Abstract
Fusarium wilt disease causes severe decline of watermelon yield and quality. Researches have been reported that soil fumigation with dazomet can help control crop disease. Firstly, we discovered that the dazomet application suppressed watermelon wilt in field experiment compared to the control group. While the importance of microbial community in regulating plant health has been rising up, we therefore focused on examining the soil microbial diversity at six different sampling times after dazomet application by using Illumina MiSeq platform. Remarkably, our research results showed that some beneficial microbial genera have been altered, and these beneficial microbial genera have dominated the entire community, such as Nitrolancea, Pseudomonas and Penicillium after dazomet application. Instead, the relative abundance of Fusarium genus and the pathogen FON (Fusarium oxysporum f. sp. niveum, FON) had the decreased. As there was a significant accumulation of AP (available soil phosphorus) after dazomet application, we noticed that the beneficial microbes as Bacillus, Nitrolancea, Paenibacillus and Penicillium have significant positive correlation with AP but negatively related to morbidity. Together, these results demonstrate that the altered soil microbial community structure by dazomet application is critical to suppress watermelon Fusarium wilt. Thus, our results will drive investigations aimed to deploy interaction of microbiota contribute and plant immunity.
Highlights
Fusarium wilt disease causes severe decline of watermelon yield and quality
In this experiment, we focused on the soil microbial diversity at 6 different sampling times after dazomet application by using Illumina MiSeq platform to explore the dynamic changes of soil microbial community and identify its importance to suppress watermelon Fusarium wilt
The disease incidence was significantly reduced after dazomet application compared to the control group in our filed experiment, indicating that the continuous application of dazomet could effectively suppress the occurrence of watermelon Fusarium wilt
Summary
Fusarium wilt disease causes severe decline of watermelon yield and quality. Researches have been reported that soil fumigation with dazomet can help control crop disease. As there was a significant accumulation of AP (available soil phosphorus) after dazomet application, we noticed that the beneficial microbes as Bacillus, Nitrolancea, Paenibacillus and Penicillium have significant positive correlation with AP but negatively related to morbidity Together, these results demonstrate that the altered soil microbial community structure by dazomet application is critical to suppress watermelon Fusarium wilt. We hypothesis that whether the soil environmental factors or the microbial community constructers altered that effect plant immune system to defense Fusarium wilt after dazomet application in continues watermelon cropping soil In this experiment, we focused on the soil microbial diversity at 6 different sampling times after dazomet application by using Illumina MiSeq platform to explore the dynamic changes of soil microbial community and identify its importance to suppress watermelon Fusarium wilt
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