Role of foliar biostimulants (of plant origin) on grapevine adaptation to climate change

L. Bavaresco, Ginevra Canavera, M. G. Parisi, L. Lucini
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Abstract

Heat waves and drought stress are typical aspects of current climate change, significantly affecting the grapevine physiology in many world growing areas. Biostimulants can play an important role in reducing the negative effects of climate change; that’s why this experiment was set up in order to test two new foliar biostimulants (protein hydrolysates of plant origin). The field experiment was carried out in 2017 and 2018 in Oltrepo pavese area (Lombardia region, northwest Italy, 270 m asl), on a six-year-old vineyard of V. vinifera L. cv. Merlot clone 181 grafted on Gravesac, Guyot trellis, 4,000 vines/ha and not irrigated. Two new protein hydrolysates of plant origin were sprayed twice, just after fruit set and 15 days later, by using 2.5 L/ha. Leaf proteomics and metabolomics were studied in 2017, while productive and qualitative data were recorded in both years at harvest (September 1st, 2017 and August 28th 2018). The most significant findings were: (a) the treatments slowed down the grape ripening, by stimulating vegetative activity and reducing sugar accumulation; (b) less heat and drought stress symptoms were observed in the canopies of treated vines, as compared to the control ones.
叶面生物刺激素(植物源)在葡萄适应气候变化中的作用
热浪和干旱胁迫是当前气候变化的典型方面,显著影响着世界上许多葡萄种植区的葡萄生理。生物刺激剂可以在减少气候变化的负面影响方面发挥重要作用;这就是为什么这个实验是为了测试两种新的叶面生物刺激剂(植物来源的蛋白质水解物)而建立的。该田间试验于2017年和2018年在Oltrepo pavese地区(意大利西北部伦巴第大区,海拔270米)的一个6年葡萄园上进行。梅洛181克隆嫁接于格雷夫萨克、盖尤特棚架上,4000株/公顷,不灌溉。两种新的植物源蛋白水解物分别在坐果后和15天后喷施两次,喷施量为2.5 L/ha。2017年进行了叶片蛋白质组学和代谢组学研究,并记录了收获年份(2017年9月1日和2018年8月28日)的生产和定性数据。最显著的发现是:(a)通过刺激营养活动和减少糖积累,处理减缓了葡萄的成熟;(b)与对照相比,处理过的葡萄藤树冠上观察到的高温和干旱胁迫症状较少。
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