Additive effects of nitrogen deficiency and water stress on reassembly of the rhizosphere microbiome

根际 微生物群 非生物成分 生物 非生物胁迫 氮气 丰度(生态学) 微生物生态学 氮气循环 共生 氮缺乏 生态学 植物 细菌 内涝(考古学) 大块土 寄主(生物学) 微生物种群生物学 相对物种丰度 固氮 土壤微生物学 基因组 微生物
作者
Wenxuan Shi,Ruohan Xie,Heng Zhang,Shihao Su,Jinfang Tan,Yufei Sun,Junjie Guo
出处
期刊:New Phytologist [Wiley]
卷期号:250 (3): 1817-1832
标识
DOI:10.1111/nph.71010
摘要

Rhizosphere microbial symbioses confer advantages to host plants under environmental stress. However, the effect of multiple stressors on triggering rhizomicrobiome reassembly remains poorly understood, as stress effects can be additive, antagonistic, or synergistic. Tomato was used as a model plant to investigate the interactions between nitrogen deficiency and two contrasting water stresses (drought and waterlogging) on the reassembly of rhizosphere bacterial and fungal communities through quantitative microbiome profiling. The combination of nitrogen deficiency with drought or waterlogging increased α-diversity, except for bacteria under the combined stress of nitrogen deficiency and drought. Nitrogen deficiency generally reduced the abundance of taxonomic groups, with this reduction exacerbated under drought but reversed under waterlogging, particularly for bacteria. Similar results were observed for the abundance of bacterial functional guilds and dominant microbial taxa. The interactive effects of nitrogen deficiency and water stress on microbial α-diversity, as well as on the abundance of taxonomic groups, functional guilds, and dominant taxa were predominantly additive. Additive interactions dominated rhizomicrobiome reassembly in response to nitrogen deficiency and water stress, with distinct response patterns observed between bacterial and fungal communities. This study provides new insights into rhizomicrobiome dynamics under multiple abiotic stressors.
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