4.3 Article

The Effects of Salicylic Acid and Silicon on Safflower Seed Yield, Oil Content, and Fatty Acids Composition under Salinity Stress

期刊

SILICON
卷 15, 期 9, 页码 4081-4094

出版社

SPRINGER
DOI: 10.1007/s12633-023-02308-7

关键词

Capitulum number; Harvest index; Linoleic acid; Oil yield; Seed protein; Stearic acid

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Soil and water salinization poses a global threat to crop production and food security. The use of phytohormones and nutrient management is a novel approach to mitigate the negative effects of salinity. This study investigated the effects of foliar application of salicylic acid (SA) and silicon (Si) on safflower seed yield and quality under different levels of salt stress. The results showed that SA and Si increased seed yield, oil content, and linoleic acid content, while decreasing stearic and palmitic acid content. Additionally, SA and Si had different effects on the nutrient content of the seeds, with an increase in nitrogen and potassium content observed under both stress and non-stress conditions.
Soil and water salinization is a global treat for crop production and food security. Apply of phytohormones and nutrient management is a novel approach to reduce the negative impact of salinity. Hence the effects of salicylic acid (0, 600, 1200, and 1800 mu M) and silicon (0, 1.5, and 2.5 mM) foliar application on safflower (Carthamus tinctorius L.) seed yield and quality were investigated under salt stress conditions (1.7, 7.5, and 15 dS m(- 1)). Salinity decreased capitulum number, seed number per capitulum, 100-seed weight, seed yield, oil percentage, oil yield, linoleic acid content, palmitic and linoleic acids yield, and seed potassium content. Application of salicylic acid (SA) and silicon (Si) increased biological and seed yield, oil content, oil yield, linoleic acid content, palmitic and linoleic acid yield but decreased stearic and oleic acid content and oleic acid yield. The harvest index (HI) was decreased with increasing salinity levels, indicating a stronger effect of salinity on seed yield more than biomass production. In contrast, SA and Si, whether alone or together, increased HI. The appropriate concentration of SA in saline and non-saline conditions was 1200 mu M, but Si was different in salinity levels. Under non-stress and moderate stress conditions 2.5 mM Si showed better performance, while at severe salinity level, 1.5 mM Si showed an appropriate state. Oil content and quality improved by increasing linoleic acid and reducing stearic and palmitic acids by application of SA and Si. The content of seed elements with the application of salt, SA and Si showed different trends. Nitrogen content increased under salt stress, but potassium content decreased and sodium content did not change under saline and non-saline conditions. The application of SA and Si increased nitrogen and potassium content in stressed and non-stressed conditions, but had no significant effect on the amount of sodium.

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