Acibenzolar-S-methyl against Botrytis mold on table grapes in vitro and in vivo

Agronomy Science and Biotechnology Pub Date : 2019-07-05 DOI:10.33158/ASB.2019V5I1P52

K. Youssef, S. Roberto, R. Colombo, M. G. Canteri, K. Elsalam

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引用次数: 5

Abstract

The objective of this work was to investigate the effect of the resistance inducer Acibenzolar-S-methyl (ASM), against Botrytis mold on table grapes in vitro and in vivo. To assess the effect of ASM on mycelial growth Botrytis cinerea, different concentrations (0.125, 0.25, 0.5, 1.0, 2.0 and 3% w:v) were tested. Treatments were set up in triplicate, in a completely randomized experimental design, and replicated twice. Results were expressed in minimum inhibitory concentrations and effective dose per 50% response of mycelial growth. Healthy table grapes (cvs. Italia and Benitaka) were harvested at full ripe to evaluate the ASM 1% effect against gray mold under artificial conditions. Bunches were split into two groups in order to perform two types of experiments (spray or immersion). For both trials, treated bunches were arranged in carton boxes and stored at 2±1 °C, for one month, followed by one week of shelf-life at 22±2 °C. In order to evaluate the ASM effect against gray mold under field conditions, ASM 1% was sprayed on both cultivars one week before harvest. Grapes treated with iprodione 0.2% with three applications during the season were included as a standard chemical control. Bunches were harvested at full ripe, arranged in carton boxes and submitted to a cold storage process as described previously. Results for the in vitro experiments showed that the minimum inhibitory concentration of ASM was achieved by 3% and the ED50 was 0.04%. Under artificial conditions, for both cultivars, the efficacy of ASM was higher when the grapes were immersed than sprayed. A significant difference was observed for ASM as compared with control. Regarding the effect of ASM against gray mold in the field, the incidence of gray mold was recorded for both cultivars. For ‘Italia’ and ‘Benitaka’ grapes, ASM, iprodione and sulfur dioxide pad reduced the incidence of gray mold by 85, 79 and 77%, and by 80.5, 73 and 82%, respectively. As for the physico-chemical berry properties, none of the treatments were significantly different from the control for total soluble solids, titratable acidity and color index. A single ASM treatment applied one week before harvest is effective for controlling gray mold in ‘Italia’ and ‘Benitaka’ table grapes.

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酸性苯并唑- s -甲基对鲜食葡萄葡萄灰霉病霉菌的体内外抑制作用

研究了酸性苯并唑- s -甲基(acid benzolar- s -methyl, ASM)对鲜食葡萄葡萄霉病的体内和体外抗性诱导效果。为评价ASM对灰葡萄孢菌丝生长的影响，采用不同浓度(0.125、0.25、0.5、1.0、2.0和3% w:v)进行试验。处理设置为三份，完全随机实验设计，并重复两次。结果表示为最低抑制浓度和有效剂量每50%的菌丝生长反应。健康的鲜食葡萄(cvs。意大利和贝尼塔卡(Benitaka)在完全成熟时收获，在人工条件下评价ASM 1%对灰霉病的防治效果。为了进行两种类型的实验(喷雾或浸泡)，将束分成两组。在这两项试验中，处理过的花束都被放置在纸箱中，在2±1°C下保存一个月，然后在22±2°C下保存一周。在收获前一周，在田间条件下对两个品种喷施1%的抗菌素，以评价抗菌素对灰霉病的防治效果。用0.2%异丙地酮处理的葡萄，在季节内施用三次，作为标准化学对照。束收获在完全成熟，安排在纸箱和提交到一个冷库过程如前所述。体外实验结果表明，ASM的最低抑制浓度为3%，ED50为0.04%。在人工条件下，两个品种浸水处理的效果均高于喷淋处理。与对照组相比，ASM有显著差异。关于ASM田间防治灰霉病的效果，记录了两个品种的灰霉病发病率。对于“Italia”和“Benitaka”葡萄，ASM、异丙二酮和二氧化硫分别降低了85%、79%和77%的灰霉病发病率，80.5%、73%和82%。在果实理化性状方面，各处理在可溶性固形物总量、可滴定酸度和显色指数方面均与对照无显著差异。收获前一周单次ASM处理对“Italia”和“Benitaka”鲜食葡萄的灰霉病防治有效。

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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Agronomy Science and Biotechnology

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