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Canadian Journal of Plant Pathology Volume 26, 2004 - Issue 4
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EPIDEMIOLOGY

Spore deposition of the ear rot pathogen, Gibberella zeae, inside corn canopies

David G. Schmale III Department of Plant Pathology, Cornell University, Ithaca, NY, 14853, USA
&
Gary C. Bergstrom Department of Plant Pathology, Cornell University, Ithaca, NY, 14853, USA
Pages 591-595 | Accepted 27 Jun 2004, Published online: 01 Apr 2010

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David G. Schmale$suffix/text()$suffix/text(), Gary C. Bergstrom & Elson J. Shields. (2006) Night-time spore deposition of the fusarium head blight pathogen, Gibberella zeae, in rotational wheat fields. Canadian Journal of Plant Pathology 28:1, pages 100-108.
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David G. Schmale$suffix/text()$suffix/text(), Quinn A. Arntsen & Gary C. Bergstrom. (2005) The forcible discharge distance of ascospores of Gibberella zeae. Canadian Journal of Plant Pathology 27:3, pages 376-382.
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David G. Schmale$suffix/text()$suffix/text(), Gary C. Bergstrom & Denis A. Shah. (2005) Spatial patterns of viable spore deposition of the corn ear rot pathogen, Gibberella zeae, in first-year corn fields. Canadian Journal of Plant Pathology 27:2, pages 225-233.
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Articles from other publishers (22)

Kenia C. Sánchez Espinosa, Lilivet Díaz Vázquez, María Fernández-González, Michel Almaguer & Fco. Javier Rodríguez-Rajo. (2023) Aeromycological studies in the crops of the main cereals: A systematic review. Journal of Agriculture and Food Research 14, pages 100732.
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Jonathan Reich, Wen Chen, Devon Radford, Kelly Turkington, Dmytro Yevtushenko, Richard Hamelin & Syama Chatterton. (2023) Combining Air Sampling and DNA Metabarcoding to Monitor Plant Pathogens. PhytoFrontiers™.
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Salika Ramazan, Ifra Nazir, Waseem Yousuf & Riffat John. (2022) Environmental stress tolerance in maize (. Functional Plant Biology 50:2, pages 85-96.
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Felipe Dalla Lana, Laurence V. Madden & Pierce A. Paul. (2021) Logistic Models Derived via LASSO Methods for Quantifying the Risk of Natural Contamination of Maize Grain with Deoxynivalenol. Phytopathology® 111:12, pages 2250-2267.
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Zahra Iqbal, Mohammed Shariq Iqbal, Abeer Hashem, Elsayed Fathi Abd_Allah & Mohammad Israil Ansari. (2021) Plant Defense Responses to Biotic Stress and Its Interplay With Fluctuating Dark/Light Conditions. Frontiers in Plant Science 12.
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F. Dalla Lana, P. A. Paul, R. Minyo, P. Thomison & L. V. Madden. (2020) Stability of Hybrid Maize Reaction to Gibberella Ear Rot and Deoxynivalenol Contamination of Grain. Phytopathology® 110:12, pages 1908-1922.
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Deanna L. Funnell-HarrisErin D. ScullyScott E. SattlerRoy C. French(retired)(retired), Patrick M. O’NeillJeffrey F. Pedersen(retired)(retired). (2017) Differences in Fusarium Species in brown midrib Sorghum and in Air Populations in Production Fields . Phytopathology® 107:11, pages 1353-1363.
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Ray F. David, Amir E. BozorgMagham, David G. SchmaleIIIIII, Shane D. Ross & Linsey C. Marr. (2015) Identification of meteorological predictors of Fusarium graminearum ascospore release using correlation and causality analyses. European Journal of Plant Pathology 145:2, pages 483-492.
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David G. SchmaleIIIIIIShane D. Ross. (2015) Highways in the Sky: Scales of Atmospheric Transport of Plant Pathogens. Annual Review of Phytopathology 53:1, pages 591-611.
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Melissa D. Keller, Gary C. Bergstrom & Elson J. Shields. (2013) The aerobiology of Fusarium graminearum. Aerobiologia 30:2, pages 123-136.
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Aaron J. PrussinIIII, Qing Li, Rimy Malla, Shane D. Ross & David G. SchmaleIIIIII. (2014) Monitoring the Long-Distance Transport of Fusarium graminearum from Field-Scale Sources of Inoculum . Plant Disease 98:4, pages 504-511.
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Aaron J. PrussinIIII, Nicole A. Szanyi, Patricia I. Welling, Shane D. Ross & David G. SchmaleIIIIII. (2014) Estimating the Production and Release of Ascospores from a Field-Scale Source of Fusarium graminearum Inoculum . Plant Disease 98:4, pages 497-503.
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Melissa D. Keller & Elson J. Shields. (2013) Aerobiological sampling efficiency of media-containing Petri plates for use in lower atmosphere spore collection. Aerobiologia 30:1, pages 103-109.
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P. Tallapragada, S. D. Ross & D. G. SchmaleIIIIII. (2011) Lagrangian coherent structures are associated with fluctuations in airborne microbial populations. Chaos: An Interdisciplinary Journal of Nonlinear Science 21:3.
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P. A. Paul, P. E. Lipps, E. De Wolf, G. Shaner, G. Buechley, T. Adhikari, S. Ali, J. Stein, L. Osborne & L. V. Madden. (2007) A Distributed Lag Analysis of the Relationship Between Gibberella zeae Inoculum Density on Wheat Spikes and Weather Variables . Phytopathology® 97:12, pages 1608-1624.
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David G. SchmaleGary C. Bergstrom. (2007) The Aerobiology and Population Genetic Structure of Gibberella zeae . Plant Health Progress 8:1.
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David G. Schmale III, John F. Leslie, Kurt A. Zeller, Amgad A. Saleh, Elson J. Shields & Gary C. Bergstrom. (2006) Genetic Structure of Atmospheric Populations of Gibberella zeae . Phytopathology® 96:9, pages 1021-1026.
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Michael R. Roberts & Nigel D. Paul. (2006) Seduced by the dark side: integrating molecular and ecological perspectives on the influence of light on plant defence against pests and pathogens. New Phytologist 170:4, pages 677-699.
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. 2006. The Fusarium Laboratory Manual. The Fusarium Laboratory Manual 280 368 .
M. A. Mansfield, E. D. De Wolf & G. A. Kuldau. (2005) Relationships Between Weather Conditions, Agronomic Practices, and Fermentation Characteristics with Deoxynivalenol Content in Fresh and Ensiled Maize. Plant Disease 89:11, pages 1151-1157.
Crossref
Sandra Lee Maldonado-Ramirez, David G. SchmaleIIIIII, Elson J. Shields & Gary C. Bergstrom. (2005) The relative abundance of viable spores of Gibberella zeae in the planetary boundary layer suggests the role of long-distance transport in regional epidemics of Fusarium head blight. Agricultural and Forest Meteorology 132:1-2, pages 20-27.
Crossref
David G. SchmaleIIIIII, Denis A. Shah & Gary C. Bergstrom. (2005) Spatial Patterns of Viable Spore Deposition of Gibberella zeae in Wheat Fields . Phytopathology® 95:5, pages 472-479.
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