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Canadian Journal of Plant Pathology Volume 25, 2003 - Issue 4
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GENETICS AND RESISTANCE

Multivariate analysis of apple cultivar susceptibility to Venturia inaequalis under greenhouse conditions

Megan Dewdney Department of Plant Science, McGill University, 21 111 Lakeshore Road, QC, H9X 3V9, Canada
,
Jollin Charest Department of Plant Science, McGill University, 21 111 Lakeshore Road, QC, H9X 3V9, Canada
,
Timothy Paulitz Department of Plant Science, McGill University, 21 111 Lakeshore Road, QC, H9X 3V9, Canada
&
Odile Carisse Agriculture and Agri-Food Canada, Horticultural Research Centre, 430 Gouin Blvd., Saint-Jean-sur-Richelieu, QC, J3B 3E6, Canada
Pages 387-400 | Accepted 23 Jul 2003, Published online: 01 Apr 2010

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Pervaiz A. Abbasi, Shawkat Ali, Gordon Braun, Eric Bevis & Sherry Fillmore. (2019) Reducing apple scab and frogeye or black rot infections with salicylic acid or its analogue on field-established apple trees. Canadian Journal of Plant Pathology 41:3, pages 345-354.
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Imre J. Holb. (2007) Classification of apple cultivar reactions to scab in integrated and organic production systems. Canadian Journal of Plant Pathology 29:3, pages 251-260.
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Articles from other publishers (17)

I. K. Abuley & J. G. Hansen. (2022) Characterization of the Level and Type of Resistance of Potato Varieties to Late Blight ( Phytophthora infestans ) . Phytopathology® 112:9, pages 1917-1927.
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Anze Svara, Łukasz Paweł Tarkowski, Henry Christopher Janse van Rensburg, Evelien Deleye, Jarl Vaerten, Nico De Storme, Wannes Keulemans & Wim Van den Ende. (2020) Sweet Immunity: The Effect of Exogenous Fructans on the Susceptibility of Apple (Malus × domestica Borkh.) to Venturia inaequalis. International Journal of Molecular Sciences 21:16, pages 5885.
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Sara Franco Ortega, Simona Prencipe, Maria Lodovica Gullino & Davide Spadaro. (2020) New Molecular Tool for a Quick and Easy Detection of Apple Scab in the Field. Agronomy 10:4, pages 581.
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Pierre-Antoine Précigout, David Claessen, David Makowski & Corinne Robert. (2020) Does the Latent Period of Leaf Fungal Pathogens Reflect Their Trophic Type? A Meta-Analysis of Biotrophs, Hemibiotrophs, and Necrotrophs. Phytopathology® 110:2, pages 345-361.
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P. Rebel, C. Poblete-Echeverría, J. G. van Zyl, J. P. B. Wessels, C. Coetzer & A. McLeod. (2020) Determining Mancozeb Deposition Benchmark Values on Apple Leaves for the Management of Venturia inaequalis . Plant Disease 104:1, pages 168-178.
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Deepa Teotia, Mariam Gaid, Shashank S. Saini, Aparna Verma, Ragothaman M. Yennamalli, Satyajeet P. Khare, Kiran Ambatipudi, Javid Iqbal Mir, Till Beuerle, Robert Hänsch, Partha Roy, Pawan Kumar Agrawal, Ludger Beerhues & Debabrata Sircar. (2019) Cinnamate‐CoA ligase is involved in biosynthesis of benzoate‐derived biphenyl phytoalexin in Malus  ×  domestica ‘Golden Delicious’ cell cultures . The Plant Journal 100:6, pages 1176-1192.
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Niek Hias, Anze Svara & Johan Wannes Keulemans. (2018) Effect of polyploidisation on the response of apple (Malus × domestica Borkh.) to Venturia inaequalis infection. European Journal of Plant Pathology 151:2, pages 515-526.
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Imre J. Holb. (2017) Categorization of apple cultivars based on seasonal powdery mildew disease progression in two disease management systems over 12 years. Trees 31:6, pages 1905-1917.
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Sylwester Masny. (2016) Occurrence of Venturia inaequalis races in Poland able to overcome specific apple scab resistance genes. European Journal of Plant Pathology 147:2, pages 313-323.
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Abraham Paz-Cuadra, Ludmila Elisa Guzmán-Pantoja, Ramón Álvar Martínez-Peniche, Kruskaia Karenia Caltzontzin-Fernández, Juan Ramiro Pacheco-Aguilar & Sofía María Arvizu-Medrano. (2014) Evaluation of the susceptibility of apple genotypes in Queretaro, Mexico to powdery mildew (Podosphaera leucotricha). Scientia Horticulturae 170, pages 53-60.
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Imre J. Holb, Péter Dremák, Klára Bitskey & István Gonda. (2012) Yield response, pest damage and fruit quality parameters of scab-resistant and scab-susceptible apple cultivars in integrated and organic production systems. Scientia Horticulturae 145, pages 109-117.
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Odile Carisse, Catherine Meloche & William W. Turechek. (2011) Spatial heterogeneity, incidence-incidence and incidence-lesion density relationship of apple scab (Venturia inaequalis) in managed orchards. European Journal of Plant Pathology 130:3, pages 349-365.
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Alan R. Biggs, George W. Sundin, David A. Rosenberger, Keith S. Yoder & Turner B. Sutton. (2010) Relative Susceptibility of Selected Apple Cultivars to Apple Scab Caused by Venturia inaequalis . Plant Health Progress 11:1.
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Imre J. Holb. 2009. Climate Change, Intercropping, Pest Control and Beneficial Microorganisms. Climate Change, Intercropping, Pest Control and Beneficial Microorganisms 219 292 .
L. Brun, F. Didelot & L. Parisi. (2008) Effects of apple cultivar susceptibility to Venturia inaequalis on scab epidemics in apple orchards. Crop Protection 27:6, pages 1009-1019.
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George Lazarovits, Jacquelyn Hill, Greg Patterson, Kenneth L. Conn & Nigel S. Crump. (2007) Edaphic Soil Levels of Mineral Nutrients, pH, Organic Matter, and Cationic Exchange Capacity in the Geocaulosphere Associated with Potato Common Scab. Phytopathology® 97:9, pages 1071-1082.
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X. M. Xu & J. Robinson. (2005) Modelling the effects of wetness duration and fruit maturity on infection of apple fruits of Cox's Orange Pippin and two clones of Gala by Venturia inaequalis. Plant Pathology 54:3, pages 347-356.
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