Abstract
Bacillus velezensis is a plant growth-promoting rhizobacteria (PGPR) that has long been proven to improve the growth of plants, and it has been widely used in agriculture. However, in many reports, we observed that during the application of bacterial fluids, it appeared that the effect of the cell-free fermentation broth (CFB) was ignored. The purpose of this study is to compare the effect of the no inoculation treatment (CK), the B. velezensis strain S3-1 treatment (S), the CFB treatment in the Pak choi, soil bacterial community structure, soil enzyme activity, and field soil properties. The results have shown that, compared to the inoculation B. velezensis strain S3-1 treatment and the no-inoculation treatment; the inoculation of the CFB treatment can significantly enhance the soluble protein, soluble solids, ascorbic acid of Pak choi and increase the total phosphorus content and electrical conductivity (EC) in the soil. Based on high-throughput sequencing data, our analysis of soil microbial communities used R, NETWORK, and PICRUSt showed that the CFB treatment can enhance the relative abundance of Acidobacteria in the soil, decrease the abundance of native Bacillus in the soil, change the microbial community structure of the top 50 operational taxonomic units (OTUs), and improve soil microbial carbon metabolism and nitrogen metabolism. Overall, we observed that CFB treatment can also improve plant nutrition and change soil microbial communities. This study provides new insights for the application of microbial fertilizers in agricultural production.
Highlights
Pak choi (Brassica campestris L. ssp. chinensis Makino) is one of the most widely used and commercially essential crops in China
The Pak choi seeds did not germinate under the condition of 100% concentration
There was no significant difference in root length and shoot length of inoculated bacteria at the 4 and 2% concentrations compared with the non-inoculated bacteria
Summary
Pak choi (Brassica campestris L. ssp. chinensis Makino) is one of the most widely used and commercially essential crops in China. Chinensis Makino) is one of the most widely used and commercially essential crops in China It has high nutritional value as it provides an intake of cellulose, vitamins, and minerals (Han et al, 2019). There is great interest in improving Pak choi nutritional quality by using rhizosphere-promoting bacteria. The use of the plant growth-promoting rhizobacteria (PGPR) as a substitute minimizes the adverse effects of artificial fertilizers and pesticides on the environment. Compared to the use of chemical fertilizers, bio-fertilizers made from rhizosphere bacteria can provide better yield and nutritional value for organic fruits and Pak choi (Al-Farsi and Lee, 2008). Bacillus velezensis is widely reported to be in the soil and plants as an essential plant rhizosphere-promoting bacteria (Mateus et al, 2019; Rabbee et al, 2019). The role played by cellfree fermentation broth (CFB) is unclear (Wang et al, 2019)
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