不同土著菌及其复合菌对玉米秸秆降解的影响

    Effect of different indigenous microorganisms and its composite microbes on degradation of corn straw

    • 摘要: 为研究一种高效的玉米秸秆降解复合菌,选取了木质素降解优势土著菌密黏褶菌、环状芽孢杆菌、铜绿假单胞菌、栗褐链霉菌、黄孢原毛平革菌、杂色云芝、绿色木霉、黑曲霉,对各单一菌种对玉米秸秆的降解能力进行了测定,通过菌种间的拮抗试验,将单一菌种进行组合,初步构建了一组木质纤维素降解复合菌。结果表明:在整个35 d的预处理周期中,黑曲霉、绿色木霉对秸秆中纤维素、半纤维素体现了较高的降解能力,黑曲霉、绿色木霉对半纤维素的降解率分别为47.81%、37.53%,对纤维素的降解率分别为38.96%、46.32%;黄孢原毛平革菌、杂色云芝对玉米秸秆中的木质素体现了较强的降解能力,对木质素的降解率分别为43.56%、39.17%;菌种拮抗试验表明该试验所选用的真菌、放线菌及细菌之间无拮抗反应,可以进行混合培养;对复合菌预处理前后的玉米秸秆微观结构进行扫描电镜分析,发现在降解过程中复合菌对木质纤维素的结构产生了破坏作用,提高了木质纤维素的可及性;木质素、纤维素、半纤维素的含量在整个发酵过程中都在逐渐减少,发酵结束时复合菌对半纤维素的降解率最高达到48.53%,纤维素的降解率为36.38%,木质素的降解率为40.11%,在提高木质素降解率的同时减少了纤维素消耗。该研究为秸秆类生物质降解及利用提供了参考依据。

       

      Abstract: Abstract: In nature, there are a large number of microorganisms that can decompose the cellulose of the wood, including bacteria, fungi and actinomycetes. It has been found that the bacteria bacillus and pseudomonas, streptomyces, fungi and other microorganisms are playing an important role in the aerobic fermentation process at different stages. In this study, 8 kinds of microorganisms were selected to construct efficient composite microbes for corn straw degradation. They were identified to be Gloeophyllum trabeum, Bacillus circulans, Pseudomonas aeruginosa, Streptomyces badius, Phanerochaete chrysosporium, Coriolus versicolor, Trichoderma viride and Aspergillus niger. Lignocellulose degradation rate of single strain and the antagonism between different strains were firstly analyzed. The 90 mL liquid for the expanding culture was added to the triangular flask containing 30 g corn straws, which was then put in the incubator with constant temperature of 30℃ and humidity controlled at more than 80% for 35 d. Corn straws treated by pretreatment of microorganisms were sampled for determination of cellulose, hemicellulose and lignin every 5 days. The results showed that the degradation rates of hemicellulose reached up to 47.81% and 37.53% after the fermentation processes with Aspergillus niger and Trichoderma viride respectively, and those of cellulose reached 38.96% and 46.32% respectively. The lignin degradation rates reached up to 43.56% and 39.17% respectively after pretreatments with Phanerochaete chrysosporium and Coriolus versicolor. The bacteria and actinomycetes in this study did not have a great ability to degrade corn straws. The results showed that corn straws were not completely degraded in the process of pretreatment by microorganisms. Because of the complex structure of lignocellulose, the degradation of corn straws required the participation of many kinds of microorganisms. However, the construction of composite microbes was not a simple superposition of microorganisms. The antagonism was determined for microorganisms by ?at-stand and Oxford plate methods. No antagonistic reaction was observed between the fungi, actinomycetes and bacteria used in this study, which provided the basis for the construction of the composite microbes. Then, a group of composite microbes were preliminarily constructed to degrade the corn straws for 15 d. The results from the scanning electron microscopy (SEM) turned out that the structure of pretreated straw changed a lot and some cracks and cavities which increased the availability of lignocellulose were found. The degradation rate of lignin, cellulose and hemicellulose in the corn straw gradually increased in the process of the pretreatment with composite microbes. After the pretreatment process, the degradation rates of hemicellulose, cellulose and lignin reached up to 48.53%, 36.38% and 40.11% respectively. While increasing the lignin degradation rate, the consumption of cellulose was reduced, which was more conducive to the subsequent anaerobic fermentation. The research provides the reference for the degradation and utilization of straw biomass.

       

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