Degradation of pretreated agroforestry residues by selected micromycetes

Zbornik Matice Srpske za Prirodne Nauke Pub Date : 2022-01-01 DOI:10.2298/zmspn2243089g

Milica Galić, Jasmina Ćilerdžić, M. Stajić

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Abstract

Nowadays, there are huge amounts of lignocellulosic materials left in agroforestry practice, which can be transformed into useful products. Biomass exploitation could be aiming not only at replacing conventional energy sources but also at preserving biodiversity and natural ecosystems. Five micromycetes were studied with goal to determine their potential to produce active cellulases as well as the ability to decompose pretreated wheat straw and oak sawdust after seven days of solid-state fermentation. Wheat straw was better lignocellulosic substrate than oak sawdust for the production of cellulases in all five micromycetes. Thus, Penicillium solitum BEOFB 1190m has shown to be the best producer of highly active forms of xylanases (7532.36 ? 89.37 U/L). The most active endo- and exocellulases (2299.70 ? 72.17 U/L and 195.66 ? 4.64 U/L, respectively) were produced by Trichoderma harzianum BEOFB 1230m, while the maximal value of ?-glucosidase activity (215.69 ? 3.13 U/L) was detected after Fusarium graminearum BEOFB 820m cultivation. T. harzianum also showed high efficiency in wheat straw cellulose and hemicellulose depolymerization (23.90% and 33.00%, respectively), which resulted in the highest dry matter loss (36.25%). The results of the study showed great potential of tested micromycetes to synthesize cellulolytic enzymes and consequently transform abundant, low-cost plant residues such as wheat straw into useful products including biofuel.

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经筛选的微菌降解预处理农林业残留物

目前，在农林业生产实践中留下了大量的木质纤维素材料，这些材料可以转化为有用的产品。生物质开发的目的不仅可以是取代常规能源，而且可以是保护生物多样性和自然生态系统。研究了5种微真菌，目的是确定它们在固态发酵7天后产生活性纤维素酶的潜力以及分解预处理麦秸和橡木木屑的能力。在所有5种微真菌中，小麦秸秆比橡木木屑更适合生产纤维素酶。因此，孤青霉BEOFB 1190m已被证明是高活性木聚糖酶(7532.36 ?89.37 U / L)。最活跃的胞内酶和胞外酶(2299.70 ?72.17 U/L和195.66 ?哈茨木霉BEOFB 1230m菌株的β -葡萄糖苷酶活性最大值为215.69 μ U/L。BEOFB 820m培养后检出3.13 U/L)。稻瘟病菌对麦秆纤维素和半纤维素的解聚效率也较高(分别为23.90%和33.00%)，干物质损失最高(36.25%)。该研究的结果表明，所测试的微菌具有合成纤维素水解酶的巨大潜力，从而将大量低成本的植物残留物(如麦秸)转化为包括生物燃料在内的有用产品。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Zbornik Matice Srpske za Prirodne Nauke

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8 weeks