BIODEGRADATION OF USED BABY DIAPERS USING CELLULOLITIC FUNGUS AND BACTERIA WITH SOLID FERMENTATION

IF 0.8 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Journal of Information Processing Systems Pub Date : 2020-04-29 DOI:10.51673/JIPS.V1I1.228
Riryn Novianty, A. Dahliaty, Nurul Iflah Nasution, H. Haryati
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Abstract

Diapers are made by cotton and pulp containing cellulose that can be used as a substrate in the production of cellulose enzymes. The purpose of this research is to determine the ability of cellulolytic fungi Trichoderma asperellum LBKURCC1 and cellulolytic bacteria S-22 to degrade the used diapers containing urine by solid fermentation for 10, 20, and 30 days. The activity of crude extract of cellulose enzyme was observed with CMC 2% as substrate at pH 5,5 (Trichoderma asperellum LBKURCC1) and pH 7 (bacteria S-22 isolate), incubation temperature 40oC during 30 minutes by using Nelson Somogyi’s method. The result showed that used diapers can be used as substrate for cellulose enzyme production by fungi Trichoderma asperellum LBKURCC1 with the highest activity of cruide extract cellulose enzyme obtained at 10th days solid fermentation of (1,891 ± 1,453) × 10-3 U / mL and by bacteria S-22 isolate at 20th days solid fermentation of (2,854 ± 0,019) × 10-3 U/mL. It can be concluded that bacteria  S-22 isolate would degrade the used diapers better than fungi Trichoderma asperellum LBKURCC1. The result of this research compared to quality standards compost of SNI: 19-7030-2004 have not fulfilled, so it can not be used as compost.
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纤维素菌和固体发酵细菌对废旧婴儿纸尿裤的生物降解
尿布是由棉花和含有纤维素的纸浆制成的,纤维素可以用作生产纤维素酶的基质。本研究的目的是确定纤维素分解真菌木霉LBKURCC1和纤维素分解细菌S-22通过固体发酵10、20和30天降解用过的含尿尿布的能力。采用Nelson-Somogyi方法,在pH5,5(木霉LBKURCC1)和pH7(细菌S-22分离株),培养温度40℃,培养30min的条件下,以CMC 2%为底物,观察了纤维素酶粗提物的活性。结果表明,用过的纸尿裤可以作为基质,由真菌木霉LBKURCC1生产纤维素酶,在第10天固体发酵时获得的cruide提取物纤维素酶活性最高,为(1891±1453)×。可以得出结论,细菌S-22分离物比真菌木霉LBKURCC1更能降解用过的尿布。本研究的结果与SNI:19-7030-2004的堆肥质量标准进行了比较,未达到要求,不能作为堆肥使用。
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来源期刊
Journal of Information Processing Systems
Journal of Information Processing Systems COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
3.00
自引率
6.20%
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0
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