嫁接在两种不同砧木上的“梅洛”葡萄植株在转代前或转代后亏缺灌溉引起的生理变化

G. Palai, R. Gucci, G. Caruso, C. D'onofrio
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引用次数: 8

摘要

由于气温升高,夏季降水减少和蒸散量增加,预计将加剧现代葡萄栽培中水分亏缺的影响。研究了亏缺灌溉时机对嫁接在1103P和SO4上的‘梅洛’葡萄生长、水分关系、产量和葡萄成分的影响。在这两年中,我们都没有测量到不同砧木在茎水势(SWP)方面的差异。坐果至花期限灌,营养生长受到抑制。灌水对气孔导度有影响,而对砧木没有影响。在变前期,gs与SWP呈明显的负相关。叶片非光化学猝灭对施加在1103P砧木上的胁迫有明显的响应。在坐果期和灌浆期之间缺水的葡萄藤比灌浆后缺水的葡萄藤结出的果实要小,而灌浆后缺水的葡萄藤的果实重量差异约为10%。在1103P和SO4两种处理下,分别测定了旱前亏缺灌溉葡萄藤的果实pH和TA的最高和最低值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Physiological changes induced by either pre- or post-veraison deficit irrigation in 'Merlot' vines grafted on two different rootstocks
Reduced summer precipitations and higher evapotranspiration due to elevated temperatures are expected to enhance the impact of water deficit in modern viticulture. We investigated the effect of the timing of deficit irrigation on vine growth, water relations, yield and grape composition in 'Merlot' vines grafted on 1103P or SO4. In both years we did not measure any differences between rootstocks in stem water potential (SWP). Vegetative growth was decreased by the restriction of irrigation between fruit set and veraison. Stomatal conductance (gs) was affected by irrigation, but not by the rootstock. During the pre-veraison period there was a clear inverse relationship between gs and SWP. The leaf non photochemical quenching readily responded to the stress imposed on 1103P rootstock. Vines subjected to water deficit between fruit set and veraison produced smaller berries than well irrigated ones, whereas deficit applied after veraison determined about 10 % differences in berry weight. The highest and lowest values of pH and TA were measured in berries from pre-veraison deficit irrigated vines grafted on both 1103P and SO4, respectively.
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