IRHS-UMR1345, Université d'Angers, INRAE, Institut Agro, SFR 4207 QuaSaV, F-49071, Beaucouzé, France.
Invenio, F-87500, St Yrieix-la-Perche, France.
Plant Dis. 2022 Dec;106(12):3166-3177. doi: 10.1094/PDIS-01-22-0183-RE. Epub 2022 Nov 16.
Phosphonate-based products have demonstrated diverse abilities to protect crops against pests, with various modes of action proposed. In this article, we specifically investigated potassium phosphonate (KHP) on apple crops. Its performance to control three major apple bioagressors (, , and ) was evaluated under semicontrolled conditions. The product was able to confer significant protection rates (40 to 75% for apple scab, 40% for fire blight, and 30% for rosy aphid), which can be explained by its more or less efficient biocidal activity against the three pests, and by its ability to induce apple immunity (pathogenesis-related proteins and secondary metabolites genes). A cumulative effect of treatments as well as the systemic behavior of the product was demonstrated. Fields trials against apple scab and the postharvest disease bull's eyes rot () were performed on different apple varieties by applying KHP combined with light pest management programs either reducing (dessert orchards) or suppressing (cider orchards) fungicide applications. KHP was able to reduce apple scab by 70 to 90% on shoots and young and harvested fruit, and bull's eyes rot by 70 to 90% on harvested fruit. Overall, our results indicate that KHP is useful for the protection of apple trees against its major pests by direct effect and by triggering the host defense system.
膦酸酯类产品在保护作物免受虫害方面表现出多种能力,其作用模式也多种多样。本文专门研究了苹果作物上的磷酸钾(KHP)。在半控制条件下,评估了该产品对三种主要苹果生物侵略者(、、和)的控制性能。该产品能够提供显著的保护率(苹果黑星病为 40%至 75%,火疫病为 40%,苹果绵蚜为 30%),这可以归因于其对三种害虫或多或少有效的杀菌活性,以及其诱导苹果免疫力的能力(与发病相关的蛋白质和次生代谢物基因)。处理的累积效应以及产品的全身行为都得到了证明。通过将 KHP 与轻虫害管理方案结合使用,在不同的苹果品种上进行了针对苹果黑星病和采后病害()的田间试验,这些方案要么减少(沙漠果园),要么抑制(苹果酒果园)杀菌剂的使用。KHP 能够将苹果黑星病在新梢、幼果和收获果上的发生率降低 70%至 90%,将苹果采后病害的发生率降低 70%至 90%。总的来说,我们的结果表明,KHP 通过直接作用和触发宿主防御系统,可有效保护苹果树免受主要害虫的侵害。
