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All Journal Bioscience Jurnal Berita Ilmu Keperawatan Panggung Komposisi: Jurnal Pendidikan Bahasa, Sastra, dan Seni Akrab Juara : Jurnal Ilmu-ilmu Sosial Al-Buhuts (e-journal) International Journal of Education and Literature (IJEL) Jurnal Manajemen, Bisnis dan Organisasi (JUMBO) Jurnal Akademik Pengabdian Masyarakat Jurnal Serambi Biologi Jurnal Intelek Dan Cendikiawan Nusantara Panggung
Irdawati Irdawati
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Religion Agriculture, Biological Sciences & Forestry Arts Humanities Biochemistry, Genetics & Molecular Biology Chemistry Computer Science & IT Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Health Professions Immunology & microbiology Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Medicine & Pharmacology Nursing Public Health Social Sciences Other

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Journal : Bioscience

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The Potential of Hot Water Sapan Sungai Aro Thermophilic Bacteria Consortium in Producing Bioethanol Inayatul Fatia; Irdawati Irdawati; Linda Advinda; Azwir Anhar
Bioscience Vol 7, No 2 (2023): Biology
Publisher : UNIVERSITAS NEGERI PADANG

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/bsc.v7i2.123265

Abstract

Biofuel is a potentially renewable alternative fuel in Indonesia. Bioethanol is one example of the most commonly used biofuel. Microorganisms of thermophilic bacteria are known to contribute to the production of bioethanol. Thermophilic bacteria are efficient against high temperature conditions so as to minimize contamination. Production of bioethanol can also use joint culture (consortium). Bioethanol production using a microbial biculture consortium is known to significantly increase the level of bioethanol production. The purpose of this study was to determine the compatibility and to determine the optimum potential of the thermophilic bacterial biculture consortium of Sapan Sungai Aro hot water for bioethanol production. This research is a type of descriptive research. To test the cooperation between consortium isolates of thermophilic bacteria producing bioethanol, a compatibility test was carried out using the disk diffusion method. Then the consortium isolates were fermented in liquid TMM (Thermophilic Minimum Media) medium, the bioethanol content was measured after distillation using a pycnometer. The results of the bacterial compatibility test showed that there was one pair of isolates that were not compatible, namely SSA 8 & SSA 14 due to the presence of a clear zone. On research results. The production of bioethanol by a consortium of thermophilic bacteria gives more optimal results compared to a single isolate. The best thermophilic bacterial biculture consortium from the Sapan Sungai Aro hot spring in producing biofuels is SSA 14 & SSA 16 which is 3.009%. 
PRODUCTION OF SPESIFIC XYLANASE ENZYME BY MUDIAK SAPAN HOT WATER THERMOPHILIC BACTERY Irdawati Irdawati; Muhammad Deedat Ayasy; Azwir Anhar; Linda Advinda; Yusrizal Yusrizal
Bioscience Vol 8, No 1 (2024): Biology
Publisher : UNIVERSITAS NEGERI PADANG

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/bsc.v8i1.122728

Abstract

Xylanase is an extracellular enzyme capable of hydrolyzing hemicellulose so that it can convert xylan into xylose. Thermostable xylanase enzymes can be produced by thermophilic bacteria. Thermophilic bacteria are used because they have advantages such as the ability to increase enzyme production in adjustable catalytic specifications. Bacteria are not only in a single form but also exist in a mixed form called a consortium. Compared with a single isolate, the performance of the consortium is better. Consortium is a mixture of microbial populations in the form of communities that have cooperative, commensal, and mutualistic relationships. This study aims to look at the cooperation between the consortium isolates and the consortium's ability to produce xylanase enzymes. This research is a descriptive study. The bacterial consortium is fermented in beechwood xylan medium. The results of this study were that MSS 11, MS 18, MS 16 consortium produced the highest xylanase enzyme activity, namely 12,887.Xilanase merupakan enzim ekstraseuler yang mampu menghidrolisis hemiselulosa sehingga dapat merubah xilan menjadi xilosa. Enzim xilanase termostabil dapat diproduksi oleh bakteri termofilik. Bakteri termofilik digunakan karena dapat memiliki keunggulan seperti aktivitas dan peningkatan spesifikasi katalisis yang dapat diatur. bakteri tidak hanya dalam bentuk tunggal namun juga ada dalam bentuk campuran yang disebut konsorsium. Dibandingkan dengan isolat tunggal, kinerja konsorsium lebih baik. Konsorsium merupakan campuran populasi mikroba dalambentuk komunitas yang mempunyai hubungan kooperatif, komensal, dan mutualitsik. Penelitian ini bertujuan untuk melihat kerjasama antar isolat konsorsium dan kemampuan konsorsium dalam menghasilkan enzim xylanase. Penelitian ini bersifat deskriptif. Pada penelitian ini, konsorsium bakteri difermentasikan dalam medium beechwood xylan. Hasil penelitian ini adalah konsorsium MSS 11, MS 18, MS 16 menghasilkan aktivitas enzim xylanase spesifik tertinggi yaitu 12,887.
Co-Authors Abdul Razak Abi Muhlisin Alfroki Marta Amraeni Amraeni Andi Sawe Riesso Ansir Ansir Asma Nur Islami Ayu Dian Pratiwi Azwir Anhar Fahra Fahra Fitria Fitria Heriswanto, Heriswanto Inayatul Fatia Irham Natsir Linda Advinda Lufri Lufri Muhammad Deedat Ayasy Novia Ika Pratiwi Nur, Kherayani Nurlaela Nurlaela Nurlaela Nurlaela Septina Riyansari Sinarwati Sinarwati Sukri Sukri Tomi Apra Santosa Wahyu Indra Saputra Winarsih Nur Ambarwati Yusrizal Yusrizal