Host Genetic Resistance in Brassica napus: A Valuable Tool for the Integrated Management of the Fungal Pathogen Leptosphaeria maculans.

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES
Plant disease Pub Date : 2024-11-01 Epub Date: 2024-10-24 DOI:10.1094/PDIS-04-24-0756-RE
Susan J Sprague, Angela P Van de Wouw, Stephen J Marcroft, Abebayehu G Geffersa, Alexander Idnurm, Luke G Barrett
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Abstract

Management of plant disease in agro-ecosystems ideally relies on a combination of host genetic resistance, chemical control, and cultural practices. Growers increasingly rely on chemical and genetic options, but their relative benefits in disease control, yield, and economic outcomes are rarely quantified. We explore this relationship for blackleg crown canker disease (caused by Leptosphaeria maculans), a major biotic constraint limiting canola production globally. Data from 20 field trials conducted from 2013 to 2015 in canola-growing regions of Australia were used to assess the effects of host resistance and fungicide treatment on blackleg severity, grain yield, and gross margin. In the absence of fungicide, blackleg disease was 88% lower in the most resistant compared with the most susceptible blackleg resistance category. In the most susceptible resistance category, the most effective fungicide treatment significantly reduced blackleg severity (from 50 to 6%) and increased grain yield (478 kg/ha, 41%) and gross margin (AU$120/ha, 17%). However, the mean benefits of fungicide tended to decrease with increasing levels of genetic resistance, to the point that yield, disease, and gross margin benefits were close to zero in the most resistant cultivars. Overall, these findings suggest that fungicides can reduce blackleg severity, but the benefits of application strongly depend on associated levels of genetic resistance. Canola cultivars with higher genetic resistance reliably reduced blackleg disease and maintained grain yield without the associated cost of fungicide application. The intensification of canola production to meet increasing global demand will require strategies to sustainably manage and protect finite genetic resistance resources to control blackleg disease.

甘蓝型油菜的宿主遗传抗性:综合防治真菌病原体 Leptosphaeria maculans 的宝贵工具。
理想情况下,农业生态系统中的植物病害管理依赖于寄主遗传抗性、化学防治和栽培措施的结合。种植者越来越多地依赖化学和遗传方法,但很少量化它们在病害控制、产量和经济效益方面的相对优势。我们针对黑胫病冠腐烂病(由大斑锈病菌引起)探讨了这种关系,该病是限制全球油菜籽产量的主要生物制约因素。我们利用 2013 年至 2015 年在澳大利亚油菜籽种植区进行的 20 项田间试验数据,评估了寄主抗性和杀菌剂处理对黑穗病严重程度、谷物产量和毛利的影响。在不使用杀菌剂的情况下,抗性最强的黑穗病发病率比抗性最易感的黑穗病发病率低88%。在最易感抗性类别中,最有效的杀菌剂处理显著降低了黑脚病的严重程度(从 50%降至 6%),并提高了谷物产量(478 千克/公顷,41%)和毛利率(120 澳元/公顷,17%)。然而,杀真菌剂的平均效益往往随着遗传抗性水平的提高而降低,以至于抗性最强的栽培品种的产量、病害和毛利效益接近于零。总之,这些研究结果表明,杀菌剂可以降低黑胫病的严重程度,但施用效益在很大程度上取决于相关的遗传抗性水平。具有较高遗传抗性的油菜栽培品种能可靠地减少黑胫病并保持谷物产量,而无需支付施用杀真菌剂的相关成本。为满足日益增长的全球需求而加强油菜籽生产,需要制定战略,可持续地管理和保护有限的遗传抗性资源,以控制黑胫病。
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来源期刊
Plant disease
Plant disease 农林科学-植物科学
CiteScore
5.10
自引率
13.30%
发文量
1993
审稿时长
2 months
期刊介绍: Plant Disease is the leading international journal for rapid reporting of research on new, emerging, and established plant diseases. The journal publishes papers that describe basic and applied research focusing on practical aspects of disease diagnosis, development, and management.
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