Effects of salinity stress induced by hot spring water on tomato growth, yield and fruit quality under hydroponic cultivation in Japan

International Journal of Horticultural Science Pub Date : 2023-07-20 DOI:10.31421/ijhs/29/2023/11525

A. Musabyisoni, M. Mutimawurugo, A. N. Niyokuri

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Abstract

The objective of this research was to test hot spring water as a source of salt to improve tomato quality under the hydroponic system. This research was conducted at Yamagata University, in Japan from February to July 2017. Salt stress was induced using salts of hot spring wastewater collected from Yupoka Onsen (Tsuruoka, Japan). The treatments were EC 2, 4, 8 12, and 16 mS/cm which were arranged in a Randomized Complete Block Design (RCBD) with five replications. Tomato plants were grown at EC 2 until flowering and then subjected to different EC concentrations until harvesting. The data were collected on plant growth parameters and fruit quality. Fruits were harvested at the red stage until the 5th truss. The results showed that fruits' Soluble Solids Content, organic acid, Nitrate contents and Sugar: Acid ratio increased significantly at EC 16 mS/cm and in the upper trusses compared to EC 2 and in the lower trusses. In contrast, fruit weight significantly decreased at EC 16 mS/cm and in upper trusses. Leaf thickness, size and SPAD, and specific leaf weight significantly declined at EC 16 mS/cm and upper leaves compared to EC 2 and in lower leaves. Plant height started to decline significantly after three weeks of treatment at EC 16 compared to EC 2.

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温泉水诱导的盐分胁迫对日本水培番茄的生长、产量和果实品质的影响

本研究的目的是测试温泉水作为盐源，在水培系统下改善番茄品质。这项研究于 2017 年 2 月至 7 月在日本山形大学进行。使用从汤冈温泉（日本鹤冈市）收集的温泉废水中的盐分诱导盐胁迫。处理为 EC 2、4、8 12 和 16 mS/cm，采用随机完全区组设计（RCBD），五次重复。番茄植株在 EC 2 浓度下生长至开花，然后在不同 EC 浓度下生长至收获。收集了有关植物生长参数和果实质量的数据。果实在红果期至第 5 个桁架期采收。结果表明，在 EC 16 浓度下，果实的可溶性固形物含量、有机酸、硝酸盐含量和糖酸比显著增加：与 EC 2 和下部桁架相比，EC 16 mS/cm 和上部桁架的果实可溶性固形物含量、有机酸、硝酸盐含量和糖酸比明显增加。与此相反，在 EC 16 mS/cm 条件下，上部桁架的果实重量明显下降。与 EC 2 和下部叶片相比，EC 16 mS/cm 和上部叶片的叶片厚度、大小和 SPAD 以及叶片比重明显下降。与 EC 2 相比，EC 16 处理三周后，植株高度开始明显下降。

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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来源期刊

International Journal of Horticultural Science

自引率

0.00%

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审稿时长

24 weeks