Cultivar and Fungicide Evaluations for Cercospora Leaf Spot Control in Organic and Conventional Table Beet Production

IF 1 4区农林科学 Q3 HORTICULTURE

Horttechnology Pub Date : 2023-10-01 DOI:10.21273/horttech05251-23

Liam Dixon, Irwin L. Goldman

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引用次数: 0

Abstract

Cercospora leaf spot (CLS), caused by the fungal pathogen Cercospora beticola, is the most destructive foliar disease of table beet (Beta vulgaris ssp. vulgaris) in Wisconsin, USA, and globally. Under conducive conditions, symptomatic lesions on the leaf expand and coalesce forming large necrotic areas that can ultimately lead to complete defoliation. This damage reduces productivity and threatens the ability to mechanically harvest. CLS damage also detracts from the visual appeal of fresh market bunched beets to such an extent that growers risk buyer rejection if CLS severity is observed to be greater than 5%. Fungicide use for CLS control is threatened by the emergence of resistant C. beticola strains, and the application of host resistance is constrained by limited knowledge of cultivar reaction to CLS in table beet. This study aimed to address the knowledge gaps of fungicide efficacy and cultivar reaction by conducting replicated field trials in multiple table beet growing environments across Wisconsin. Broad variation for resistance to CLS was observed among the 10 included cultivars. The mean area under disease progress curve (AUDPC) across environments for the most susceptible cultivar was 267% greater than the most resistant cultivar. Spearman correlations between environments for mean cultivar AUDPC value ranged from 0.71 to 0.99, revealing consistent cultivar CLS reactions across environments. Although susceptible cultivars surpassed 5% severity in all environments, the resistant cultivars remained below this threshold in six of the 10 environments. By comparison with resistant sugar beet (Beta vulgaris ssp. vulgaris) cultivars, however, all tested table beets appeared susceptible to CLS, highlighting the potential for a CLS breeding effort in table beet. Neither of the evaluated Organic Materials Review Institute–listed treatments were effective at limiting CLS disease progress, whereas both tested conventional fungicides significantly reduced disease severity over the nontreated plots. These findings may provide helpful guidance to table beet growers affected by CLS in Wisconsin and beyond.

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有机与常规甜菜生产中防治黑斑病的品种及杀菌剂评价

甜菜Cercospora叶斑病(CLS)是甜菜最具破坏性的叶面病害，由甜菜Cercospora beticola真菌病原引起。在威斯康星州，美国和全球。在有利的条件下，叶片上的症状性病变会扩大并合并，形成大的坏死区域，最终导致完全的落叶。这种破坏降低了生产力并威胁到机械收获的能力。CLS损害也降低了新鲜市场束状甜菜的视觉吸引力，如果观察到CLS严重程度大于5%，种植者可能会拒绝买家。抗CLS菌株的出现威胁着杀菌剂的使用，而对甜菜品种对CLS反应的了解有限，限制了宿主抗CLS的应用。本研究旨在通过在威斯康星州多个食用甜菜生长环境中进行重复田间试验，解决杀菌剂功效和品种反应方面的知识空白。10个品种对CLS的抗性存在较大差异。不同环境下，最敏感品种的平均疾病进展曲线下面积(AUDPC)比最抗性品种大267%。不同环境下不同品种AUDPC值的Spearman相关性在0.71 ~ 0.99之间，表明不同环境下不同品种的CLS反应一致。虽然在所有环境中，敏感品种的严重程度都超过了5%，但在10个环境中，抗性品种在6个环境中仍低于该阈值。通过与抗甜菜(Beta vulgaris ssp)的比较。然而，所有测试的食用甜菜品种都对CLS敏感，这突出了在食用甜菜中进行CLS育种努力的潜力。两种评估的有机材料评论研究所列出的处理都不能有效地限制CLS疾病的进展，而两种测试的常规杀菌剂都比未处理的地块显著降低了疾病的严重程度。这些发现可能为威斯康星州及其他地区受CLS影响的食用甜菜种植者提供有益的指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Horttechnology 农林科学-园艺

CiteScore

2.30

自引率

10.00%

发文量

审稿时长

3 months

期刊介绍： HortTechnology serves as the primary outreach publication of the American Society for Horticultural Science. Its mission is to provide science-based information to professional horticulturists, practitioners, and educators; promote and encourage an interchange of ideas among scientists, educators, and professionals working in horticulture; and provide an opportunity for peer review of practical horticultural information.