First record of the fungus Blumeriella kerriae in the UK
Figure 1: Typical leaf spots and stem lesions on the host plant Kerria japonica caused by Blumeriella kerriae.
Upon microscopic examination it was determined that the symptoms were caused by the fungus Blumeriella kerriae (Stewart, 1917). Blumeriella kerriae is widespread on K. japonica in America causing twig and leaf blight, but has not previously been recorded on any host plant in the UK. Acervuli were scattered across each spot/lesion. Conidia were filiform, curved, hyaline, 45-94 x 1.4-5.6 µm (mean 69 x 3.5 µm) (n = 60) (Fig. 3). Observations differed to Stewart's original description which described 1-septate conidia; observed conidia were mainly 2-3 septate, with occasional 1-septate conidia.
Figure 2: Distribution map of Blumeriella kerriae samples received by RHS Gardening Advice during the period September 2014 - April 2017.
A single spore isolate on potato dextrose agar was obtained and deposited in the RHS Wisley culture collection (JS20160615). The internal transcribed spacer (ITS) region of rDNA was amplified (White et al., 1990) and sequenced (GenBank Accession No. KY929501). There were no previous DNA sequences for B. kerriae available in GenBank. Fungal ITS sequences for species within the family Dermateaceae, including Blumeriella jappii (Pederson et al., 2010), were obtained to place KY929501 within a phylogenetic tree. Sequences were aligned with the MUSCLE v3.8.31 algorithm (Edgar, 2004). The beginning and end of the alignment, where base callings were ambiguous, were excluded from the analysis. Phylogenetic trees were constructed through Bayesian inference analysis performed in MrBayes v3.2.6 (Ronquist et al., 2012) with the GTR + I + G model identified by MrModeltest v2.3 (Nylander, 2004). The analyses were run for 1,000,000 generations, sampling every 1000 generations. Trees from the first 25% of the sampled generations were discarded. Phylogenetic analysis placed B. kerriae (KY929501) in a cluster with the closely related cherry leaf pathogen B. jappii (Fig. 4).
Figure 3: Conidia of Blumeriella kerriae stained with methyl blue. Bar = 20 µm.
To confirm pathogenicity, a conidial suspension (∼105 conidia/ml, sterile distilled water, 0.2% Tween-20) was prepared by harvesting fresh conidia from stem lesions. All observed spores were consistent with B. kerriae. The spore suspension was sprayed onto newly emerged leaves of K. japonica plants. Inoculated plants were held in a humidity chamber for 48 h and thereafter placed in a glasshouse. After 13 days, typical leaf spot symptoms developed on the leaves of inoculated plants. Blumeriella kerria conidia were produced from acervuli in the leaf spots, fulfilling Koch's postulates. A control plant treated with sterilised water and Tween-20 remained symptomless.
Figure 4: Bayesian inference tree for fungal ITS sequences showing the placement of KY929501 within the family Dermataceae. Posterior probabilities are shown at nodes, scale bar shows the number of substitutions per site.
Kerria japonica is a valuable garden and hedging plant with high tolerance for poor environmental conditions. Until now it has had no serious pest or disease problems in the UK. The spread of Blumeriella kerriae in the UK will change how K. japonica is used in UK horticulture and may result in gradual loss of the plant from retail.
Source: New Disease Reports