BIOLOGICAL DEGRADATION OF BAMBOO PAPER BY TWO WHITE-ROT FUNGI SPECIES

IF 0.4 Q4 FORESTRY

Indonesian Journal of Forestry Research Pub Date : 2023-10-31 DOI:10.59465/ijfr.2023.10.2.239-249

Novitri Hastuti, Luciasih Agustini, Erlina Nurul Aini, Dian Anggraini Indrawan, Gustan Pari, Heru Satrio Wibisono

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Abstract

Non-wood paper production, such as bamboo paper, is an alternative to meet the massive demand for paper consumption in the recent era. Bamboo paper, made from Bambusa vulgaris fibers and manufactured with the addition of activated nano-carbon, shows an improvement in paper quality. However, there is a potential worry with the incorporation of activated carbon since it may hinder the degradation process of paper. Concerning the substance's life cycle, degradation assisted by the fungal decomposer of this new product is crucial. This study investigated the effects of the white-rot fungi, viz. Phlebiopsis sp and Pycnoporus sp., on the degradation of bamboo paper with- or without- activated nano-carbon (BPAC and BPNAC). In vitro experiments that combined two variables (Fungal agents and Paper types) were carried out for 12 weeks. The results revealed that Pycnoporus sp. was more effective in decomposing both BPAC and BPNAC rather than Phlebiopsis sp. After being degraded by Phlebiopsis sp. and Pycnoporus sp. for 12 weeks, the remaining mass of BPAC was 64.14% and 48.96%, respectively, while the BPNAC was 69.89% and 38.25%, respectively. The ability of these fungal agents on composite-paper degradation was compared to other similar studies. Further investigation and possible applications were discussed.

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两种白腐菌对竹纸的生物降解

非木纸生产，如竹纸，是满足近年来大量纸张消费需求的另一种选择。以普通竹纤维为原料，添加纳米活性炭制成的竹纸，纸张质量得到改善。然而，有一个潜在的担忧与活性炭的掺入，因为它可能会阻碍纸张的降解过程。关于该物质的生命周期，这种新产品的真菌分解者辅助降解是至关重要的。本文研究了白腐菌Phlebiopsis sp和Pycnoporus sp对纳米活性炭(BPAC和BPNAC)降解竹纸的影响。结合两种变量(真菌制剂和纸张类型)进行体外实验，为期12周。结果表明，在Phlebiopsis和Pycnoporus sp的降解作用下，Pycnoporus sp对BPAC和BPNAC的降解效果均优于Phlebiopsis。Phlebiopsis和Pycnoporus sp降解12周后，BPAC的剩余质量分别为64.14%和48.96%，BPNAC的剩余质量分别为69.89%和38.25%。并将这些真菌对复合纸的降解能力与其他类似研究进行了比较。讨论了进一步的研究和可能的应用。

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来源期刊

Indonesian Journal of Forestry Research FORESTRY-

CiteScore

1.50

自引率

25.00%

发文量