Exploring Genotype × Environment × Management synergies to manage fusarium head blight in wheat

Fusarium head blight (FHB) is a devastating disease of wheat because of direct detrimental effects on grain yield, quality, and marketability and production of mycotoxins (e.g. deoxynivalenol or DON). Conditions most favourable for the development of FHB are high humidity, frequent rainfall and rela...

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Published in	Canadian journal of plant pathology Vol. 40; no. 2; pp. 179 - 188
Main Authors	Beres, B. L., Brûlé-Babel, A. L., Ye, Z., Graf, R. J., Turkington, T. K., Harding, M. W., Kutcher, H. R., Hooker, D. C.
Format	Journal Article
Language	English
Published	Philadelphia Taylor & Francis 03.04.2018 Taylor & Francis Ltd
Subjects	Agricultural practices Agricultural production Agronomy Blight brûlure de l'épi causé par le fusarium Case studies Crop residues Crop yield Crops Cultivars Deoxynivalenol Environmental management Flowering fongicide fungicide Fungicides Fusarium Fusarium head blight Genetics Genotypes Grain Integrated pest management Marketability Mitigation mycotoxin mycotoxine Mycotoxins Pest control Prairies Rainfall Risk analysis Risk factors Risk management seed treatments Seeding Tactics traitement des semences Triticum Triticum aestivum Wheat
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Abstract	Fusarium head blight (FHB) is a devastating disease of wheat because of direct detrimental effects on grain yield, quality, and marketability and production of mycotoxins (e.g. deoxynivalenol or DON). Conditions most favourable for the development of FHB are high humidity, frequent rainfall and relatively warm night temperatures at heading, especially in regions where host crop residues are present. These risk factors have resulted in a significant westward expansion of FHB in the Canadian prairies, while favouring continued development in Ontario, Quebec and the Maritimes. Since cultivar selection is a key integrated pest management (IPM) strategy, a systems approach that couples genetic resistance with management tactics is required. Thus, successful FHB mitigation is an ideal case study in Genotype (G) × Environment (E) × Management (M) interactions where more resistant cultivars (G) are grown in at-risk regions (E), and unique approaches to management (M) for sustainable wheat production are required. Since no cultivar is completely resistant to FHB, greater attention to management strategies is needed. The over-arching principle for FHB management is the manipulation of agronomic factors that facilitate completion of critical crop developmental phases, such as flowering, while doing so rapidly and uniformly, as a consequence of early sowing and increased seeding rates. These strategies and the adoption of practices involving proper fungicide selection, and optimal application timings and methods will lead to improved yield stability and quality in high-risk environments. This paper explores the potential synergies that exist for FHB mitigation when appropriate genetics are combined with an array of key agronomic strategies.
AbstractList	Fusarium head blight (FHB) is a devastating disease of wheat because of direct detrimental effects on grain yield, quality, and marketability and production of mycotoxins (e.g. deoxynivalenol or DON). Conditions most favourable for the development of FHB are high humidity, frequent rainfall and relatively warm night temperatures at heading, especially in regions where host crop residues are present. These risk factors have resulted in a significant westward expansion of FHB in the Canadian prairies, while favouring continued development in Ontario, Quebec and the Maritimes. Since cultivar selection is a key integrated pest management (IPM) strategy, a systems approach that couples genetic resistance with management tactics is required. Thus, successful FHB mitigation is an ideal case study in Genotype (G) × Environment (E) × Management (M) interactions where more resistant cultivars (G) are grown in at-risk regions (E), and unique approaches to management (M) for sustainable wheat production are required. Since no cultivar is completely resistant to FHB, greater attention to management strategies is needed. The over-arching principle for FHB management is the manipulation of agronomic factors that facilitate completion of critical crop developmental phases, such as flowering, while doing so rapidly and uniformly, as a consequence of early sowing and increased seeding rates. These strategies and the adoption of practices involving proper fungicide selection, and optimal application timings and methods will lead to improved yield stability and quality in high-risk environments. This paper explores the potential synergies that exist for FHB mitigation when appropriate genetics are combined with an array of key agronomic strategies.
Author	Beres, B. L. Ye, Z. Turkington, T. K. Kutcher, H. R. Graf, R. J. Harding, M. W. Brûlé-Babel, A. L. Hooker, D. C.
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SubjectTerms	Agricultural practices Agricultural production Agronomy Blight brûlure de l'épi causé par le fusarium Case studies Crop residues Crop yield Crops Cultivars Deoxynivalenol Environmental management Flowering fongicide fungicide Fungicides Fusarium Fusarium head blight Genetics Genotypes Grain Integrated pest management Marketability Mitigation mycotoxin mycotoxine Mycotoxins Pest control Prairies Rainfall Risk analysis Risk factors Risk management seed treatments Seeding Tactics traitement des semences Triticum Triticum aestivum Wheat
Title	Exploring Genotype × Environment × Management synergies to manage fusarium head blight in wheat
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