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Microbial diversity loss and wheat genotype-triggered rhizosphere bacterial and protistan diversity constrain soil multifunctionality: Evidence from greenhouse experiment
Agricultural soil multifunctionality is greatly impacted by belowground processesdriven by a complex group of microorganisms that change during plant growth. While most studies in microbial diversity and multi...
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Article
Phagotrophic protist-mediated control of Polymyxa graminis in the wheat rhizosphere
Uncovering potential biocontrol agents that suppress soil-borne pathogens is an important step toward develo** sustainable management strategies for disease control and to maintain plant health. Plant cultiv...
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Article
Deciphering differences in microbial community composition and multifunctionality between healthy and Alternaria solani-infected potato rhizosphere soils
Understanding the interactions among soil microbial communities, soil multifunctionality, and soil-borne pathogens are important for ecological prevention and control of soil-borne diseases. In this study, we ...
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Article
Characterization of the belowground microbial community and co-occurrence networks of tobacco plants infected with bacterial wilt disease
Characterizing the microbial communities associated with soil-borne disease incidence is a key approach in understanding the potential role of microbes in protecting crops from pathogens. In this study, we com...
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Article
Microbial community changes in different underground compartments of potato affected yield and quality
Soil microbial communities are critical to plant health and productivity. Crop-associated microbial diversity may exhibit spatial specificity across regions and soil compartments. However, we lack sound eviden...
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Article
Enrichment of beneficial rhizosphere microbes in Chinese wheat yellow mosaic virus-resistant cultivars
The microbial community within the root system, the rhizosphere closely connected to the root, and their symbiotic relationship with the host are increasingly seen as possible drivers of natural pathogen resis...
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Article
Diazotrophic Community Variation Underlies Differences in Nitrogen Fixation Potential in Paddy Soils Across a Climatic Gradient in China
Biological nitrogen (N2) fixation as a source of new N input into the soil by free-living diazotrophs is important for achieving sustainable rice agriculture. However, the dominant environmental drivers or factor...
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Article
Effects of straw and its biochar applications on the abundance and community structure of CO2-fixing bacteria in a sandy agricultural soil
Crop straw and biochar application can potentially increase carbon sequestration and lead to changes in the microbial community in agricultural soils. Sequestration of CO2 by autotrophic microorganisms is key to ...