Effect of environmental conditions and phenology in the dispersal of secondary Erysiphe necator conidia in a vineyard

E. González-Fernández, A. Piña-Rey, M. Fernández-González, F. J. Rodríguez-Rajo
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引用次数: 4

Abstract

An integrated powdery mildew management strategy to identify the principal moments of secondary Erysiphe necator conidia dispersal in a vineyard based on aerobiological, phenological and meteorological data was developed. An adaptation of the physiological P-days model was conducted to obtain a descriptive equation for the prediction of the advantageous meteorological conditions for Erysiphe necator conidia dispersal in the vineyards of the Ribeiro Designation of Origin area. Moreover, a regression model was developed to predict the conidia concentration as a function of the weather and aerobiological variables with the highest influence on airborne E. necator spores. Additionally, phenological observations were conducted during the vegetative cycle of Vitis vinifera, with the aim to identify the most susceptible phenological stages to powdery mildew infection by relating them with the detected atmospheric spore concentrations. The study was carried out from 2008 to 2018 in an experimental vineyard. The E. necator spores were trapped using a Lanzoni VPPS-2000 sampler and the phenological observations were conducted following the BBCH standardized scale. The highest total fungal spore amount per season in the atmosphere of the vineyard was detected in 2013 with 4828 spores m-3, while the lowest amount was recorded in 2009 with 883 spores m-3. In general, the highest daily airborne spore concentrations were detected during the Flowering (stage 6) or in the previous and next stages, whereas the maximum total spore amount by stage was recorded during Development of Fruits (stage 7). The proposed threshold of P-days for potential secondary infections in the Ribeiro D.O. ranges from 120 to 160 P-days. The combination of aerobiological, phenological and meteorological data provides us a useful tool for the knowledge of the Erysiphe necator conidia dispersal behaviour bringing agricultural practices closer to a sustainable system.
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环境条件和物候条件对葡萄树次生孢子传播的影响
基于空气生物学、物候学和气象资料,建立了葡萄产区白粉病次生孢子扩散的综合治理策略。对生理P-days模型进行了调整,得到了预测里贝罗原产地指定地区葡萄园内葡萄孢子传播有利气象条件的描述方程。此外,还建立了一个回归模型来预测分生孢子浓度作为天气和生物变量的函数,其中对空气传播的芽孢杆菌孢子的影响最大。此外,在葡萄的营养循环中进行物候观察,目的是通过将物候阶段与检测到的大气孢子浓度联系起来,确定对白粉病最敏感的物候阶段。这项研究于2008年至2018年在一个实验葡萄园进行。采用Lanzoni VPPS-2000取样器捕获芽孢杆菌孢子,并按照BBCH标准量表进行物候观察。2013年葡萄园大气真菌孢子数最高,为4828个孢子m-3, 2009年最低,为883个孢子m-3。一般来说,在开花(第6阶段)或前一阶段和后一阶段检测到最高的每日空气传播孢子浓度,而在果实发育(第7阶段)记录了各阶段的最大孢子总量。里贝罗D.O.提出的潜在继发感染的p天阈值为120至160 p天。空气生物学、物候学和气象数据的结合为我们提供了了解Erysiphe necator分生孢子传播行为的有用工具,使农业实践更接近可持续系统。
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