麦秸降解复合微生物系统的筛选及其特性研究

Agricultural Sciences in China Pub Date : 2011-10-01 DOI:10.1016/S1671-2927(11)60155-7

LI Pei-pei, WANG Xiao-juan, YUAN Xu-feng, WANG Xiao-fen, CAO Yan-zuan, CUI Zong-jun

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引用次数: 18

摘要

摘要为了加速小麦秸秆直接返回土壤的分解，本研究通过40周的有限培养，在含有腐烂秸秆的农业土壤中构建了ADS-3微生物系统。为评价ADS-3在秸秆加速分解中的应用潜力，分析了ADS-3的分解特性和微生物组成。结果表明，在15 d的培养过程中，该菌对麦秸和滤纸的降解率分别为63.8%和80%。秸秆半纤维素在前3 d的降解率为51.2%，在培养结束时下降至73.7%。15 d后，纤维素的降解率达到53.3%。木聚糖酶和纤维素酶活性在3和10 d时达到峰值，分别为1.32和0.15 U mL-1。降解过程中pH值平均为6.4 ~ 7.6，接近正常土壤的酸碱度。变性梯度凝胶电泳(DGGE)分析表明ADS-3的微生物组成稳定。通过细菌16S rRNA和真菌26S rRNA基因克隆文库分析，共检测到20个细菌克隆和7个真菌克隆。以梭状芽孢杆菌(Bacillus fususiformis)、胞噬菌(Cytophaga sp.)、未培养梭菌(Clostridiales bacterium)、木溶瘤杆菌(Ruminobacillus xylanolyticum)、羟基苯甲酸梭菌(Clostridium hydroxybenzoicum)和未培养变形杆菌(proteobacterium)为代表的细菌的近亲，真菌主要与毕赤酵母(Pichia sp.)和未培养真菌有亲缘关系。

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Screening of a Composite Microbial System and Its Characteristics of Wheat Straw Degradation

Abstract

To accelerate the decomposition of wheat straw directly returned to soil, we constructed a microbial system (ADS-3) from agricultural soil containing rotting straw residues using a 40-wk limited cultivation. To assess its potential use for accelerating straw decomposing, the decomposing characteristics and the microbial composition of ADS-3 were analyzed. The results indicated that it could degrade wheat straw and filter paper by 63.8 and 80%, respectively, during 15 d of incubation. Straw hemicellulose degraded dramatically 51.2% during the first 3 d, decreasing up to 73.7% by the end of incubation. Cellulose showed sustained degradation reaching 53.3% in 15 d. Peak values of xylanase and cellulase activities appeared at 3 and lid, with 1.32 and 0.15 U mL-¹, respectively. Estimated pH averaged 6.4-7.6 during the degradation process, which approximated acidity and alkalinity of normal soils. The microbial composition of ADS-3 was stable based on denaturing gradient gel electrophoresis (DGGE) analysis. By using bacterial 16S rRNA and fungal 26S rRNA gene clone library analysis, 20 bacterial clones and 7 fungal clones were detected. Closest identified relatives of bacteria represented by Bacillus fusiformis, Cytophaga sp., uncultured Clostridiales bacterium, Ruminobacillus xylanolyticum, Clostridium hydroxybenzoicum, and uncultured proteobacterium and the fungi were mainly identified as related to Pichia sp. and uncultured fungus.

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来源期刊

Agricultural Sciences in China AGRICULTURE, MULTIDISCIPLINARY-

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审稿时长

3.2 months