IN-STORAGE WEIGHT LOSS BY TABLE BEETROOTS DEPENDING ON THE ROOT PULP STRUCTURE

Vegetable and Melon Growing Pub Date : 2024-07-07 DOI:10.32717/0131-0062-2024-75-84-93

L. M. Puzik, V. K. Puzik, V. A. Bondarenko, D. V. Chuiko

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Abstract

Purpose - to determine the in-storage weight loss by table beetroots depending on the root pulp structure. Methods. 1. General scientific: hypotheses – drawing up designs of experiments; experiments - conducting laboratory tests; analysis and synthesis – summarizing and concluding. 2. Computantional and analytical. Results. Beetroots naturally lose their weight during storage and this process is uneven. At the beginning, it is quite rapid, then it gradually slows down, accelerating in spring. Of the studied beet cultivars, the greatest losses of weight during storage were registered for cvs. 'Renova' and 'Tsylindra'. The weight loss by beetroots was correlated with a decrease in the dry matter content, which was spent on the respiration of beetroots to support their vital activity. In beet cvs. 'Renova' and 'Opolskyi', the decrease in the dry matter during storage was greater, amounting to 5.6 and 4.5%, respectively. There was a relationship between cell area and in-storage water evaporation. It was revealed that in cells with the largest area of 140.04·103 μm, the evaporation-caused losses amounted to 77.7% (cv. 'Karilon'), while in cells with the smallest area of 62.89·103 μm, this parameter was only 10.5% (cv. 'Opolskyi'). Conclusions. There was a direct strong correlation between water evaporation and cell size (r = 0.791). There was a significant second-order curvilinear dependence of beetroot weight loss on cultivars' features (R2 = 0.6041–0.9910).

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甜菜在储存过程中的重量损失取决于根髓结构

目的--确定甜菜根在储存过程中的重量损失，具体取决于根髓结构。方法： 1.1.一般科学方法：假设--拟定实验设计；实验--进行实验室测试；分析和综合--归纳和总结。2.计算和分析。结果。甜菜根在储存过程中会自然减重，这一过程是不均匀的。刚开始时，减重速度很快，然后逐渐减慢，到春天时减重速度加快。在研究的甜菜栽培品种中，'Renova'和'Tsyl'在储藏期间的重量损失最大。Renova "和 "Tsylindra"。甜菜根的重量损失与干物质含量的减少有关，干物质用于甜菜根的呼吸以支持其生命活动。在甜菜品种在'Renova'和'Opolskyi'甜菜品种中，贮藏期间干物质的减少幅度较大，分别为 5.6% 和 4.5%。细胞面积与贮藏过程中的水分蒸发量之间存在一定的关系。结果显示，在面积最大为 140.04-103 μm 的细胞中，蒸发造成的损失达 77.7%（品种'Karilon'），而在面积最小为 62.89-103 μm 的细胞中，这一参数仅为 10.5%（品种'Opolskyi'）。结论水分蒸发与细胞大小之间存在直接的强相关性（r = 0.791）。甜菜根的重量损失与栽培品种的特征有明显的二阶曲线关系（R2 = 0.6041-0.9910）。

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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Vegetable and Melon Growing

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