POTENCY OF INDIGENOUS MICROBES OF PIYUNGAN LANDFILL YOGYAKARTA FOR MICROPLASTIC BIODEGRADATION

A S Putri¹, S Najah¹, A N Lathifah^[1]^,3*, A A Asmara^1,2, D Wulandari^1,3

¹Environmental Engineering Department, Universitas Islam Indonesia, Yogyakarta 55584, Indonesia

²Center for Environmental Studies, Universitas Islam Indonesia, Yogyakarta 55584, Indonesia

³Environmental Biotechnology Laboratory, Universitas Islam Indonesia, Yogyakarta 55584, Indonesia

^[1]^* Corresponding author’s email: [email protected]

DOI: https://doi.org/10.20885/icsbe.vol4.art44

ABSTRACT

Research on the bacteria and fungi potentially degrading microplastic in Piyungan Landfill has not been done much. Meanwhile, plastic pollution is one of many environmental problems faced in the Special Region of Yogyakarta. The accumulation of plastic waste is getting more significant daily, and the capacity of landfills is decreasing. Bacterial and fungal testing was carried out by taking soil samples from landfills and isolating dilute Nutrient Broth, Malt Extract Agar, and Nutrient Agar media. Bacterial and fungal were identified by morphology colony and cell, then tested for plastic biodegradation by selected bacterial and fungal. The result of this research, there are 18 bacterial isolate and five isolate fungi, but for the degradation testing, chosen just three bacterial (Isolate A, F, J) degrade Polypropylene for ±30 days and three fungal (Isolate PA, PK, RJ) to degrade LDPE for ±14 days. The indicator for determining plastic degradation is clear-zone formation. The test result showed that isolate F, which had similarity with bacteria in the genus of Micrococcus, had a higher potential to degrade microplastic with clear-zone formation ±1.23 mm. Meanwhile, fungal isolate PK, similar to Penicillium sp., had a higher potential to degrade microplastic, marked by the most significant clear-zone appearance, ±2.3 cm.

Keywords: Indigenous Microbes, Piyungan landfill, Microplastic biodegradation

REFERENCES

[1] Pico Y, Alfarhan A, and Barcelo D 2019 Nano- and Microplastic analysis: Focus on their Occurrence in Freshwater Ecosystems and Remediation Technologies. TrAC – Trends in Analytical Chemistry. 113: 409-425

[2] Shen M, Song B, Zeng G, Zhang Y, Huang W, Wen X, and Tang W 2020 Are Biodegradable Plastics a Promising Solution to Solve the Global Plastic Pollution. Environmental Pollution. 263: 114469

[3] Azizah P, Ridlo A, Suryono, C 2020 Mikroplastik pada Sedimen di Pantai Kartini Kabupaten Jepara, Jawa Tengah. Journal of Marine Research. 9: 326–332

[4] Sari R N 2017 Karakteristik Air Lindi (Leachate) di Tempat Pembuangan Akhir Sampah Air Dingin Kota Padang. Laboratorium Fisika Bumi. 6: 93–99

[5] Utami I and Liani M 2021 Identifikasi Mikroplastik pada Air Sumur Gali di Sekitar TPA Piyungan Yogyakarta. Jurnal Riset Daerah Badan Perencanaan Pembangunan Daerah Kabupaten Bantul, Provinsi Special Region Of Yogyakarta. 21: 4003-4014

[6] Megga, R P Festy, A R Arina F S, and Puji A N 2020 Isolasi Mikroorganisme Pendegradasi Mikroplastik dari Tempat Pembuangan Akhir (TPA) Sampah. In Angewandte Chemie International Edition. 6: 951–952

[7] Vianti, R O Melki, Rozirwan, and Purwiyanto A I S 2020 Purifikasi Dan Uji Degradasi Bakteri Mikroplastik Dari Perairan Muara Sungai Musi, Sumatera Selatan. Maspari Journal. 12: 29–36

