodamin B menggunakan metode spektrofotometri, kadar CO2 terlarut menggunakan metode titrasi dan total sel bakteri menggunakan metode drop plate. Berdasarkan uji kemampuan dalam mendegradasi pewarna tekstil Rhodamin B, Chromohalobacter sp. BfTT2.1.5 mampu mendegradasi Rhodamin B sebanyak 36,1% lebih tinggi dibanding Bacillus sp. BfTT2.11 (33,24%) dan Vibriosp. BfTT2.14 (16,18%). Ketiga isolat bakteri pembentuk biofilm mampu menggunakan Rhodamin B sebagai sumber karbon untuk pertumbuhannya. Oleh karena itu, isolat bakteri pembentuk biofilm sangat berpotensi digunakan sebagai agensia bioremediasi pewarna tekstil Rhodamin B.

Biodegradation of Textile Dye Rhodamine B Using Biofilm-forming Bacteria. Rhodamine B is one of the most widely used dyes in the textile industry. This textile dye waste can pollute the environment if it enters the environment beyond the normal threshold. The use of biofilm-forming bacteria as agents to degrade Rhodamine B is possible because it can increase the degradation of compounds through interactions between bacteria to complete the metabolic process. The purpose of this study was to find out the resistance of local biofilm-forming bacteria isolates to Rhodamine B textile dyes and to find out the ability of local biofilm-forming bacterial isolates in degrading Rhodamine B textile dyes. This study used three isolates of biofilm-producing bacteria obtained from the waters of Tanjung Tiram, Konawe Selatan Regency, Southeast Sulawesi, namely Chromohalobactersp. BfTT2.1.5, Bacillussp. BfTT2.11 dan Vibriosp. BfTT2.14 bacterial isolates. The ability of biofilm-forming bacteria isolates to degrade Rhodamine B was detected using three parameters including decolorization of Rhodamine B dye using a spectrophotometry method, dissolved CO2 levels using the titration method, and total bacterial cells using the drop plate method. The results show that the isolate bacteria Chromohalobacter sp. BfTT2.1.5 is able to degrade Rhodamine B as much as 36.1% higher than Bacillus sp. BfTT2.11 (33.24%) and Vibriosp. BfTT2.14 (16.18%). The three biofilm-forming bacteria isolates were able to use Rhodamine B as a carbon source for growth. Therefore, the local isolates biofilm-forming bacteria are potential to be used as bioremediation agents for Rhodamine B textile dyes.

Costa, C.Y.A., Raaijmakers, J.M., and Kuramae, E.E., 2018. Microbial Extracellular Polymeric Substances: Ecological Function and Impact on Soil Aggregation. Frontiers in Microbiology, 9: 1636-1637. doi: 10.3389/fmicb.2018.01636.

Das, R., De, A., Poddar, S., and Bhattacharjee, C., 2016. Decolorization Of Selective Textile Dyes Using Waterborne Pathogenic Bacterial Strains. Global Journal of Engineering Science and Research Management, 3(12): 98-107. doi: 10.5281/zenodo.225190.

Decho, A. W. 2000. Microbial Biofilms in Intertidal Systems: an Overview. Continental Shelf Research, 20: 1257– 1273. doi: 10.1016/S0278-4343(00)00022-4.

Fulekar, M.H., Wadgaonkar, S.L., and Singh, A., 2013. Decolourization of Dye Compounds by Selected Bacterial Strains isolated from Dyestuff Industrial Area. International Journal of Advancements in Research & Technology, 2(7): 57-68. doi: 10.1016/S0168-1656(02)00303-6.

Haque, M.M., Haque, M.A., Mosharaf, M.K., and Marcus, P.K., 2021. Decolorization, Degradation, and Detoxification of Carcinogenic Sulfonated Azo Dye Methyl Orange by Newly Developed Biofilm Consortia. Saudi Journal of Biological Sciences, 28: 793-804. doi: 10.1016/j.sjbs.2020.11.012.

Idrus, S.W.A., 2018. Analisis Kadar Karbon Dioksida di Sungai Ampenan Lombok. Jurnal Pijar MIPA, 13: 167-170. doi: 10.29303/ jpm.v13.i2.760.

Isari, A., and Fattahi, M., 2018. Photocatalytic Degradation of Rhodamine B And Real Textile Wastewater Using Fe-Doped TiO2⁠ Anchored on Reduced Graphene Oxide (Fe-TiO2⁠ /rGO): Characterization and Feasibility, Mechanism and Pathway Studies. Applied Surface Science, 462: 549-564. doi: 10.1016/j.apsusc.2018.08.133.

Jamal, M., Ufaq, T., Hussain, T., and Andleeb, S., 2015. Bacterial Biofilm: Its Composition, Formation and Role in Human Infections. Research & Reviews: Journal of Microbiology and Biotechnology, 4: 1-14.

