Rhizosphere microbial communities associated to rose replant disease: links to plant growth and root metabolites

Research output: Contribution to journalJournal articleResearchpeer-review

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Rhizosphere microbial communities associated to rose replant disease : links to plant growth and root metabolites. / Yim, B.; Baumann, A.; Grunewaldt-Stöcker, G.; Liu, B.; Beerhues, L.; Zühlke, S.; Sapp, M.; Nesme, J.; Sørensen, S. J.; Smalla, K.; Winkelmann, T.

In: Horticulture Research, Vol. 7, 144, 2020.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Yim, B, Baumann, A, Grunewaldt-Stöcker, G, Liu, B, Beerhues, L, Zühlke, S, Sapp, M, Nesme, J, Sørensen, SJ, Smalla, K & Winkelmann, T 2020, 'Rhizosphere microbial communities associated to rose replant disease: links to plant growth and root metabolites', Horticulture Research, vol. 7, 144. https://doi.org/10.1038/s41438-020-00365-2

APA

Yim, B., Baumann, A., Grunewaldt-Stöcker, G., Liu, B., Beerhues, L., Zühlke, S., Sapp, M., Nesme, J., Sørensen, S. J., Smalla, K., & Winkelmann, T. (2020). Rhizosphere microbial communities associated to rose replant disease: links to plant growth and root metabolites. Horticulture Research, 7, [144]. https://doi.org/10.1038/s41438-020-00365-2

Vancouver

Yim B, Baumann A, Grunewaldt-Stöcker G, Liu B, Beerhues L, Zühlke S et al. Rhizosphere microbial communities associated to rose replant disease: links to plant growth and root metabolites. Horticulture Research. 2020;7. 144. https://doi.org/10.1038/s41438-020-00365-2

Author

Yim, B. ; Baumann, A. ; Grunewaldt-Stöcker, G. ; Liu, B. ; Beerhues, L. ; Zühlke, S. ; Sapp, M. ; Nesme, J. ; Sørensen, S. J. ; Smalla, K. ; Winkelmann, T. / Rhizosphere microbial communities associated to rose replant disease : links to plant growth and root metabolites. In: Horticulture Research. 2020 ; Vol. 7.

Bibtex

@article{9f3481a1d56e4cbe84e1b39cb9185417,
title = "Rhizosphere microbial communities associated to rose replant disease: links to plant growth and root metabolites",
abstract = "Growth depression of Rosa plants at sites previously used to cultivate the same or closely related species is a typical symptom of rose replant disease (RRD). Currently, limited information is available on the causes and the etiology of RRD compared to apple replant disease (ARD). Thus, this study aimed at analyzing growth characteristics, root morphology, and root metabolites, as well as microbial communities in the rhizosphere of the susceptible rootstock Rosacorymbifera 'Laxa' grown in RRD-affected soil from two sites (Heidgraben and Sangerhausen), either untreated or disinfected by gamma -irradiation. In a greenhouse bioassay, plants developed significantly more biomass in the gamma -irradiated than in the untreated soils of both sites. Several plant metabolites detected in R. corymbifera 'Laxa' roots were site- and treatment-dependent. Although aloesin was recorded in significantly higher concentrations in untreated than in gamma -irradiated soils from Heidgraben, the concentrations of phenylalanine were significantly lower in roots from untreated soil of both sites. Rhizosphere microbial communities of 8-week-old plants were studied by sequencing of 16S rRNA, ITS, and cox gene fragments amplified from total community DNA. Supported by microscopic observations, sequences affiliated to the bacterial genus Streptomyces and the fungal genus Nectria were identified as potential causal agents of RRD in the soils investigated. The relative abundance of oomycetes belonging to the genus Pythiogeton showed a negative correlation to the growth of the plants. Overall, the RRD symptoms, the effects of soil treatments on the composition of the rhizosphere microbial community revealed striking similarities to findings related to ARD.",
keywords = "APPLE SEEDLINGS, BRASSICA-JUNCEA, SOIL, ROSACEAE, SPECIFICITY, INDUCTION, SEQUENCES, RESPONSES, BACTERIAL, AGENTS",
author = "B. Yim and A. Baumann and G. Grunewaldt-St{\"o}cker and B. Liu and L. Beerhues and S. Z{\"u}hlke and M. Sapp and J. Nesme and S{\o}rensen, {S. J.} and K. Smalla and T. Winkelmann",
year = "2020",
doi = "10.1038/s41438-020-00365-2",
language = "English",
volume = "7",
journal = "Horticulture Research",
issn = "2662-6810",
publisher = "Nature Publishing Group",

}

RIS

TY - JOUR

T1 - Rhizosphere microbial communities associated to rose replant disease

T2 - links to plant growth and root metabolites

AU - Yim, B.

