Commodity risk assessment of Cornus alba and Cornus sanguinea plants from the UK by EFSA Panel on Plant Health (PLH), Claude Bragard, Paula Baptista, Elisavet Chatzivassiliou, Francesco Di Serio, Paolo Gonthier, Josep Anton Jaques Miret, Annemarie Fejer Justesen, Alan MacLeod, Christer Sven Magnusson, Panagiotis Milonas, Juan A. Navas‐Cortes, Stephen Parnell, Philippe Lucien Reignault, Emilio Stefani, Hans‐Hermann Thulke, Wopke Van der Werf, Antonio Vicent Civera, Jonathan Yuen, Lucia Zappalà, Raghavendra Reddy Manda, Olaf Mosbach Schulz, Paraskevi Kariampa, Antigoni Akrivou, Spyridon Antonatos, Despoina Beris, Jane Debode, Christos Kritikos, Maria Kormpi, Charles Manceau, Dimitrios Papachristos, Chrysavgi Reppa, Ciro Gardi, Roel Potting

“…Four EU quarantine pests (Meloidogyne fallax, Phytophthora ramorum (non‐EU isolates), tobacco ringspot virus, and tomato ringspot virus) and one EU non‐regulated pest (Discula destructiva), were selected for further evaluation. …”
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WATER AVAILABILITY INFLUENCE ON YIELD AND WATER CONSUMPTION OF POTATO ON THE BLACK-EARTH SOILS OF VOLGOGRAD REGION by A. A. Novikov

“…It turned out to be lower than in the control, due to the higher percentage of tuber damage by phytophthora, although the difference in yield in 2016 and 2017 was within the least significant difference, and in 2015 was significant – more than the LSD. …”
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Genome sequence and annotation of Periconia digitata a hopeful biocontrol agent of phytopathogenic oomycetes by Elena Bovio, Corinne Rancurel, Aurélie Seassau, Marc Magliano, Marie Gislard, Anaïs Loisier, Claire Kuchly, Michel Ponchet, Etienne G. J. Danchin, Cyril Van Ghelder

“…Furthermore, P. digitata was shown to inhibit the plant pathogenic oomycete Phytophthora parasitica. Because P. digitata has great potential as a biocontrol agent and high quality genomic resources are still lacking in the Periconiaceae family, we generated long-read genomic data for P. digitata. …”
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<i>Vepris macrophylla</i> (Baker) I. Verd Essential Oil: An Antifungal Agent against Phytopathogenic Fungi by Laura Giamperi, Anahi Elena Ada Bucchini, Donata Ricci, Bruno Tirillini, Marcello Nicoletti, Rianasoambolanoro Rakotosaona, Filippo Maggi

“…In particular, VEO resulted to be fungicidal against <i>Phytophthora cryptogea</i> and <i>Fusarium avenaceum</i>. …”
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Identification of late blight resistance quantitative trait loci in Solanum pimpinellifolium accession PI 270441 by Matthew T. Sullenberger, Mengyuan Jia, Sihui Gao, Hamid Ashrafi, Majid R. Foolad

“…Abstract Late blight (LB), caused by the oomycete Phytophthora infestans, is one of the most destructive diseases of the cultivated tomato (Solanum lycopersicum L.) and potato (Solanum tuberosum L.) worldwide. …”
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A Novel Bio-Fertilizer Produced by Prickly Ash Seeds with Biochar Addition Induces Soil Suppressiveness against Black Shank Disease on Tobacco by Xifen Zhang, Yaochen Wang, Xiaobin Han, Jianyu Gou, Wei Li, Chengsheng Zhang

“…A novel bio-fertilizer, produced from prickly ash seeds (PAS), <i>Bacillus subtilis</i> and biochar, was evaluated for its disease-preventing potential on tobacco black shank caused by <i>Phytophthora nicotianae</i>. The results showed that biochar promoted the growth of Tpb55 in PAS and increased the pH of the organic fertilizer. …”
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The <i>sprT</i> Gene of <i>Bacillus velezensis</i> FZB42 Is Involved in Biofilm Formation and Bacilysin Production by Yihan Yang, Ruofu Chen, Mati Ur Rahman, Chunyue Wei, Ben Fan