[8] Rohmah U M, Shovitri M, and Kuswytasari K 2019 Degradasi Plastik Oleh Jamur Aspergillus Terreus (Lm 1021) Pada Ph 5 Dan Ph 6; Serta Suhu 25 Dan 35 Celcius. Jurnal Sains dan Seni ITS. 7: 5–10

[9] Wardani, D P A 2021 Isolasi dan Identifikasi Jamur Pendegradasi Polietilena Berdensitas Rendah (LDPE) dari Tempat Pemrosesan Akhir Supit Urang, Malang. Doctoral dissertation, Universitas Islam Negeri Maulana Malik Ibrahim

[10] Pramesti N K L, Berata I K, and Kendran A A S 2020 Profil Hematologi, Kadar Timbal dan Kadmium dalam Darah Sapi Bali yang Rumennya Mengandung Sampah Plastik. Indonesia Medicus Veterinus. 9: 526

[11] Lestari W, Ariyanti N, Pandu J, Saifuddin F, Utama W, Bahri A S, and Wijaya I P K 2018 Studi Kelayakan Perangkap CO2 Berdasarkan Analisa Fisik Sedimen (Studi Kasus: Formasi Kabuh, Cekungan Jawa Timur Utara . Iptek Journal Of Proceedings Series. 227-231

[12] Manasa K, Reddy R S, Triveni S, and Manasa C K 2017 Isolation and Characterisation of Pseudomonas Fluorescens Isolates from Different Rhizosphere Soils of Telangana (Journal of Pharmacognosy and Phytochemistry JPP) 63: 224–229

[13] Friska, A 2019 Isolasi Bakteri Endofit dari Bruguira sp. Sebagai Sumber Senyawa Antibakteri (Fakultas Matematika dan Ilmu Pengetahuan Alam)

[14] Zegeye E K, Brislawn C J, Farris Y, Fansler S J, Hofmockel K S, Jansson J K, Wright A T, Graham E B, Naylor D, McClure RS and Bernstein H C 2019 Selection, Succession, and Stabilization of Soil Microbial Consortia. Msystems 4: 19

[15] Amelia N and Sulistiyaning T H 2021 Kajian Pengaruh Penggunaan Biosurfaktan Rhamnolipida dan Surfaktin pada Proses Bioremediasi Tanah Tercemar Crude Oil. Jurnal Teknik ITS. 10: 2

[16] Singh S, Dutta U, Gupta S, Jamwal S, Bhat A K, and Gupta V 2017 Morpho-cultural and Biochemical Identification of Pseudomonas sp. Isolated from the Rhizosphere of Different Vegetable Crops and Study its Efficacy on Solanum melongena (Brinjal). Journal of Pharmacognosy and Phytochemistry. 6: 22–28

[17] Barnett H L 1960 Illustrated genera of imperfect fungi. Illustrated genera of Imperfect Fungi.

[18] Hartanti A T, Susanti F, Prasasty V D and Radiastuti N 2021 Culturable Endophytic Fungal Diversity in Cassava Tubers of Indonesia. Biodiversitas Journal of Biological Diversity, 22: 3

[19] Iramayana T I and Arif A 2019 Keragaman jamur pada log dan kayu gergajian nyatoh (Palaquium sp.). Jurnal Perennial. 15: 8-15

[20] Valencia P E and Meitiniarti V I 2017 Isolasi dan Karakterisasi Jamur Ligninolitik serta Perbandingan Kemampuannya dalam Biodelignifikasi. Scripta Biologica. 4

[21] Hulse J D 2018 Review of Comprehensive Staining Techniques used to Differentiate Arbuscular Mycorrhizal Fungi from Plant Root Tissues. Acta Scientific Agriculture (ISSN: 2581-365X) 2: 7

[22] Wilkes T I, Warner D J, Edmonds-Brown V, Davies K G, and Denholm I 2020 A Comparison of Methodologies for the Staining and Quantification of Intracellular Components of Arbuscular Mycorrhizal Fungi in the Root Cortex of Two Varieties of Winter Wheat. Access Microbiology. 2: 2

[23] Alshehrei F 2017 Biodegradation of Low Density Polyethylene by Fungi Isolated from Red Sea Water. International Journal of Current Microbiology and Applied Sciences. 6(8): 1703-9.