AU - Baumann, A.

AU - Grunewaldt-Stöcker, G.

AU - Liu, B.

AU - Beerhues, L.

AU - Zühlke, S.

AU - Sapp, M.

AU - Nesme, J.

AU - Sørensen, S. J.

AU - Smalla, K.

AU - Winkelmann, T.

PY - 2020

Y1 - 2020

N2 - Growth depression of Rosa plants at sites previously used to cultivate the same or closely related species is a typical symptom of rose replant disease (RRD). Currently, limited information is available on the causes and the etiology of RRD compared to apple replant disease (ARD). Thus, this study aimed at analyzing growth characteristics, root morphology, and root metabolites, as well as microbial communities in the rhizosphere of the susceptible rootstock Rosacorymbifera 'Laxa' grown in RRD-affected soil from two sites (Heidgraben and Sangerhausen), either untreated or disinfected by gamma -irradiation. In a greenhouse bioassay, plants developed significantly more biomass in the gamma -irradiated than in the untreated soils of both sites. Several plant metabolites detected in R. corymbifera 'Laxa' roots were site- and treatment-dependent. Although aloesin was recorded in significantly higher concentrations in untreated than in gamma -irradiated soils from Heidgraben, the concentrations of phenylalanine were significantly lower in roots from untreated soil of both sites. Rhizosphere microbial communities of 8-week-old plants were studied by sequencing of 16S rRNA, ITS, and cox gene fragments amplified from total community DNA. Supported by microscopic observations, sequences affiliated to the bacterial genus Streptomyces and the fungal genus Nectria were identified as potential causal agents of RRD in the soils investigated. The relative abundance of oomycetes belonging to the genus Pythiogeton showed a negative correlation to the growth of the plants. Overall, the RRD symptoms, the effects of soil treatments on the composition of the rhizosphere microbial community revealed striking similarities to findings related to ARD.

AB - Growth depression of Rosa plants at sites previously used to cultivate the same or closely related species is a typical symptom of rose replant disease (RRD). Currently, limited information is available on the causes and the etiology of RRD compared to apple replant disease (ARD). Thus, this study aimed at analyzing growth characteristics, root morphology, and root metabolites, as well as microbial communities in the rhizosphere of the susceptible rootstock Rosacorymbifera 'Laxa' grown in RRD-affected soil from two sites (Heidgraben and Sangerhausen), either untreated or disinfected by gamma -irradiation. In a greenhouse bioassay, plants developed significantly more biomass in the gamma -irradiated than in the untreated soils of both sites. Several plant metabolites detected in R. corymbifera 'Laxa' roots were site- and treatment-dependent. Although aloesin was recorded in significantly higher concentrations in untreated than in gamma -irradiated soils from Heidgraben, the concentrations of phenylalanine were significantly lower in roots from untreated soil of both sites. Rhizosphere microbial communities of 8-week-old plants were studied by sequencing of 16S rRNA, ITS, and cox gene fragments amplified from total community DNA. Supported by microscopic observations, sequences affiliated to the bacterial genus Streptomyces and the fungal genus Nectria were identified as potential causal agents of RRD in the soils investigated. The relative abundance of oomycetes belonging to the genus Pythiogeton showed a negative correlation to the growth of the plants. Overall, the RRD symptoms, the effects of soil treatments on the composition of the rhizosphere microbial community revealed striking similarities to findings related to ARD.

KW - APPLE SEEDLINGS

KW - BRASSICA-JUNCEA

KW - SOIL

KW - ROSACEAE

KW - SPECIFICITY

KW - INDUCTION

KW - SEQUENCES

KW - RESPONSES

KW - BACTERIAL

KW - AGENTS

U2 - 10.1038/s41438-020-00365-2

DO - 10.1038/s41438-020-00365-2

M3 - Journal article

C2 - 32922816

VL - 7

JO - Horticulture Research

JF - Horticulture Research

SN - 2662-6810

M1 - 144

ER -

ID: 249249257