La (NO3)3 substantially fortified Glycyrrhiza uralensis's resilience against salt stress by interconnected pathways.

The taproot of Glycyrrhiza uralensis is globally appreciated for its medicinal and commercial value and is one of the most popular medicinal plants. With the decline of wild G. uralensis resources, cultivated G. uralensis has become a key method to ensure supply. However, soil salinization poses challenges to G. uralensis cultivation and affects the yield and quality of it. In this study, the inhibitory effects of NaCl and Na₂SO₄ on yield and quality of G. uralensis were comprehensively evaluated in a three-year large-scale pot experiment, and the alleviating effects of supplementation with lanthanum nitrate (La (NO₃)₃) on G. uralensis were further evaluated under salt stress. The findings indicate that La (NO₃)₃ significantly strengthened the plant's salt tolerance by enhancing photosynthetic capacity, osmolyte accumulation, antioxidant defenses, and cellular balance of ions, which led to a substantial increase in root biomass and accumulation of major medicinal components. In comparison to the NaCl-stress treatment, the 0.75 M La (NO₃)₃ + NaCl treatment resulted in a 20% and 34% increase in taproot length and biomass, respectively, alongside a 52% and 43% rise in glycyrrhizic acid and glycyrrhizin content, respectively. Similar improvements were observed with 0.75 M La (NO₃)₃ + Na₂SO₄ treatment, which increased root length and biomass by 14% and 26%, respectively, and glycyrrhizic acid and glycyrrhizin content by 40% and 38%, respectively. The combined showed that application of La (NO₃)₃ not only significantly improved the salt resilience of G. uralensis, but also had a more pronounced alleviation of growth inhibition induced by NaCl compared to Na₂SO₄ stress except in the gas exchange parameters and root growth. This study provides a scientific basis for high-yield and high-quality cultivation of G. uralensis in saline soils and a new approach for other medicinal plants to improve their salt tolerance. Highlights: 1. Novel Agricultural Application of Lanthanum: Our research delves into the innovative use of the rare earth element lanthanum in agriculture, with a particular focus on its potential to enhance the salt tolerance of medicinal plants. This work offers a fresh perspective on the multifaceted applications of rare earth elements in agricultural production. 2. Enhanced Salt Tolerance in Medicinal Plants. 3. Improved Plant Performance Under Salinity. 4. Strategic Implications for Medicinal Plant Cultivation. [ABSTRACT FROM AUTHOR]