Validation and use of a qPCR protocol to quantify the spread of Ralstonia solanacearum in susceptible and resistant eucalypt plants

Bacterial wilt caused by Ralstonia solanacearum is a serious disease of eucalypt in humid and high temperature areas worldwide. Spreading of the bacterium in the field or to other nurseries occurs mainly by symptomless infected plant material. The use of pathogen‐free propagating material as well as...

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Published in:Plant pathology 2021-09, Vol.70 (7), p.1708-1718
Main Authors: Freitas, Rodrigo G., Hermenegildo, Pollyane S., Cascardo, Renan S., Guimarães, Lúcio M. S., Santos, Samuel A., Badel, Jorge L., Alfenas‐Zerbini, Poliane, Alfenas, Acelino C.
Format: Article
Language:English
Subjects:
Bacteria
bacterial wilt
biofilm
Biofilms
Colonization
Cuttings
Disease control
eucalypt
Eucalyptus
Genotypes
Heat resistance
High temperature
Humid areas
Phenotypes
Plant bacterial diseases
Plant tissues
Ralstonia solanacearum
Signs and symptoms
Wilt
Xylem
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Summary:Bacterial wilt caused by Ralstonia solanacearum is a serious disease of eucalypt in humid and high temperature areas worldwide. Spreading of the bacterium in the field or to other nurseries occurs mainly by symptomless infected plant material. The use of pathogen‐free propagating material as well as planting of resistant genotypes are currently the only strategies used for disease control. Therefore, a reliable and sensitive method for detection of low titres of R. solanacearum in infected plant tissue is essential for the success of management programmes. In this work, we adapted an efficient intercalating dye‐based real‐time PCR protocol to detect the bacterium in symptomless eucalypt plants as well as to investigate its movement in eucalypt clones CLR172 and CLR371, which exhibit resistant and susceptible phenotypes, respectively. We found that the bacterium translocates acropetally and basipetally in inoculated but symptomless cuttings of the resistant clone, as in cuttings of the susceptible clone displaying symptoms. Nevertheless, a smaller concentration of bacterial DNA was detected in tissues of the resistant clone. Mature biofilms occluding the xylem vessels were present in the susceptible clone whereas only single cells or small aggregates were observed in the resistant clone. This work contributes to improve our knowledge of the colonization process of R. solanacearum in eucalypt clones with different levels of susceptibility and to understand how the defence mechanisms against bacterial wilt in Eucalyptus work. Our findings could aid in the selection of the most resistant eucalypt clones to be used in wilt disease management programmes. This work shows that Ralstonia solanacearum moves into the xylem vessels of both resistant and susceptible Eucalyptus clones, but smaller concentration of the bacterial DNA and no biofilm was observed in the resistant clone.
ISSN:0032-0862
1365-3059
DOI:10.1111/ppa.13406