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These results suggested that two independent loci control ER against PVA in Barbara one confers ER to both PVA and PVY, and the other confers ER to PVA only. The deduced genotype of Barbara is RyryryryRararara.Brown rot is a common apple disease in Italy, caused by Monilinia fructicola, M. laxa and M. fructigena (Martini et al. 2013). In September 2020, in a 'Jeromine' apple orchard under integrated pest management located in Scarnafigi (44°39'N, 7°33'E, north-western of Italy), fruits (8.6%) showing brown to blackish firm lesions (6.0 to 8.0 cm diameter) were observed. In some fruits, rots were covered by yellowish stromata. Two isolates (MPI1; MPI2) were obtained from two symptomatic apples and cultured on potato dextrose agar (PDA) for 7 days at 25°C in 12-h light/12-h dark regime. A white-to-greyish mycelium with slightly undulate margins and irregular, black stromata developed on PDA after 12 days incubation. Conidia, observed in branched monilioid chains, (Suppl. Fig. 1) were one-celled, globose, limoniform, hyaline, 38 to 58 μm (mean 48) × 20 to 44 μm (mean 33). Based on morphology, the isolates were tentatively identified as Monilinia polystroma (G.C.M. Leeuwen) Kohn. A polymerase chain reaction with primerinoculated fruits developed typical brown rot symptoms 6 days after inoculation and yellowish stromata appeared on the surface; control fruit remained healthy (Suppl. Fig. 3). The virulence of both isolates was statistically similar (Suppl. Table 1). M. polystroma was reisolated from all inoculated fruits and confirmed by molecular methods. This is the first report of M. polystroma on apple in Italy. M. polystroma was previously reported on apple in Hungary (Petróczy et al. 2009), on apricot in Switzerland (Hilber-Bodmer et al. 2012), on peach and pear in Italy (Martini et al. 2014; 2015), on plum in China (Zhu et al. 2016), and on apple in Serbia (Vasić et al. 2018). The emergence of this pathogen for pome and stone fruit production in Europe stimulates to study its biology and epidemiology, and its fitness and management, as compared to the other endemic Monilinia species.Pomegranate crown rot caused by Coniellagranati is one of the most severe diseases of pomegranate. To date, no fungicides have been registered for controlling this disease in China. Pyraclostrobin, belonging to strobilurin fungicides, has a broad spectrum of activity against many phytopathogens. In this study, based on the mycelial growth and conidial germination inhibition methods, we investigated the biological activity of pyraclostrobin against C. granati at the presence of 50 μg/mL SHAM using 80 isolates collected from different orchards in China during 2012-2018. The EC50 (50% effective concentration) values ranged from 0.040-0.613 μg/mL for mycelial growth and 0.013-0.110 μg/mL for conidium germination, respectively. Treated with pyraclostrobin, the hyphae morphology changed and conidial production of C. granati decreased significantly. The result of transmission electron microscope showed that treatment of pyraclostrobin could make the cell wall thinner, and lead to ruptured cell membrane and formation of intracellular organelle autophagosomes. The pyraclostrobin showed good protective and curative activities against C. granati on detached pomegranate fruits. In field trials, pyraclostrobin showed excellent control efficacy against this disease in which the treatment of 25% pyraclostrobin EC 1000× provided 92.25% and 92.58% control efficacy in 2019 and 2020, respectively, significantly higher than that of other treatments. Therefore, pyraclostrobin could be a candidate fungicide for the control of pomegranate crown rot.Summer Cypress (Bassia scoparia) is a large annual herb belonging to the family Amaranthaceae native to Eurasia. It has been introduced in many other countries of the world. In Pakistan, summer cypress is also known as kochia and grown as an ornamental plant for its red fall foliage for landscapes. During October, 2017 a survey was conducted in Punjab Province, Pakistan, where 100 wilted plant samples were collected from 30 different plantations of Faisalabad district. Up to 50% loss of plantation was noted in all visited locations. Lower parts of the plants were affected first presenting with necrosis of leaf tips surrounded by a chlorotic zone (Fig. 1. A). Then necrosis of apical margins of the plant parts occurred, followed by stem discoloration and wilting of entire herbaceous branches, leading to the partial wilting of the plants. selleck inhibitor Ultimately, whole plant wilted and died, (Fig. 1. B) appearing as though they had been scorched. Diseased tissues from lower stem (crown portion) were sampled, surface sterilizplants that was identical in morphology to isolate EG30. No fungus resembling EG30 was isolated from the control plants. To the best of our knowledge, this is the first report of summer cypress wilt caused by Nigrospora oryzae (Berk. and Broome) Petch, a known pathogen of several important crops in China, Australia, India, Canada, and Pakistan (Sharma et al., 2013)."Chuanzao 2" is a walnut variety derived from the hybridization of Juglans regia L. and J. sigillata Dode distributed in southwest China, where it is an economically important tree species in rural regions (Xiao et al. 2012). In April 2020, the variety in a walnut garden showed symptoms of brown leaf spot in Beishan Town (107°21'43.93″E, 31°28'12.34″N), Dazhou City in Sichuan, China, with 5% to 10% of leaves per plant affected (5 plants). Symptomatic leaves showed brown to dark brown spots (2 to 5 mm) with a dark brown to black halo and grayish-tan center. The spots were subcircular to irregular in shape, and gradually expanded and formed necrotic spots. A single conidium isolation was performed (Senanayake et al. 2020) and transferred to Potato Dextrose Agar (PDA). Five isolates were obtained from five different infected leaves. Colonies of five isolates were subcircular, erose or dentate, flat or effuse, white initially, gradually becoming yellowish with white margins, developed and fluffy aerial mycelia, aaves and characterized morphologically. O. leptostyla is a global pathogen and has been reported to cause the leaf spot in many walnut trees, viz. J. ailantifolia, J. californica, J. cinerea, and J. major, etc. To our knowledge, this is the first report of O. leptostyla causing brown leaf spot on Juglans hybrid (J. regia × J. sigillata) in China. The increasing risk of this pathogen in the walnut-growing areas of Sichuan Province of China needs a further exploration and outreach effort to develop effective control measures. Chunlin Yang, Feng Liu, and Qian Zeng contributed equally to this paper.

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