Traits-Based Integration of Multi-Species Inoculants Facilitates Shifts of Indigenous Soil Bacterial Community

Abstract: Microbial co-inoculation is considered to be an innovative approach and had been applied worldwide. However, the underlying mechanisms of microbial co-inoculants constructions, especially the trait-based combination of distinctly different microbial species remains poorly understood. In this study, we constructed two microbial co-inoculants with the same three strains with emphasis on the microbial, soil and plant traits. Microbial co-inoculants 1 (M1) were constructed according to soil fertility, microbial ac… Show more

“…In addition, PGPR inoculation in the present study obviously changed the structure of bacterial communities in the maize rhizosphere as detected using MiSeq high‐throughput sequencing technology (Figs 2 and 3; Table S6). Previous studies have reported that PGPR inoculation may regulate the composition of the host rhizobacterial communities (Zhang et al ., 2019b,c), and different inoculants have different effects on root‐associated bacterial communities, which may indirectly affect plant growth (Gadhave et al ., 2018; Wang et al ., 2018). In the current study, the abundance of certain bacterial populations in the maize rhizosphere was decreased or increased to various degrees after inoculation with the four PGPR strains (Fig.…”

“…For example, Wang et al . (2018) reported that inoculation with a mixture of Ensifer sp. NYM3, Acinetobacter sp.…”

“…Plant growth-promoting rhizobacteria (PGPR) can promote plant growth by providing nutrients, synthesizing phytohormones, defending against pathogens, reducing stress, alleviating soil contamination with heavy metals (Kloepper and Schroth, 1978; Bardi and Malus a, 2012;Cawoy et al, 2015;Wang et al, 2015) or improving the microbial community structure of the rhizosphere (Vessey, 2003;Malusa and Vassilev, 2014). For example, Wang et al (2018) reported that inoculation with a mixture of Ensifer sp. NYM3, Acinetobacter sp.…”

Effects of growth‐promoting rhizobacteria on maize growth and rhizosphere microbial community under conservation tillage in Northeast China

“…In addition, PGPR inoculation in the present study obviously changed the structure of bacterial communities in the maize rhizosphere as detected using MiSeq high‐throughput sequencing technology (Figs 2 and 3; Table S6). Previous studies have reported that PGPR inoculation may regulate the composition of the host rhizobacterial communities (Zhang et al ., 2019b,c), and different inoculants have different effects on root‐associated bacterial communities, which may indirectly affect plant growth (Gadhave et al ., 2018; Wang et al ., 2018). In the current study, the abundance of certain bacterial populations in the maize rhizosphere was decreased or increased to various degrees after inoculation with the four PGPR strains (Fig.…”

“…For example, Wang et al . (2018) reported that inoculation with a mixture of Ensifer sp. NYM3, Acinetobacter sp.…”

“…Plant growth-promoting rhizobacteria (PGPR) can promote plant growth by providing nutrients, synthesizing phytohormones, defending against pathogens, reducing stress, alleviating soil contamination with heavy metals (Kloepper and Schroth, 1978; Bardi and Malus a, 2012;Cawoy et al, 2015;Wang et al, 2015) or improving the microbial community structure of the rhizosphere (Vessey, 2003;Malusa and Vassilev, 2014). For example, Wang et al (2018) reported that inoculation with a mixture of Ensifer sp. NYM3, Acinetobacter sp.…”

Effects of growth‐promoting rhizobacteria on maize growth and rhizosphere microbial community under conservation tillage in Northeast China

“…Ke et al [39] reported that the inoculation of soil with Pseudomonas stutzeri A1501 significantly changed the indigenous soil bacterial community structure after 2 months of inoculation, and our findings are consistent with this report. Similarly, Wang et al [40] discussed the significant effect of bio-inoculants on soil microbial communities. In this study, the abundance of the Ellin 329 and Rhizobiales orders were higher in all samples.…”

Response of Soil Bacterial Community and Pepper Plant Growth to Application of Bacillus thuringiensis KNU-07

“…In order to enhance the reliability and efficacy of microbial inoculants in agriculture and combining these PGPB by co-inoculation had been applied worldwide for more than a decade. As co-inoculation would mimic the natural situation more closely and allow the combination of various mechanisms without the need for genetic engineering [12].…”

Improvement of Phaseolus vulgaris growth by inoculation with multifunctional native rhizobacteria isolated from rhizospheric soils in Gaza strip- Palestine