Molecular characterization of microbial communities in the rhizosphere soils and roots of diseased and healthy Panax notoginseng

Wu, Zhaoxiang; Hao, Zhipeng; Zeng, Yan; Guo, Lan-Ping; Huang, Lusheng; Chen, Baodong

doi:10.1007/s10482-015-0560-x

Cited by 61 publications

(48 citation statements)

References 47 publications

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“…These observations indicate that Fusarium might not be an important pathogen for P. notoginseng, or at least not a dominant pathogen, which differs from the findings of a previous report (Ma et al 2013). However, the present observations of the dominant Ilyonectria and the minor presence of Fusarium in the symptomatic roots are consistent with the recent survey of fungal communities on symptomatic P. notoginseng (Wu et al 2015). Therefore, fungal community analysis is an effective method for "overviewing" the possible dominant pathogen in the symptomatic samples, providing effective guidance for elucidating the specific important pathogen.…”

Section: Discussionsupporting

confidence: 57%

“…It prefers a warm, wet, shady, and cool environment, with soil humidity ranging from 25 to 30% and relative air humidity from 70 to 85% (Guan et al 2011), conditions which also facilitate the infection of numerous phytopathogens (Chen et al 2001). Root rot is the most destructive disease of P. notoginseng, which significantly reduces root quality and decreases yield by 5 to 20%, sometimes even exceeding 70% (Sun et al 2004;Wu et al 2015). Root rot has been the major threat to cultivation and sustainable development of this plant.…”

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confidence: 99%

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Unveiling of Dominant Fungal Pathogens Associated With Rusty Root Rot of Panax notoginseng Based on Multiple Methods

Yang

Rao

et al. 2017

Plant Disease

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Root rot is an important disease hampering the sustainable cultivation of Panax notoginseng. Culture-dependent and independent techniques were used to elucidate the dominant fungal pathogen of rusty root rot of P. notoginseng. Based on Illumina sequencing profiles for fungi using ITS primers, five phyla—namely Ascomycota, Basidiomycota, Glomeromycota, Zygomycota, and Chytridiomycota—were identified, and the analyses showed that the Ascomycota was the dominant phylum (∼50 to 97%), especially in the symptomatic samples. Out of 226 total genera identified, seven genera had over 1% average abundance, including Ilyonectria, Fusarium, Tetracladium, Cladosporium, Rhizophagus, Alternaria, and Perisporiopsis. However, only Ilyonectria was the predominant genera in the symptomatic samples (∼76 to 80%), while the others, including Fusarium, had higher abundances in asymptomatic samples. Based on in vitro and in vivo pathogenicity, the isolate G3B was demonstrated to be the pathogen causing rusty root rot of P. notoginseng, and it was identified as Ilyonectria mors-panacis. Based on primers F2-R2 targeting the His3 gene of Ilyonectria, real-time quantitative PCR (qPCR) was performed as an additional proof confirming that I. mors-panacis was the dominant pathogen in the symptomatic samples during the years of the study (2014-2015).

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Section: Discussionsupporting

confidence: 57%

mentioning

confidence: 99%

Unveiling of Dominant Fungal Pathogens Associated With Rusty Root Rot of Panax notoginseng Based on Multiple Methods

Yang

Rao

et al. 2017

Plant Disease

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“…Illumina sequencing approaches using 16S rDNA gene markers should expand the current understanding of plant‐microbe relationships and comprehensive descriptions of the full bacterium diversity associated with the rhizospheric and endophytic roots of P. notoginseng . To our knowledge, few studies have utilized MiSeq as a platform to study the soil bacterial diversity of P. notoginseng and only at a single timepoint . Here, this new sequencing technique was employed for the first time to analyse progressive changes in soil bacterial community structure and diversity during the continuous cropping of P. notoginseng .…”

Section: Discussionmentioning

confidence: 99%

“…However, studies examining soil and root microbial communities and diversity in response to continuous cropping utilizing non‐culture‐based methods have not been reported. Further, there is no available information regarding the vast microbial diversity comprising the combination of root and rhizospheric soil microorganisms during continuous cropping .…”

Section: Introductionmentioning

confidence: 99%

Diversity and composition of rhizospheric soil and root endogenous bacteria in Panax notoginseng during continuous cropping practices

