Responses of grapevines to planting density and training systems in semiarid environments

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY Agricultural Science and Practice Pub Date : 2022-12-21 DOI:10.15407/agrisp9.02.038
A. Shtirbu, I. Kovaleva, V. Vlasov
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Abstract

Aim. To investigate the physiological and agrobiological responses of grapevines on different systems of training systems in row plantations depending on the planting density and the possibility of adjusting plants for non-irri- gated crop cultivation under cold semiarid climate. Methods. The field two-way experiment of 2 × 4 was applied to study the effect of two planting density variants (3 × 1.5 m; 3 × 1 m) and four vine training systems (when the horizontal cordon is located at the height of 0.4 m, 0.8 m, 1.2 m, 1.6 m) on the parameters of the leaf area, leaf index, water loss through transpiration, activity of the photosynthetic apparatus of leaves and the yield of Zahrei wine grape cultivar (Vitis vinifera L.). The experiment data were processed using the analysis of variance. Results. The increase in the density of vine row plantations per area units from 3 × 1.5 m to 3 × 1 m enlarges the total leaf area, the exposed leaf area, water loss through transpiration, and yield weight, but these indices decrease in the evaluations per plant. The responses of grapevine to the training systems are similar and independent from the ex- perimental variants of planting density. At the height of the cordon of 0.4 and 0.8 m, the vertical shoot positioning enhances the potential of the photosynthetic capacity of the plantations, but this potential is realized only during the years with lower water deficit for plants. Free-growing shootings on the cordons, located at the height of 1.2 m, form the canopy architecture with relatively low water loss through transpiration which has a positive effect on the activity of the photosynthetic apparatus and yield, especially in dry years. The downward shoot positioning on the cordons of 1.6 m decreases the leaf area of the vines and creates the canopy architecture with increased transpiration which enhances the effect of the water deficit and has a negative effect on the productivity of plants. Conclusions. The agronomic methods of planting and training systems for grapevines ensure the management of the character of spatial shoot location, the formation of certain canopy architecture, and setting the parameters of the leaf area; their optimization mitigates the negative effect of water deficit and provides for adapting the plants for non-irrigated crops under semiarid climate. The positive effect of compacting plantations on crop yield was determined without irrigation in semiarid environments. The variant of planting density of 3 × 1 m decreases the yield on the vines on average by 12.1–31.0 %, as compared to the variant of 3 × 1.5 m. Yet, more dense plantations are remarkable for their yield, which is 18.5–61.3 % higher depending on the training system for vines. Under dry conditions, the most efficient system is the training system with the formation of the horizontal cordon at the height of 1.2 m and free-growing shoots. The system optimizes the leaf area density, and forms the canopy architecture with rather low water loss through transpiration which has a positive effect on the activity of the photosynthetic apparatus of leaves during droughts. Under free growth, the yield of the plantations increases by 4.3–12.3 % on average as compared to the vertical shoot positioning and by 21.3 % – under their downward positioning.
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半干旱环境下葡萄对种植密度和栽培系统的响应
目标根据种植密度和在寒冷半干旱气候下调整植物进行非灌溉作物种植的可能性,研究葡萄藤对行种植园不同栽培系统的生理和农业生物学反应。方法。采用2×4的田间双向试验,研究了两种种植密度变化(3×1.5m;3×1m)和四种葡萄栽培系统(当水平警戒线位于0.4m、0.8m、1.2m、1.6m高度时)对叶面积、叶指数、蒸腾失水等参数的影响,用方差分析法对扎赫赖温葡萄品种(Vitis vinifera L.)的叶片光合器活性和产量进行了处理。结果:单位面积葡萄园密度从3×1.5m增加到3×1m,增加了总叶面积、露叶面积、蒸腾失水量和产量,但这些指标降低了单株价值。葡萄藤对训练系统的反应是相似的,并且与种植密度的实验变化无关。在警戒线0.4米和0.8米的高度,垂直的枝条位置提高了人工林光合能力的潜力,但这种潜力只有在植物缺水较低的年份才能实现。警戒线上1.2米高的自由生长的枝条形成了蒸腾损失相对较低的冠层结构,对光合器官的活动和产量有积极影响,尤其是在干旱年份。在1.6米的警戒线上向下的枝条位置减少了葡萄藤的叶面积,并创造了具有增加的蒸腾量的树冠结构,这增强了缺水的影响,并对植物的生产力产生了负面影响。结论。葡萄种植和栽培系统的农艺方法确保了对空间枝条位置特征的管理、一定冠层结构的形成以及叶面积参数的设置;它们的优化减轻了缺水的负面影响,并为在半干旱气候下种植非灌溉作物提供了条件。在半干旱环境中,在不灌溉的情况下确定了压实人工林对作物产量的积极影响。与3×1.5m的种植密度相比,3×1m的种植密度变化使葡萄藤的产量平均降低了12.1-31.0%。然而,更密集的种植密度对其产量来说是显著的,根据葡萄藤的训练系统,产量高出18.5-61.3%。在干旱条件下,最有效的系统是在1.2米的高度形成水平警戒线和自由生长的嫩芽的训练系统。该系统优化了叶面积密度,并通过蒸腾作用形成了水分损失较低的冠层结构,这对干旱期间叶片光合作用的活性有积极影响。在自由生长条件下,与垂直枝条定位相比,人工林的产量平均增加了4.3-12.3%,在向下定位的情况下,产量平均增加21.3%。
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Agricultural Science and Practice
Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-
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