Combined Effect of Salt Stress and Nitrogen Level on the Primary Metabolism of Two Contrasting Hydroponically Grown Cichorium spinosum L. Ecotypes

Stamnagathi (Cichorium spinosum L.) is an indigenous plant species well-known for its health-promoting properties. Salinity is a long-term issue with devastating consequences on land and farmers. Nitrogen (N) constitutes a crucial element for plant growth and development (chlorophyll, primary metabolites, etc.). Thus, it is of paramount importance to investigate the impact of salinity and N supply on plants' metabolism. Within this context, a study was conducted aiming to assess the impact of salinity and N stress on the primary metabolism of two contrasting ecotypes of stamnagathi (montane and seaside). Both ecotypes were exposed to three different salinity levels (0.3 mM-non-saline treatment, 20 mM-medium, and 40 mM-high salinity level) combined with two different total-N supply levels: a low-N at 4 mM and a high-N at 16 mM, respectively. The differences between the two ecotypes revealed the variable responses of the plant under the applied treatments. Fluctuations were observed at the level of TCA cycle intermediates (fumarate, malate, and succinate) of the montane ecotype, while the seaside ecotype was not affected. In addition, the results showed that proline (Pro) levels increased in both ecotypes grown under a low N-supply and high salt stress, while other osmoprotectant metabolites such as gamma-aminobutyric acid (GABA) exhibited variable responses under the different N supply levels. Fatty acids such as alpha-linolenate and linoleate also displayed variable fluctuations following plant treatments. The carbohydrate content of the plants, as indicated by the levels of glucose, fructose, alpha,alpha-trehalose, and myo-inositol, was significantly affected by the applied treatments. These findings suggest that the different adaptation mechanisms among the two contrasting ecotypes could be strongly correlated with the observed changes in their primary metabolism. This study also suggests that the seaside ecotype may have developed unique adaptation mechanisms to cope with high N supply and salinity stress, making it a promising candidate for future breeding programs aimed at developing stress tolerant varieties of C. spinosum L.

Automated summary

This study aimed to investigate the impact of salinity and nitrogen supply on the primary metabolism of two ecotypes of Stamnagathi. The results showed that the montane ecotype had fluctuations in TCA cycle intermediates, while the seaside ecotype remained unaffected. Increase in proline levels and variable responses of other osmoprotectant metabolites were observed under low nitrogen supply and high salt stress conditions. The carbohydrate content of the plants was significantly affected by the treatments. The study also suggests that the seaside ecotype may have developed unique adaptation mechanisms, making it a promising candidate for breeding stress-tolerant varieties of C. spinosum.