细菌-真菌复合菌系的降解效果与产酶能力具有明显的多样性效应,维生素内切酶和木聚糖酶是驱动细菌-真菌复合菌系高效降解秸秆的关键因子。结 论:(1)本研究将筛选获得的秸秆降解能力较好的两株细菌和两株真菌,通过全组合的方式构建出不同组合的复合菌系,发现复合菌系的降解率和3 种纤维素酶活性均随菌株种类的...
CELLULASEASPERGILLUS fumigatusMICROBIAL diversityRICE strawThis study aimed to screen and construct a bacterial-fungal consortium that has highly efficient at degrading rice straw. Strawdegrading bacteria and fungi were isolated from the degraded rice straw. Two species each of bacteria and fungi were ...
(1)本研究将筛选获得的秸秆降解能力较好的两株细菌和两株真菌,通过全组合的方式构建出不同组合的复合菌系,发现复合菌系的降解率和3 种纤维素酶活性均随菌株种类的增加而提高。 (2)明确了复合菌系产纤维素酶活性与秸秆降解效果之间的关系,发现纤维素内切酶...