Abstract
Vegetable plug seedling has become the most important way to produce vegetable seedlings in China. This seedling method can significantly improve the quality and yield of vegetables compared to conventional methods. In the process of plug seedling, chemical fertilizers or pesticides are often used to improve the yield of the seedlings albeit with increasing concerns. Meanwhile, little is known about the impact of beneficial bacteria on the rhizosphere microbiota and the growth conditions of vegetables during plug seedling. In this study, we applied a culture-independent next-generation sequencing-based approach and investigated the impact of a plant beneficial bacterium, Bacillus amyloliquefaciens L-S60, on the composition and dynamics of rhizosphere microbiota and the growth conditions of cucumbers during plug seedling. Our results showed that application of L-S60 significantly altered the structure of the bacterial community associated with the cucumber seedling; presence of beneficial rhizosphere species such as Bacillus, Rhodanobacter, Paenibacillus, Pseudomonas, Nonomuraea, and Agrobacterium was higher upon L-S60 treatment than in the control group. We also measured the impact of L-S60 application on the physiological properties of the cucumber seedlings as well as the availability of main mineral elements in the seedling at different time points during the plug seedling. Results from those measurements indicated that L-S60 application promoted growth conditions of cucumber seedlings and that more available mineral elements were detected in the cucumber seedlings from the L-S60 treated group than from the control group. The findings in this study provided evidence for the beneficial effects of plant growth-promoting rhizosphere bacteria on the bacterial community composition and growth conditions of the vegetables during plug seedling.
Highlights
Cucumber (Cucumis sativus L.) is one of the major vegetables grown in China
We investigated the impact of B. amyloliquefaciens L-S60 on rhizosphere bacterial communities during the cucumber seedling process by applying culture-independent 16S rRNA gene highthroughput sequencing
Our work showed the rhizosphere bacterial community varied significantly during the entire cucumber plug seedling upon application of the biological control agent B. amyloliquefaciens L-S60, in particular, the higher presence of potential plant growth-promoting rhizobacteria (PGPR)
Summary
Cucumber (Cucumis sativus L.) is one of the major vegetables grown in China. According to the data published by United Nations Food and Agriculture Organization Fao.org), the area devoted to cucumber cultivation in China has increased annually since 1997 and is currently ranked No 1 in the world. In 2013, the cultivation area of Chinese cucumber reached 1,166,690 hm and the total production was 54,362,750 tons. In China, chemical pesticides and fertilizers are still widely used in the field of agriculture to maintain the yield of crops by preventing them from serious crop diseases. Due to increasing concerns about food safety and environmental pollutions, the usage of traditional chemical pesticides and fertilizers has been gradually reduced in the agricultural field. Researchers are seeking effective alternative solutions to manage crop disease (Alabouvette et al, 2006)
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