First Report of Neopestalotiopsis Disease in Ohio caused by an emerging and novel species of Neopestalotiopsis on Strawberry.

Abstract

In October 2021, strawberry (Fragaria x ananassa) plants (cv. Ruby June) that had dark brown lesions with a diffuse black halo and light brown center and / or dark brown V-shaped necrotic areas often starting from the edge of the leaves were observed in a commercial planting in Washington County. The grower reported 50% incidence in the field when the sample was first submitted and two weeks later reported 80% incidence. The morphology of conidia present on symptomatic leaf tissue was consistent with species of Neopestalotiopsis (Maharachchikumbura et al. 2014). The conidia were ellipsoid to fusiform, five-celled, with three light brown colored median cells and one hyaline apical and basal cell. The apical cells had two to four flexuous appendages and the basal cell had one non-flexuous appendage. Average (N=30) conidia length, not including the appendages, and width was 24.1 ± 2.7 and 6.5 ± 1.4 µm respectively. Two isolates (MLI267-21 and MLI268-21) were purified on potato dextrose agar, producing a dense white mycelial mat with undulate margins. The underside color of the mycelial mat was pinkish-orange. Conidiomata formed randomly in the colonies and extruded black gelatinous spores. To confirm the identity of these isolates the genome of MLI267-21 was sequenced using the NextSeq 2000 Illumina platform and Nextera DNA CD indexes (OSU Applied Microbiology Service Laboratory, Columbus, OH). Partial internal transcribed spacer (ITS) region, β-tubulin (TUB), and translation elongation factor 1-alpha (TEF-1α) gene sequences (Accession numbers: OM649904, OM649905, and OM649906 respectively) were extracted from the MLI267-21 genome, concatenated, and aligned to published reference sequences. These same genes were amplified and sequenced from MLI268-21. Maximum likelihood phylogenetic analysis performed in IQ-TREE (Minh et al. 2020, Kalyaanamoorthy et al. 2017, Chernomor et al. 2016) with the aligned sequences revealed the clustering of MLI267-21 and MLI268-21 with seven other Neopestalotiopsis isolates, from strawberry (17-43L; Baggio et al. 2021) and pomegranate (GEV3426 to GEV3431; Xavier et al. 2021) leaves in Florida, which form a unique and emerging species group. The ITS, TUB, and TEF-1α sequences from both Ohio isolates were 100% similar to the same sequences from 17-43L and GEV3426 - GEV3431. Pathogenicity tests were performed using MLI267-21 by spray inoculating (~104 spore/ml) four-week-old 'Cabrillo' strawberry plants (n=4) and placing three drops (10µl each) of spore suspension (~104 spore/ml) on the calix area of detached fruit (n=4). Non-inoculated plants and fruit (n= 4 each) served as negative controls. The plants were covered with transparent plastic bags and maintained at 25 °C for 72 hours before the bags were removed (Baggio et al. 2021). Five days post-inoculation, dark brown circular spots on the leaves and petioles were observed on all four inoculated plants and acervuli were observed within the necrotic spots after an additional 72 hours in a moist chamber. Fruits were incubated in a moist chamber at 25 °C and after 72 hours orange-brown lesions formed on the fruit. After five days, fruit were mushy and covered with white mycelia, acervuli, and conidiomata. Neopestalotiopsis disease has been reported on strawberry in Florida (Baggio et al. 2021) and in several South American (Obregon et al. 2018, Hidrobo et al. 2021) and European (Chamorro et al. 2016, Gilardi et al. 2019) countries. The disease can cause rapid plant death when conditions are warm and wet. Research to investigate host susceptibility and to identify effective chemical and biological control has been initiated in Ohio to establish preventative management programs for commercial field operations.