根际
微生物菌剂
生物
农学
光合作用
温带气候
固氮
植物
作物
微生物种群生物学
接种
草原
共生
微生物群
作物生产力
土壤水分
固氮酶
渗透调节剂
细菌
作者
Sumeng Xu,Zhonghua Cao,Ke Ma,Jiaxing Song,Yanjun Miao,Qian Li,Dongji Song,Juanjuan Fu,Peizhi Yang
标识
DOI:10.1021/acs.jafc.5c14225
摘要
, widely distributed in the Qinghai-Tibet Plateau, possesses notable stress tolerance, yet the exploration of its functional rhizosphere microbes remains limited. In this study, we characterized bacterial variations across rhizosphere surrounding soil, rhizosphere, and endosphere compartments from five grassland types, isolated core strains, and established a synthetic community (SynCom). Results revealed that under PEG-induced drought, SynCom significantly altered alfalfa responses by scavenging reactive oxygen species (ROS), modulating immune gene expression, and synthesizing glutamate metabolites. Additionally, SynCom inoculation conferred cold resistance to alfalfa by enhancing photosynthetic activity, boosting antioxidant enzymes, and producing osmotic adjustment compounds like trehalose. This investigation underscores the capacity of core rhizosphere taxa to enhance stress tolerance, offering novel perspectives for developing microbial inoculants to improve crop productivity under drought and cold stress.
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