The effects of Rhodopseudomonas palustris PSB06 and CGA009 with different agricultural applications on rice growth and rhizosphere bacterial communities

Luyun Luo,Xinqiu Tan,Yong Liu,Pin Su,Deyong Zhang,Zhuo Zhang,Pei Wang,Zhongying Zhai

doi:10.1186/s13568-019-0897-z

Luyun Luo, Xinqiu Tan + Show 6 more

Open Access

https://doi.org/10.1186/s13568-019-0897-z

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Abstract

In recent years, the photosynthetic bacteria have been used widely in agriculture, but the effects of different agricultural applications on crop rhizosphere microorganism and crops are lack. In this study, we provide new insights into the structure and composition of the rice root-associated microbiomes as well as the effect on crop of the Rhodopseudomonas palustris(R. palustris) PSB06 and CGA009 at the rice seedling stage with seed immersion and root irrigation. Compare with CK group, the length of stem, the peroxidase (POD), and superoxide dismutase (SOD) activities in PSB06 treatment group was significantly higher, while the length of stem in CGA009 treatment group was significantly higher. The POD and SOD activities in CGA009 treatment groups only were higher slightly than the CK group. In the study, the dominant phyla were Proteobacteria (51.95–61.66%), Bacteroidetes (5.40–9.39%), Acidobacteria (4.50–10.52%), Actinobacteria (5.06–8.14%), Planctomycetes (2.90–4.48%), Chloroflexi (2.23–5.06%) and Firmicutes (2.38–7.30%), accounted for 87% bacterial sequences. The principal coordinate analysis (pCoA) and mantel results showed the two application actions of R. palustris CGA009 and PSB06 had significant effects on rice rhizosphere bacterial communities (p < 0.05). The PSB06 can significantly promote the rice growth and enhance stress resistance of rice at the seedling stage, while the R. palustris CGA009 has no significant effect on rice. Dissimilarity test and canonical correspondence analysis (CCA) results showed that the TN and pH were the key factors affecting rice rhizosphere bacterial community in the seedling stage. This study will provide some guidance advices for the study of the microecological regulation of photosynthetic bacteria on crops.

Highlights

The different microbial communities above and below the ground reflect that these microbial communities have plant habitat specificity, and are closely related to plant health
We investigated the impact of the biological control agents (BCAs) R. palustris PSB06 on the indigenous rhizosphere bacterial community using 16S rRNA amplicon sequencing and growth of seedling rice with seed immersion and root irrigation
Compared with the two groups treated with R. palustris CGA009, BC group was significantly higher than GC group (Student t-test, p < 0.05)

Summary

Introduction

The different microbial communities above and below the ground reflect that these microbial communities have plant habitat specificity, and are closely related to plant health. The applications of chemical pesticides and biological control agents (BCAs) usually have been recommended to control disease incidence and severity in agriculture (Erwin and Ribeiro 1996). More and more BCAs, such as Bacillus spp., Pseudomonas spp., Trichoderma spp. etc., being commercialized for various crops as a desirable strategy for controlling plant diseases (Trabelsi and Mhamdi 2013; You et al 2015; Cha et al 2016). The application of these BCAs has greatly promoted the improvement of agricultural production

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