“…In addition, the antagonistic experiments showed that, compared to the wild type, the Δ<i>sprT</i> strain exhibited significantly reduced inhibition against <i>Staphylococcus aureus</i> ATCC-9144 and <i>Phytophthora sojae</i>, indicating that the inactivation of <i>sprT</i> led to decreased production of the antibiotic bacilysin. …”
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Primjena solarizacije u suzbijanju štetnih organizama u tlu by Dinka Grubišić, Nina Misirača, Mirjana Brmež, Ivan Juran

“…Učinkovitost solarizacije dokazana je i u suzbijanju biljnih patogena kao što su Fusarium spp., Phytophthora spp., Pythium spp., Sclerotium spp., Verticillium spp., uzročnika bakterioza Agrobacterium spp., Clavibacter michiganensis i Erwinia amylovora, te jednogodišnjih korovnih vrsta, dok je učinkovitost u suzbijanju višegodišnjih vrsta nešto niža. …”
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Meteorological Conditions in a Temperate Climate for <i>Colletotrichum</i> <i>acutatum</i>, Strawberry Pathogen Distribution and Susceptibility of Different Cultivars to Anthracnos... by Armina Morkeliūnė, Neringa Rasiukevičiūtė, Alma Valiuškaitė

“…The most frequently isolated fungi from the leaves and stems were <i>Mycosphaerella</i> spp., <i>Alternaria</i> spp., <i>Fusarium</i> spp., <i>Colletotrichum</i> spp., <i>Phytophthora</i> spp., and <i>Botrytis</i> spp. Our study confirmed that the response of cultivar susceptibility to <i>C. acutatum</i> was unequal. …”
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Commodity risk assessment of Acer campestre plants from the UK by EFSA Panel on Plant Health (PLH), Claude Bragard, Paula Baptista, Elisavet Chatzivassiliou, Francesco Di Serio, Josep Anton Jaques Miret, Annemarie Fejer Justesen, Alan MacLeod, Christer Sven Magnusson, Panagiotis Milonas, Juan A Navas‐Cortes, Stephen Parnell, Roel Potting, Philippe Lucien Reignault, Emilio Stefani, Hans‐Hermann Thulke, Wopke Van der Werf, Antonio Vicent Civera, Jonathan Yuen, Lucia Zappalà, Andrea Battisti, Hugo Mas, Daniel Rigling, Massimo Faccoli, Ciro Gardi, Giovanni Iacopetti, Alžběta Mikulová, Olaf Mosbach‐Schulz, Fabio Stergulc, Franz Streissl, Paolo Gonthier

“…The degree of pest freedom varies among the pests evaluated, with Phytophthora ramorum being the pest most frequently expected on the imported plants. …”
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cDNA-AFLP Combined with Functional Analysis Reveals Novel Genes Involved in the Hypersensitive Response by Suzan H. E. J. Gabriëls, Frank L. W. Takken, Jack H. Vossen, Camiel F. de Jong, Qing Liu, Stefan C. H. J. Turk, Ludvik K. Wachowski, Jenny Peters, Hanneke M. A. Witsenboer, Pierre J. G. M. de Wit, Matthieu H. A. J. Joosten

“…Inoculated plants were analyzed for compromised HR by agroinfiltration of either the C. fulvum Avr4 gene or the Inf1 gene of Phytophthora infestans, which invokes a HR in wild-type N. benthamiana. …”
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Nitric oxide generated by Piriformospora indica-induced nitrate reductase promotes tobacco growth by regulating root architecture and ammonium and nitrate transporter gene expressi... by Han Li, Shenghua Fu, Jingwei Zhu, Weichang Gao, Lin Chen, Xiang Li, Shaoyu Zhang, Sha Zheng, Heng Zhang, Yanxia Liu

