Guangmei Tang scite author profile

Soybean, as a major oil crop, is one of the most widely planted crops in the world. Fusarium oxysporum causes soybean root rot, leading to great economic losses to soybean planting every year globally. Chemical fungicide for controlling soybean F. oxysporum diseases may cause environmental problems and have human health risks. Biological control methods avoid these shortcomings, however, few studies have focused on biocontrol of soybean diseases caused by F. oxysporum. Aiming at this problem, we obtained biocontrol bacteria against soybean F. oxysporum by plate confrontation method. The type of the strain with the highest biocontrol activity was identified by molecular biological methods, and then verified it biocontrol effects through greenhouse experiments. One of our isolated strain named BS06 strain had the highest activity, which was identified as Bacillus subtilis. Our study showed that BS06 strain could effectively control soybean F. oxysporum disease and significantly reduce F. oxysporum to infect soybean roots. Compared with control and carbendazim treatments, BS06 treatment had higher root biomass, plant height, leaf chlorophyll content, stem base diameter and control efficiency. Our results indicated that BS06 could effectively protect soybean root, that might BS06 strain produce substances to inhibit F. oxysporum, which was potentially useful for soybean planting.

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Nitrogen and Phosphorus Fertilizer Increases the Uptake of Soil Heavy Metal Pollutants by Plant Community

Tang

Zhang

et al. 2022

Bull Environ Contam Toxicol

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Passivating Agents Relieved Cu and Cd Pollution on Maize Growth

Tang

Huang

et al. 2023

J Soil Sci Plant Nutr

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Guangmei Tang

Phosphorus is more effective than nitrogen in restoring plant communities of heavy metals polluted soils

Bacillus subtilis strain BS06 protects soybean roots from Fusarium oxysporum infection

Nitrogen and Phosphorus Fertilizer Increases the Uptake of Soil Heavy Metal Pollutants by Plant Community

Passivating Agents Relieved Cu and Cd Pollution on Maize Growth

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