期刊
SCIENCE OF THE TOTAL ENVIRONMENT
卷 770, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.scitotenv.2020.144742
关键词
Low-N stress; Rhizosphere effect; Sorghum rhizosphere; Nitrogen fertilization; Bacterial community
资金
- China Agriculture Research System [CARS-06-13.5-A20]
- Natural Science Foundation for Young Scientist of Shanxi Province [201901D211558]
- Natural Science Foundation Incubation Project of Shanxi Academy of Agricultural Sciences [TGJPY2006]
The study revealed that low-N stress significantly impacted the bacterial community composition in sorghum rhizosphere soils, with an increase in beneficial bacteria and a decrease in ammonia-oxidizing bacteria. Rhizosphere effects may reduce soil bacterial diversity by recruiting specific bacterial species under low-N stress.
Rhizosphere microbiota play a pivotal role in promoting plant growth and defending against pathogens, but their responses to abiotic environmental stress remain largely elusive. Here, we investigated the influences of low-N stress on rhizosphere bacteria of six sorghum cultivars in a glasshouse experiment. The alpha diversity of bacteria (as revealed by Shannon diversity and Chao1 richness indices) was remarkably lower in rhizosphere soils than in bulk soils, and was significantly higher under low-N stress than under N addition. Principal coordinates analysis revealed that the bacterial community compositions in rhizosphere soils were clearly separated from bulk soils, and the rhizosphere soils under low-N stress or with N fertilization were clearly separated, indicating that both rhizosphere effects and N fertilization impacted the rhizosphere bacterial community. Notably, the relative abundances of beneficial bacteria such as Bacillaceae and Streptomycetaceae significantly increased in rhizosphere soils under low-N stress, which had significantly positive correlations with the sorghum N uptake. The relative abundance of Nitrosomonadaceae in rhizosphere soils was significantly lower than that in bulk soils, while the relative abundance of Rhizobiaceae showed an opposite pattern. Taken together, our results suggested that sorghum rhizosphere effects can reduce soil bacterial diversity possibly through recruiting specific bacterial species under low N stress. (C) 2021 Elsevier B.V. All rights reserved.
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