Tan

Cui

et al. 2017

J Basic Microbiol

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Rhizobacteria and endophytic bacteria play important roles in protecting host plants from infection by phytopathogens, which cause soil-borne diseases and severely impair plant health. Panax notoginseng is negatively affected by continuous cropping and becomes vulnerable to attack by microbial pathogens. In the present study, culture-independent Illumina MiSeq was used to investigate root-endophytic and rhizospheric bacteria in response to continuous cropping of P. notoginseng. Numbers of rhizospheric bacteria decreased with continuous P. notoginseng cropping, while the effects of continuous cropping on endophytic bacteria were not statistically significant. Bacterial diversity was higher in healthy P. notoginseng rhizospheric soils and roots than in those of diseased P. notoginseng. The most dominant phyla detected during continuous cropping were Proteobacteria, Cyanobacteria, Actinobacteria, and Acidobacteria. The genera Pseudomonas, Rhodoplanes, Candidatus Solibacter, and Streptomyces were dominant in P. notoginseng rhizospheric soils and roots. Erwinia, Stenotrophomonas, Pseudomonas, and Sphingobium were specifically detected in relatively high proportions among root-rot rhizospheric bacteria and endogenous root bacteria in plants under continuous cropping, suggesting that they may be the pathogens responsible for the negative effects of continuous cropping on P. notoginseng. Based on canonical correspondence analysis of the bacterial communities that were identified from healthy plants and fallow soils, total phosphorus (P), pH, and organic soil matter exerted the greatest impacts upon bacterial community composition during continuous cropping. In general, continuous cropping practices for P. notoginseng and severe root-rot disease notably affected the community structure and the diversity of rhizospheric and root endophytic bacteria. Our study elucidated the ecological significance of microbial communities in healthy plant maintenance, and our results may inform biological control strategies during the continuous cropping of P. notoginseng.

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“…Illumina MiSeq platform Schmidt et al, 2013;Wu et al, 2015) and a culture-dependent approaches to investigate the composition and assembly of characterize bacterial communities investigate bacterial diversity and isolate Hgresistant PGPB in the rhizosphere, endosphere and phyllosphere of a polarpoplars plantation at a Hg-contaminated site. We hypothesized that the presence of a poplar tree plantation on an industrial dump would significantly and differentially shape the bacterial communities from the different soils and poplar habitats.…”

Section: Introductionmentioning

confidence: 99%

Bacterial diversity associated with poplar trees grown on a Hg-contaminated site: Community characterization and isolation of Hg-resistant plant growth-promoting bacteria

Durand

Maillard

Álvarez-López

et al. 2018

Science of The Total Environment

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Industrial waste dumps are rarely colonized by vegetation after they have been abandoned, indicating biological infertility. Revegetation of industrial tailings dumps is thus necessary to prevent wind erosion, metal leaching and has been shown to restore soil functions and ecosystem services. However, little is known about the microbial colonization and community structure of vegetated tailings following the application of restoration technologies. In this study, we investigated the rhizosphere and phyllosphere bacterial communities of a poplar tree plantation within a phytomanagement-based restoration program of a Hg-contaminated site. We used Illumina-based sequencing combined with culture-dependent approaches to describe plant-associated bacterial communities and to isolate growth-promoting bacteria (PGPB) and Hg-resistant bacteria. The genus Streptomyces was highly specific to the root community, accounting for 24.4% of the relative abundance but only representing 0.8% of the soil community, whereas OTUs from the Chloroflexi phylum were essentially detected in the soil community. Aboveground habitats were dominated by bacteria from the Deinococcus-Thermus phylum, which were not detected in belowground habitats. Leaf and stem habitats were characterized by several dominant OTUs, such as those from the phylum Firmicutes in the stems or from the genera Methylobacterium, Kineococcus, Sphingomonas and Hymenobacter in the leaves. Belowground habitats hosted more cultivable Hg-resistant bacteria than aboveground habitats and more Hg-resistant bacteria were found on the episphere than in endospheric habitats. Hg-resistant isolates exhibiting plant growth-promoting (PGP) traits, when used as inoculants of Capsicum annuum, were shown to increase its root dry biomass but not Hg concentration. The N-fixing and Hg-resistant species Pseudomonas graminis, observed in the poplar phyllosphere, may be a key microorganism for the restoration of industrial tailings dumps.

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Molecular characterization of microbial communities in the rhizosphere soils and roots of diseased and healthy Panax notoginseng

Cited by 61 publications

References 47 publications

Unveiling of Dominant Fungal Pathogens Associated With Rusty Root Rot of Panax notoginseng Based on Multiple Methods

Unveiling of Dominant Fungal Pathogens Associated With Rusty Root Rot of Panax notoginseng Based on Multiple Methods

Diversity and composition of rhizospheric soil and root endogenous bacteria in Panax notoginseng during continuous cropping practices

Bacterial diversity associated with poplar trees grown on a Hg-contaminated site: Community characterization and isolation of Hg-resistant plant growth-promoting bacteria

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