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Salinity in Autumn-Winter Season and Fruit Quality of Tomato Landraces

机译:秋冬盐度与番茄地方品种的果实品质

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摘要

Tomato landraces, originated by adaptive responses to local habitats, are considered a valuable resource for many traits of agronomic interest, including fruit nutritional quality. Primary and secondary metabolites are essential determinants of fruit organoleptic quality, and some of them, such as carotenoids and phenolics, have been associated with beneficial proprieties for human health. Landraces’ fruit taste and flavour are often preferred by consumers compared to the commercial varieties’ ones. In an autumn-winter greenhouse hydroponic experiment, the response of three Southern-Italy tomato landraces (Ciettaicale, Linosa and Corleone) and one commercial cultivar (UC-82B) to different concentrations of sodium chloride (0 mM, 60 mM or 120 mM NaCl) were evaluated. At harvest, no losses in marketable yield were noticed in any of the tested genotypes. However, under salt stress, fresh fruit yield as well as fruit calcium concentration were higher affected in the commercial cultivar than in the landraces. Furthermore, UC-82B showed a trend of decreasing lycopene and total antioxidant capacity with increasing salt concentration, whereas no changes in these parameters were observed in the landraces under 60 mM NaCl. Landraces under 120 mM NaCl accumulated more fructose and glucose in the fruits, while salt did not affect hexoses levels in UC-82B. Ultra-performance liquid chromatography–tandem mass spectrometry analysis revealed differential accumulation of glycoalkaloids, phenolic acids, flavonoids and their derivatives in the fruits of all genotypes under stress. Overall, the investigated Italian landraces showed a different behaviour compared to the commercial variety UC-82B under moderate salinity stress, showing a tolerable compromise between yield and quality attributes. Our results point to the feasible use of tomato landraces as a target to select interesting genetic traits to improve fruit quality under stress conditions.
机译:番茄地方品种起源于对当地生境的适应性反应,被认为是许多农业学上重要特征的宝贵资源,包括水果的营养品质。初级和次级代谢产物是水果感官品质的重要决定因素,其中一些,例如类胡萝卜素和酚类物质,对人类健康有益。与商业品种相比,本地人的水果口味和风味通常更受消费者青睐。在一个秋冬季温室水培试验中,三种意大利南部番茄地方品种(Ciettaicale,Linosa和Corleone)和一种商品栽培品种(UC-82B)对不同浓度的氯化钠(0 mM,60 mM或120 mM NaCl)的响应)进行了评估。在收获时,在任何测试的基因型中均未发现适销对路的损失。但是,在盐胁迫下,商品品种的新鲜水果产量和水果钙浓度的影响要比地方品种高。此外,UC-82B表现出番茄红素降低和总抗氧化能力随盐浓度增加的趋势,而在60 mM NaCl下的地方品种中未观察到这些参数的变化。低于120 mM NaCl的地方品种在果实中积累了更多的果糖和葡萄糖,而盐并不影响UC-82B中的己糖水平。超高效液相色谱-串联质谱分析揭示了各种基因型果实在胁迫下糖基生物碱,酚酸,类黄酮及其衍生物的差异积累。总体而言,在中等盐度胁迫下,所调查的意大利地方品种与商业品种UC-82B相比表现出不同的行为,表明产量和品质属性之间存在可容忍的折衷。我们的结果表明,在胁迫条件下,以番茄地方品种作为选择有趣遗传特性以改善果实品质的目标是可行的。

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