Kusumaningati, M.A., Nurhatika, S., and Muhibuddin, A., 2013. Pengaruh Konsentrasi Inokulum Bakteri Zymomonas mobilis dan Lama Fermentasi pada Produksi Etanol dari Sampah Sayur dan Buah Pasar Wonokromo Surabaya. Jurnal Sains dan Seni Pomits, 2: 218-222. doi: 10.12962/j23373520.v2i2.4298.

Lubna, D., and Sembiring, E., 2013. Emisi CO2 dan Penurunan Karbon Organik pada Campuran Tanah dan Kompos (Skala Laboratorium). Jurnal Teknik Lingkungan, 19: 24-32.

Martí, S., Rodríguez-Baño, J., Catel-Ferreira, M. Jouenne, T., Vila, J., Seifert, H., and De, E., 2011. Biofilm Formation at The Solid-Liquid and Air-Liquid Interfaces by Acinetobacter Species. BMC Research Notes, 4(5):1-4. doi:10.1186/1756-0500-4-5.

Mohapatra, R.K., Behera, S.S., Patra, J.K., Thatoi, H., and Parhi, P.K., 2019. Potential Application of Bacterial Biofilm for Bioremediation of Toxic Heavy Metals and Dye-Contaminated Environments. Microbial Biotechnology and Bioengineering: Microbial Biofilms, 7: 1-10. doi: 10.1016/B978-0-444-64279-0.00017-7.

Naimah, S., Ardhanie A.S., Jati, B.N., Aidha, N.N. and Arianita C.A., 2014. Degradasi Zat Warna pada Limbah Cair Industri Tekstil dengan Metode Fotokatalitik Menggunakan Nanokomposit TiO2–Zeolit. Jurnal Kimia Kemasan, 36: 225-236. doi: 10.24817/jkk.v36i2.1889.

Reed, R. and Reed, G., 2011. Drop Plate Method of Counting Viable Bacteria. Canadian Journal of Research, 26: 317-326. doi: 10.1139/cjr48e-020.

Sastrawidana, D., and Sukarta, I.N., 2013. Uji Coba Teknologi Biofilm Konsorsium Bakteri pada Reaktor Semi anaerob-Aerob untuk Pengolahan Air Limbah di Industri Pencelupan Tekstil Skala Rumah Tangga. Jurnal Sains dan Teknologi, 2: 193-201. doi: 10.23887/jst-undiksha.v1i1.1424.

Sorta, R.R.T., Lestari, S., and Dewi, R.S., 2012. Dekolorisasi Berbagai Macam Limbah Cair Batik Menggunakan Limbah Baglog Pleurotus ostreatus dengan Waktu Inkubasi Berbeda. Biosfera, 29: 136-139. doi: 10.20884/1.mib.2012.29.3.249.

Tortora, G.J., Funke, B.R., and Christine L.C., 2013. Microbiology An Introduction, 11th Edition, pp.160-161.

Utari, S.A.S.S.L., Darmayasa, I.B.G., and Suyasa, I.W.B. 2015. Isolasi, Identifikasi, dan Uji Potensi Bakteri yang Berperan pada Pengolahan Air Limbah yang Mengandung Rhodamin B dalam Biosistem Tanaman. Jurnal Simbiosis, 3: 301-310.

Wevriandini, L., and Martani, E., 2019. Decolorization of Vat Violet 1 Dye from Textile Industrial Wastewater using Biofilm of Fungal and Bacterial Consortium. Jurnal Riset Teknologi Pencegahan Pencemaran Industri, 10(2): 1-6. doi: 10.21771/jrtppi.2019.v10.no.2.p1-6.

Xiao, X., Ma, X.L., Liu, Z.Y., Li, W.W., Yuan, H., Ma, X.B., Li, L.X., and Yu, HQ., 2019. Degradation of Rhodamine B in a Novel Bio-Photoelectric Reductive System Composed of Shewanella oneidensis MR-1 and Ag3PO4. Environment International 126, 560–567. doi: 10.1016/j.envint.2019.03.010.

Yu, K., Yang, S., He, H., Sun, C., Gu, C., and Ju, Y., 2009. Visible Light-Driven Photocatalytic Degradation of Rhodamine B over NaBiO3: Pathways and Mechanism. Journal of Physics and Chemical, 113: 10024–10032. doi: 10.1021/jp905173e.

Zhou, C., Liu, Z., Fang, L., Guo, Y., Feng, Y., and Yang, M., 2020. Kinetic and Mechanistic Study of Rhodamine B Degradation by H2O2 and Cu/Al2O3/g-C3N4 Composite. Catalysts, 10(3): 317. doi: 10.3390/catal10030317.