采前叶面施用氯化钙和硫代硫酸钾提高番茄冷藏品质

W. Semida, A. Emara, M. Barakat
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引用次数: 3

摘要

本试验的目的是研究在冷藏期间,在收获前叶面施用分别为0.0、0.2和0.4%的氯化钙和硫代硫酸钾对番茄果实(杂交种65010)某些品质的影响。冷藏实验的实验布局是基于随机完全块设计的三次重复的分割图。冷藏时间、氯化钙和硫代硫酸钾水平在主、亚、亚小区中随机分布,顺序排列。冷藏结束时,对番茄果实可滴定酸度、维生素C和番茄红素含量有影响,对硬度和可溶性总糖含量有负面影响。在冷藏结束时,收获前0.2和/或0.4%的叶面氯化钙会导致水果可滴定酸度、维生素C、总可溶性糖、番茄红素和硬度含量增加。此外,采前叶面0.4%的硫代硫酸钾提高了果实的维生素C、可溶性总糖、番茄红素和硬度含量,还增加了可滴定酸度。一般来说,冷藏×采前叶面氯化钙或硫代硫酸钾在0.2%和/或0.4%的相互作用增加了果实的总可滴定酸度、维生素C、总可溶性糖、番茄红素和硬度含量。此外,0.4%的收获前氯化钙×硫代硫酸钾之间的相互作用也得到了区分,并在冷藏结束时提高了所有研究的果实质量。冷藏×0.4%氯化钙×0.4%硫代硫酸钾的交互作用处理对果实品质的改善效果最好。
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Improving Quality Attributes of Tomato during Cold Storage by Preharvest Foliar Application of Calcium Chloride and Potassium Thiosulfate
The aim of this trial was to investigate the pre-harvest foliar application of calcium chloride and potassium thiosulfate each at 0.0, 0.2 and 0.4 % on some quality of tomato fruit (hybrid 65010) during cold storage. The experimental layout of cold storage experiments was a split-split-plot based on Randomized Complete Blocks design with three replications. Time of cold storage, calcium chloride and potassium thiosulfate levels were randomly distributed in the main, sub-and sub-sub plots, orderly. At the termination of cold storage, effect on tomato fruit titratable acidity, vitamin C and lycopene contents while, negative impact on firmness and total soluble sugars contents was obtained. At termination of cold storage, pre-harvest foliar calcium chloride at 0.2 and/or 0.4 % caused increments in fruit titratable acidity, vitamin C, total soluble sugars, lycopene and firmness contents. In addition, pre-harvest foliar potassium thiosulfate at 0.4 % enhanced fruit vitamin C, total soluble sugars, lycopene and firmness contents and also increased titratable acidity content. Generally, the interaction between cold storage × pre-harvest foliar calcium chloride or potassium thiosulfate at 0.2 and/or 0.4% increased fruit total titratable acidity, vitamin C, total soluble sugars, lycopene and firmness contents. Also, the interaction between pre-harvest calcium chloride × potassium thiosulfate at 0.4 % was distinguished and increased all studied fruit quality at the end of cold storage. The interaction treatment of cold storage × calcium chloride at 0.4 % × potassium thiosulfate at 0.4 % was the best that improved fruit quality more than others.
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International Letters of Natural Sciences
International Letters of Natural Sciences MULTIDISCIPLINARY SCIENCES-
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