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First report of powdery mildew of blackberry caused by Podosphaera aphanis in Serbia.

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Blackberries (Rubus L. subgenus Rubus Watson) are popular, wild fruits with high content of antioxidants and thus with beneficial effect on the human health (Reyes-Carmona et al. 2005). In July… Click to show full abstract

Blackberries (Rubus L. subgenus Rubus Watson) are popular, wild fruits with high content of antioxidants and thus with beneficial effect on the human health (Reyes-Carmona et al. 2005). In July 2019 and May 2020, plants with typical powdery mildew symptoms were collected in the blackberry cv. 'Triple crown' orchard (of 2 ha in size) in the vicinity of Pakovraće (Moravica District, Serbia). The symptoms observed in 2019 included mild chlorotic spots on both old and young leaves accompanied by the white powdery mildew colonies on the surface of the leaves, visible on both primorcanes and floricanes. In 2020, even more intensive symptoms occurred on fruit bearing shoots which were covered with dense white fungal growth. Heavily infected leaves turned necrotic along the edges, followed by defoliation. Disease incidence was calculated by randomly counting and rating 100 plants in four replications and estimated to be over 90% while disease severity was estimated to be over 40%. Morphological characteristics were assessed using bright-field and phase-contrast microscopy (Jankovics et al. 2011) and revealed the presence of unbranched, erect conidiophores (N=50, 75 to 200 μm) with cylindrical foot-cell and up to five short cells. Conidia were unicellular, hyaline and ellipsoid-barrel-shaped (N=50, 22.5 to 35.5 × 12.5 to 15 μm) containing fibrosin bodies (in 3% KOH). All observed characteristics resembled to Podosphaera spp. (Braun and Takamatsu 2000). The presence of chasmothecia was not recorded. Further molecular identification was conducted using internal transcribed spacer (ITS) sequence analysis of two isolates, 420G-19 and 30G-20, sampled in 2019 and 2020, respectively. Total DNA was extracted directly from epiphytic mycelium on the leaves using DNeasy Plant Mini Kit (Qiagen, Hilden, Germany) following the manufacturer's instructions. PCR amplification and sequencing were performed with primers ITS1F and ITS4 (Takamatsu et al. 2010). The nucleotide sequence of the representative isolates 420G-19 (530 bp) and 30G-20 (530 bp) (Accession No. MN914995 and MT514661) shared 100% identity, while both shared 99.49 to 99.81% nt identity with 32 Podosphaera aphanis strawberry and raspberry isolates in the GenBank (the highest 99.81% with GU942455, Harvey and Xu 2010), confirming that powdery mildew of blackberry in Serbia is caused by P. aphanis. In order to fulfill Koch's postulates, 10 rooted, healthy blackberry plants cv. 'Triple crown' were dusted with conidia of isolate 30G-20 and incubated at 23°C under the high relative humidity in the glasshouse. Healthy blackberry plants incubated in the same conditions, served as negative control. The minute white fungal colonies sharing the same microscopic features with the original isolate were visible 7-8 days post inoculation on all inoculated plants. No fungal growth was observed in the negative control. Serbia is the fourth largest blackberry producer in the world (Strik et al. 2007) and the occurrence of P. aphanis causing powdery mildew as a new pathogen is of utmost importance. P. aphanis is described as strawberry and raspberry powdery mildew pathogen with a population expressing substantial genetic diversity (Harvey and Xu 2010). The molecular data on blackberry originating isolates of P. aphanis are missing. Our study showed that P. aphanis could be destructive for blackberry in Serbia, thus representing a threat for the production of this valuable crop.

Keywords: podosphaera; aphanis; blackberry; powdery mildew

Journal Title: Plant disease
Year Published: 2020

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