New Disease Reports (2015) 32, 11. [http://dx.doi.org/10.5197/j.2044-0588.2015.032.011]
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First report of Rhizoctonia solani AG2-1 on Matthiola incana in the United Kingdom

H. Lekuona Gómez, E. Somoza Valdeolmillos, K. Perkins, D. Henderson, A.V. Barnes and J.W. Woodhall*

*james.woodhall@fera.co.uk

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Received: 03 Jul 2015; Published: 27 Sep 2015

Keywords: Brassicaceae, DNA barcoding

Rhizoctonia solani is a species complex consisting of 13 different anastomosis groups (AGs) and numerous subgroups. Each AG or subgroup is usually associated with a particular host. In 2014, stock plants (Matthiola incana, Brassicaceae) displaying lesions on the stem were received by the Fera Plant Clinic for diagnosis. To determine the causal agent, plants were washed and symptom-bearing stems were excised and placed on potato dextrose agar (PDA) containing penicillin and streptomycin. Plates were incubated for three days until fungal colonies were visible. Colonies morphologically resembling R. solani were consistently present and a pure culture was obtained by transferring hyphal tips onto fresh PDA. DNA was extracted from a seven-day-old culture of the isolate as described previously (Woodhall et al., 2013). The rDNA ITS region was sequenced as described in Woodhall et al. (2007) and the resulting sequence (GenBank Accession No. KT345948) was 100% identical to other AG2-1 sequences present on GenBank (KF870926, AB547384). 

Pathogenicity of the isolate was confirmed by inoculating 28-day-old M. incanca and M. incana 'Cinderella series' seedlings (12 each) grown in compost (John Innes No. 3) each with a 5 mm fully colonised PDA plug of the isolate placed at approximately 30 mm depth in the soil. Twelve plants of both varieties were inoculated with sterile PDA plugs for controls. Plants were placed in a controlled environment room at 18°C, 18h/6h light/dark and watered as required. After 28 days, plants were removed from the soil and assessed for the presence of lesions. Each plant was indexed for disease as follows: 0-healthy; 1-lesions smaller than 5mm; 2-lesion greater than 5 mm; 3-girdling from multiple large legions coalescing; or 4-complete plant death. No symptoms were observed on the non-inoculated plants of either Matthiola variety (Table 1). Stem lesions typically longer than 5-mm in length were observed on almost all inoculated plants (Figs. 1, 2). On average, stem disease severity was greater in the 'Cinderella series' but not significantly (p >0.05). No symptoms were present on the roots. 

From six inoculated plants of each variety, re-isolation of R. solani was attempted onto tap water agar plus penicillin and streptomycin. Rhizoctonia solani was recovered from all isolations and the resulting cultures all tested positive with an AG2-1 specific real-time PCR assay (Budge et al., 2009a), thereby confirming Koch’s postulates. No Rhizoctoinia colonies were recovered from attempted isolations taken from 20 stem pieces of the control material. Rhizoctonia solani has been reported in Matthiola previously (Benson & Cartwright, 1996) but there is no knowledge of which AG is the causal agent. Here, we report AG2-1 as the causal agent in the UK and demonstrate that it can be an important plant pathogen within the Brassicaceae. Rhizoctonia solani AG2-1 has been reported previously in various Brassica crops in the UK (Budge et al., 2009b) and potatoes (Woodhall et al., 2007) and is frequently detected in UK field soils (Woodhall et al., 2013). The Brassicaceae includes many crop species and therefore careful consideration needs to be given to the presence of AG2-1 in soil prior to planting susceptible plants in this family.

Figure1+
Figure 1: Plants of Matthiola incana ‘Cinderella series’ either healthy (top row) or inoculated with Rhizoctonia solani AG2-1 (bottom row).
Figure 1: Plants of Matthiola incana ‘Cinderella series’ either healthy (top row) or inoculated with Rhizoctonia solani AG2-1 (bottom row).
Figure2+
Figure 2: Close-up of Matthiola incana ‘Cinderella series’ plant inoculated with Rhizoctonia solani AG2-1 showing typical stem lesion symptom.
Figure 2: Close-up of Matthiola incana ‘Cinderella series’ plant inoculated with Rhizoctonia solani AG2-1 showing typical stem lesion symptom.
Figure3+

Acknowledgements

H. Lekuona Gómez received funding from the Department of Innovation and Technology of the Basque Country. The EU Leonardo da Vinci programme supported E. Somoza Valdeolmillos.


References

  1. Benson MD, Cartwright DK, 1996. Ornamental Diseases incited by Rhizoctonia spp. In: Sneh B, Jabaji-Hare S, Neate SM, Dijst G, eds. Rhizoctonia species: Taxonomy, molecular biology, ecology, pathology and disease control. Dordrecht, Netherlands: Springer Science and Business Media, 303-314.
  2. Budge GE, Shaw MW, Colyer A, Pietravalle S, Boonham N, 2009a. Molecular tools to investigate Rhizoctonia solani distribution in soil. Plant Pathology 58, 1071-1080. [http://dx.doi.org/10.1111/j.1365-3059.2009.02139.x]
  3. Budge GE, Shaw MW, Lambourne C, Jennings P, Clayburn R, Boonham N, McPherson M, 2009b. Characterization and origin of infection of Rhizoctonia solani associated with Brassica oleracea crops in the UK. Plant Pathology 58, 1059-1070. [http://dx.doi.org/10.1111/j.1365-3059.2009.02138.x]
  4. Woodhall JW, Lees AK, Edwards SG, Jenkinson P, 2007. Characterisation of Rhizoctonia solani from potato in Great Britain. Plant Pathology 56, 286-295. [http://dx.doi.org/10.1111/j.1365-3059.2006.01545.x]
  5. Woodhall JW, Adams IP, Peters JC, Harper G, Boonham N, 2013. A new quantitative real-time PCR assay for Rhizoctonia solani AG3-PT and the detection of AGs of Rhizoctonia solani associated with potato in soil and tuber samples in Great Britain. European Journal of Plant Pathology 136, 273-280. [http://dx.doi.org/10.1007/s10658-012-0161-8]

To cite this report: Lekuona Gómez H, Somoza Valdeolmillos E, Perkins K, Henderson D, Barnes AV, Woodhall JW, 2015. First report of Rhizoctonia solani AG2-1 on Matthiola incana in the United Kingdom. New Disease Reports 32, 11. [http://dx.doi.org/10.5197/j.2044-0588.2015.032.011]

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