Overhead spray water treatment as a mitigation strategy to alleviate vine stress and safeguard grape quality during heatwaves

IF 4.7 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-16 DOI:10.20870/oeno-one.2024.58.2.7847

Alena Wilson, Marta Dizy, Deolindo Dominguez, María Inés de Rosas, Yésica Baldo, Luciana Garcia, R. Gargantini, Leonor Deis, Liliana Martinez

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Abstract

Changes in climate are influencing the quality of wine grapes worldwide. The impact of extreme climate events over short periods is increasingly recognised as a serious risk to grape quality and yield quantity. In this study, the mitigation effects of a pulsed water spray treatment on vine canopy during heatwave (HW) events were evaluated in relation to vine condition during the growing season and grape quality. In the UNCuyo experimental vineyard, vines of the three cultivars Malbec (ML), Bonarda (BO) and Syrah (SY) were treated with an overhead pulsed water spray. Heatwaves were defined as days with a minimum temperature of 21 °C and a maximum temperature of 35 °C. Two heat waves were identified during the growing season. Samples were collected at weekly intervals from veraison to harvest. On five sample dates, Leaf and Stem Water Potential (LWP, SWP), Stomatal Conductance (gs), Leaf Temperature (LT), Berry Temperature (BT), Chlorophyll Content (CC), Fluorescence (Fv/Fm) and Performance Index (PI) were recorded at several time points during the day to evaluate the physiological responses of the vine. Berries were collected on each sample date and at harvest. Berry weight, soluble solid content and pH were recorded. In the treated vines (Trt), LWP, SWP, Fv/Fm, PI and gs were significantly higher and LT was lower than in the control vines (Ctl) during the second heatwave, which was longer and more intense than the first one. One week after the more severe heatwave, LWP, SWP and gs remained significantly higher in Trt than in Ctl, displaying reduced physiological stress in Trt. At harvest, the anthocyanin profile, total polyphenol index (TPI), fruit yield, number of bunches and their average weight, berry weight, soluble solid content and pH were also recorded. Bunch weight was significantly higher in Trt for all cultivars. No differences were found in total anthocyanin concentration. These findings indicate that the vines subjected to targeted overhead water treatment during heatwaves underwent less physiological stress and yielded higher grape production, without increasing the risk of potential fungus diseases, in the Mendoza climate. Consequently, this practice could serve as a valuable strategy for mitigating the adverse effects of heatwaves.

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高空喷水处理作为一种缓解策略，可在热浪期间减轻葡萄树的压力并保障葡萄质量

气候的变化正在影响世界各地酿酒葡萄的质量。人们越来越认识到，短时间内极端气候事件的影响对葡萄的质量和产量构成严重威胁。本研究评估了热浪（HW）事件期间脉冲喷水处理对葡萄树冠层的缓解作用，并将其与葡萄树在生长季节的状况和葡萄质量联系起来。在 UNCuyo 试验葡萄园中，对马尔贝克（ML）、博纳达（BO）和西拉（SY）三个品种的葡萄树进行了高空脉冲喷水处理。热浪的定义是最低温度为 21 °C，最高温度为 35 °C。生长季中出现了两次热浪。从成熟期到收获期，每周采集一次样本。在五个采样日，在一天中的多个时间点记录叶片和茎干水势（LWP、SWP）、气孔导度（gs）、叶片温度（LT）、浆果温度（BT）、叶绿素含量（CC）、荧光（Fv/Fm）和性能指数（PI），以评估葡萄树的生理反应。在每个采样日期和收获时收集浆果。记录浆果重量、可溶性固体含量和 pH 值。与对照组（Ctl）相比，在第二次热浪期间，经过处理的葡萄树（Trt）的 LWP、SWP、Fv/Fm、PI 和 gs 显著升高，而 LT 则降低。更猛烈的热浪过后一周，Trt 的 LWP、SWP 和 gs 仍明显高于 Ctl，这表明 Trt 的生理压力有所减轻。收获时，还记录了花青素含量、总多酚指数（TPI）、果实产量、果串数及其平均重量、浆果重量、可溶性固形物含量和 pH 值。在所有栽培品种中，Trt 的果穗重量明显较高。总花青素浓度没有差异。这些研究结果表明，在门多萨的气候条件下，热浪期间对葡萄树进行有针对性的高架水处理，可以减少葡萄树的生理压力，提高葡萄产量，同时不会增加潜在真菌疾病的风险。因此，这种做法可以作为减轻热浪不利影响的宝贵策略。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464

期刊介绍： ACS Applied Bio Materials is an interdisciplinary journal publishing original research covering all aspects of biomaterials and biointerfaces including and beyond the traditional biosensing, biomedical and therapeutic applications. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrates knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important bio applications. The journal is specifically interested in work that addresses the relationship between structure and function and assesses the stability and degradation of materials under relevant environmental and biological conditions.