Using salinity to improve nutritional and market value of strawberries

M. Alnayef, Joseph Hartley, F. Orsini, R. D. Silvestro, Rabab Sanoubar, I. Marotti, G. Gianquinto, G. Dinelli, Norhawa Puniran- Hartley
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Abstract

Plants respond to salinity by producing antioxidants and osmolytes; some of these are nutritionally useful to humans (e.g. phenolics), or may improve the sensory quality of produce (e.g. sugars). For the current study, strawberries were irrigated with 0, 10, 20 or 40 mM NaCl, and the responses in antioxidants, phenolics, and flavour attributes were measured. A linear positive relationship was observed between salt stress and antioxidant concentrations, and the DPPH antioxidant assay responded more clearly than the FRAP assay. Phenolics were increased with statistical significance by salinity at all treatment levels, although trends differed between total phenolics and the subclasses anthocyanins and total flavonoids. It was seen that mild salinity (10 mM) with a low impact on yield could be used to increase antioxidants (6-10% above control) and total phenolics (11-16% above control). However differences between cultivars outweighed differences due to salinity in treatments below 20 mM NaCl. We found that sugars in strawberries (unlike other fruits) weren’t increased by salinity treatment. The lack of sugar increase can be explained by suggesting that organic acids are more important osmolytes than sugars for strawberries under salinity. However it was also determined that the failure of strawberries to increase their soluble sugars during salt stress can be explained by the lean nutrient regimes used by researchers, which don’t represent commercial production practices. Practically, mild salinity (≤20 mM) can be used to increase strawberry fruit value, but should be combined with an appropriate nutrient regime to avoid harm to flavour quality. The varieties Elsanta and Elsinore are both suitable for salt treatment, but Elsanta is better for antioxidant and phenolic production, as well as being more salt tolerant
使用盐度提高草莓的营养和市场价值
植物通过产生抗氧化剂和渗透物来应对盐度;其中一些对人类有营养价值(如酚类物质),或者可以改善农产品的感官质量(如糖)。本研究采用0、10、20、40 mM NaCl对草莓进行灌溉,测定了不同处理对草莓抗氧化剂、酚类物质和风味特性的影响。盐胁迫与抗氧化剂浓度之间呈线性正相关,DPPH抗氧化反应比FRAP反应更明显。尽管总酚类物质与花青素和总黄酮亚类之间的趋势有所不同,但在所有处理水平上,酚类物质均随盐度的增加而增加,具有统计学意义。结果表明,对产量影响较小的轻度盐度(10 mM)可以提高抗氧化剂(比对照高6-10%)和总酚类物质(比对照高11-16%)。但在低于20 mM NaCl的处理中,品种间的差异超过了盐度的差异。我们发现草莓中的糖分(与其他水果不同)并没有因盐处理而增加。在盐度条件下,有机酸是比糖更重要的渗透物。然而,研究人员也确定,草莓在盐胁迫下无法增加可溶性糖,这可以用研究人员使用的精益营养体系来解释,这并不代表商业生产实践。在实际应用中,轻度盐度(≤20 mM)可以提高草莓果实价值,但应配合适当的营养方案,避免对风味品质造成损害。埃尔桑塔和埃尔西诺都适合盐处理,但埃尔桑塔的抗氧化和酚类生产能力更好,耐盐性更强
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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