Integration of disease tolerance and fungicide application for management of tar spot on hybrid corn in North Central United States

IF 1.7 Q2 PLANT SCIENCES

Plant Health Progress Pub Date : 2023-05-10 DOI:10.1094/php-10-22-0103-rs

T. J. Ross, M. Chilvers, A. Byrne, Damon L. Smith, B. Mueller, S. Shim, D. Telenko

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Abstract

Tar spot, caused by Phyllachora maydis, is the most significant disease of corn in the north central United States. Elucidating an integrated management approach to protect grain yield is a high priority. The integration of tillage, hybrid, and fungicide application on tar spot severity, canopy greenness, and grain yield was assessed in Indiana in 2019, 2020, and 2021. A split-plot arrangement of two tillage treatments as main plots with factorial arrangement of subplots with three hybrids (tar spot susceptible and two partially resistant) and fungicide application (propiconazole +benzovindiflupyr +azoxystrobin) were evaluated. Further, a multistate study comparing two hybrids (susceptible and partially resistant) and fungicide application (propiconazole +benzovindiflupyr +azoxystrobin) was conducted in Indiana, Michigan, and Wisconsin in 2020. This research demonstrates that partially resistant hybrids with a sAUDPC of 2.5 and 3.0 had significantly less tar spot than a susceptible hybrid with a sAUDPC of 10.1 and increased canopy greenness rating of 48.1 and 51.5% which were significantly higher than the susceptible hybrid at 13.0% at maturity. Tar spot severity was further reduced and canopy greenness increased with a fungicide application in the susceptible hybrid. These results suggest that partial resistance alone may be used to manage tar spot. Yields did not differ significantly across hybrids with or without a fungicide application. However, a general trend of preserved yield potential was observed in the treatments with fungicide, indicating that knowledge of genetics and yield potential will be necessary to achieve the most benefit from partially resistant hybrids and judicious fungicide applications.

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美国中北部杂交玉米焦油斑病防治中抗病性与杀菌剂应用的结合

由Phyllachora maydis引起的焦油斑病是美国中北部最严重的玉米病害。阐明综合管理方法以保护粮食产量是当务之急。2019年、2020年和2021年，印第安纳州评估了耕作、杂交和杀菌剂应用对焦油斑严重程度、冠层绿色度和粮食产量的综合影响。以两种耕作处理为主，以三个杂交种（焦油点敏感和两个部分抗性）和杀菌剂（丙环唑+苯并双氟吡唑+嘧菌酯）的亚地块因子排列为主要地块。此外，2020年，在印第安纳州、密歇根州和威斯康星州进行了一项多州研究，比较了两种杂交种（易感和部分抗性）和杀菌剂应用（丙环唑+苯并双氟吡唑+嘧菌酯）。这项研究表明，sAUDPC为2.5和3.0的部分抗性杂交种的焦油斑显著低于sAUDPC值为10.1的感病杂交种，冠层绿色度分别提高了48.1%和51.5%，显著高于成熟时13.0%的感病杂种。在感病杂交种中施用杀菌剂可进一步降低焦油斑的严重程度，增加冠层的绿色度。这些结果表明，单独的部分抗性可以用于管理焦油斑。施用或不施用杀菌剂的杂交种的产量没有显著差异。然而，在使用杀菌剂的处理中观察到保持产量潜力的总体趋势，这表明遗传和产量潜力的知识对于从部分抗性杂交种和明智的杀菌剂应用中获得最大效益是必要的。

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来源期刊

Plant Health Progress Agricultural and Biological Sciences-Horticulture

CiteScore

3.00

自引率

13.00%

发文量

期刊介绍： Plant Health Progress, a member journal of the Plant Management Network, is a multidisciplinary science-based journal covering all aspects of applied plant health management in agriculture and horticulture. Both peer-reviewed and fully citable, the journal is a credible online-only publication. Plant Health Progress is a not-for-profit collaborative endeavor of the plant health community at large, serving practitioners worldwide. Its primary goal is to provide a comprehensive one-stop Internet resource for plant health information.