“…In addition, the NO signal induced by P. indica is significantly different from that induced by the pathogen Phytophthora nicotianae. Inoculation with P. indica did not produce H2O2 and maintained high expression of Phytoglobin 1 in roots, resulting in a significantly lower NO level than in the roots inoculated with P. nicotianae. …”
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Phenotype Prediction Using Regularized Regression on Genetic Data in the DREAM5 Systems Genetics B Challenge by Loh, Po-Ru, Tucker, George Jay, Berger, Bonnie

“…The DREAM5 Systems Genetics B Challenge solicited algorithms to predict soybean plant resistance to the pathogen Phytophthora sojae from training sets including phenotype, genotype, and gene expression data. …”
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Analysis of the extracellular battlefield of potato blight disease by Ossorio Carballo, L

“…In this thesis we investigated apoplastic hydrolytic activities during infection by the causal agent of potato blight disease: the oomycete Phytophthora infestans. In chapter 2, we monitored the impact of leaf detachment in infection assays in the model organism Nicotiana benthamiana. …”

Assessment of the spatial distribution and risk associated with fruit rot disease in Areca catechu L. by Balanagouda, Patil, Sridhara, Shankarappa, Shil, Sandip, Hegde, Vinayaka, Naik, Manjunatha K., Narayanaswamy, Hanumappa, Balasundram, Siva Kumar

“…Phytophthora meadii (McRae) is a hemibiotrophic oomycete fungus that infects tender nuts, growing buds, and crown regions, resulting in fruit, bud, and crown rot diseases in arecanut (Areca catechu L.), respectively. …”

Automated high-content image-based characterization of microorganism behavioral diversity and distribution by Carlotta Aurora Lupatelli, Agnes Attard, Marie-Line Kuhn, Celine Cohen, Philippe Thomen, Xavier Noblin, Eric Galiana

“…By coupling accessible microfluidic devices with automated image analysis approaches, we evaluated the behavioral response of three morphologically different telluric species (Phytophthora parasitica, Vorticella microstoma, Enterobacter aerogenes) to a potassium gradient driver. …”
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An Integrated Disease Management of Oil Palms Affected by Bud Rot Results in Shorter Recovery Times by Andrés Tupaz-Vera, Iván Mauricio Ayala-Diaz, Victor Rincon, Greicy Sarria, Hernán Mauricio Romero

“…Bud rot (BR) is caused by the oomycete <i>Phytophthora palmivora</i> (Butler). Integrated disease management (IDM) technology has been used to control the disease, which slows down the progress of the disease, allowing palm recovery. …”
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Biofumigation by Mustard Plants as an Application for Controlling Postharvest Gray Mold in Apple Fruits by Yuee Tian, Zitong Yang, Wen Song, Hanqing Zhao, Qin Ye, Heng Xu, Baishi Hu, Danyu Shen, Daolong Dou

“…In addition, fumigation using Dilong-1 showed a wide antifungal spectrum, including other fruit postharvest pathogens such as <i>Phytophthora litchii</i>. Furthermore, apple gray mold disease severity was significantly reduced by biofumigation using Dilong-1. …”
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Comparative Analysis of the Genetic Diversity of Chilean Cultivated Potato Based on a Molecular Study of Authentic Herbarium Specimens and Present-Day Gene Bank Accessions by Tatjana Gavrilenko, Irena Chukhina, Olga Antonova, Ekaterina Krylova, Liliya Shipilina, Natalia Oskina, Ludmila Kostina

“…In addition, we analyzed 46 living Chilean accessions from the VIR field potato gene bank that were collected after the appearance of <i>Phytophthora infestans</i> in Chile. These living accessions were differentiated into four chlorotypes. …”
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Analysis of strawberry genetic collection (Fragaria L.) for Rca2 and Rpfl genes with molecular markers by I. V. Luk’yanchuk, A. S. Lyzhin, I. I. Kozlova

“…Some of the common strawberry's diseases, causing significant damage to strawberry plantations, are anthracnose (Colletotrichum acutatum Simmonds) and red stele root rot (Phytophthora fragariae var. fragariae Hickman). Dominant Rca2 gene is involved in monogenic resistance to C. acutatum pathogenicity group 2. …”
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