[24] Mardyansah D and Trimulyono G 2021 Isolasi, Karakterisasi, dan Uji Potensi Bakteri Pelarut Fosfat dari Rhizosfer Tanaman Jati dan Sengon di Pegunungan Kapur, Daerah Selatan Kabupaten Tulungagung (Jurnal Lentera Bio) 10: 188–198.

[25] Reformanda S, Sipriyadi, Darwis W, Wibowo R H, Supriati R and Siboro R 2021 Isolation and Identification of Cellulase- Producing Encophytic Bacteria From Yellow Root Plants ( Arvangelisia flava (L.) Merr) From Enggano Island (Proceedings of the 3rd KOBI Congress, International and National Conferences (KOBICINC 2020) 14: 523–528.

[26] Pinheiro E T, Candeiro G T, Teixeira S R, Shin R C, Prado L C, Gavini G and Mayer M P, 2015 RNA-based Assay Demonstrated Enterococcus faecalis Metabolic Activity after Chemomechanical Procedures (Journal of endodontics) 41:1441-1444.

[27] Barnett, H. L. (1960). Illustrated genera of imperfect fungi. Illustrated genera of Imperfect Fungi.

[28] Fibriarti B L, Feliatra F, Amin B, and Darwis D 2021 Biodegradation of LDPE Plastic by Local Strain of Bacillus sp. Isolated from Dump Soil of Pekanbaru, Indonesia. Biodiversitas Journal of Biological Diversity. 22: 12

[30] Verma N, and Gupta S 2019 Assessment of LDPE Degrading Potential Aspergillus Species Isolated from Municipal Landfill Sites of Agra. Applied Sciences. 1: 1-10.

[31] Rahim I, and Nasruddin A 2019 The Ability of Rot Fungi from Cocoa Plant in Producing Lignocellulosic Enzymes. IOP Conference Series: Earth and Environmental Science. 270(1): 012037

[32] Dhanam I D A G M, Fatmawati N N D, and Budayanti N N S 2021 Efek Aktivitas Antibakteri Ekstrak Etanol Daun Pepaya (Carica Papaya L.) Terhadap Pertumbuhan Bakteri Klebsiella pneumoniae ATCC 13883 dan Staphylococcus aureus ATCC 25923. E-Jurnal Medika Udayana. 10(2): 97-105

[33] Temporiti M E E, Nicola L, Nielsen E and Tosi S 2022 Fungal Enzymes Involved in Plastics Biodegradation. Microorganisms, 10: 1180

[34] Daccò C, Girometta C, Asemoloye M D, Carpani G, Picco A M, and Tosi S 2020 Key Fungal Degradation Patterns, Enzymes and Their Applications for the Removal of Aliphatic Hydrocarbons in Polluted Soils: A Review. International Biodeterioration and Biodegradation. 147: 104866

[35] Zhang J, Chen J, Jia R, Dun Z, Wang B, Hu X, and Wang Y 2018 Selection and evaluation of microorganisms for biodegradation of agricultural plastic film. 3 Biotech, 8: 1-8

[36] Ghosh D, Dey S, Chakraborty H, Mukherjee S, Halder A, Sarkar A and Sarkar J 2022 Mucormycosis: A new threat to Coronavirus disease 2019 with special emphasis on India. Clinical Epidemiology and Global Health

[37] Ristiari N P N, Julyasih, K S M and Suryanti I A P 2019 Isolasi dan Identifikasi Jamur Mikroskopis pada Rizosfer Tanaman Jeruk Siam (Citrus nobilis Lour.) di Kecamatan Kintamani, Bali. Jurnal Pendidikan Biologi Undiksha. 6(1): 10-19

[38] Yastanto AJ 2020 Karakteristik Pertumbuhan Jamur pada Media PDA dengan Metode Pour Plate. Indonesian Journal of Laboratory. 2(1): 33-39