# Magnesium Leaf Application as a Rapid Tool for Salt Stress Resistance in Faba Beans (Vicia faba L.)

**Authors:** Divya Parisa, Muna Ali Abdalla, Amit Sagervanshi, Karl Hermann Mühling

PMC · DOI: 10.3390/plants15050765 · Plants · 2026-03-02

## TL;DR

This study shows that applying magnesium to the leaves of faba beans helps them resist salt stress by restoring ionic balance and improving plant health.

## Contribution

The study reveals magnesium's critical role in ionic homeostasis under salt stress, beyond potassium's influence.

## Key findings

- Mg2+ deficiency under salt stress caused a 14-fold increase in leaf Na+ concentration.
- Foliar Mg2+ application reduced the toxic Na+/Mg2+ ratio by 90% and restored plant growth and gas exchange.
- Mg2+ is a unique regulator of ion balance that cannot be replaced by K+ supplementation alone.

## Abstract

Potassium (K+) is often the primary target for research on salinity stress. However, the role of magnesium (Mg2+) under salinity stress has not been properly investigated. We aimed to answer the following question: could magnesium (Mg2+), often neglected, be the real protector of ionic balance under salt stress? It is known that a deficiency in Mg2+ increases K+ uptake. Based on this understanding, we hypothesized that Mg2+ starvation could worsen salinity defenses compared to K+ starvation. The nutrient concentration of 0.02 mM Mg2+ was maintained in the nutrient solution to induce Mg2+ deficiency in Vicia faba plants. Mg2+ foliar application was carried out five times, at an interval of two times a week, over two weeks of induced salinity stress. Harvesting was carried out 45 days after transplanting, i.e., 2 weeks after salinity stress (50 mM NaCl) was initiated at 4 weeks of transplanting. Salinity had the highest impact on Mg2+-deficient plants, resulting in a major alteration in ionic composition. Mg2+ deficiency under salt stress resulted in a 14-fold increase in the leaf Na+ concentration compared to controls. Application of foliar Mg2+ was very effective in reversing the loss of Mg2+-deficient plants, renewing growth, gas exchange, and stomatal activity, and reducing the toxic Na+/Mg2+ ratio (by 90%). Mg2+ is a unique regulator of ion homeostasis in salinity stress, and its deficiency causes an imbalanced ionic medium that cannot be normalized through K+ supplementation alone. Therefore, the strategic method of selective foliar application of Mg2+ is a necessary approach for achieving high-quality yields in salt-affected croplands.

## Linked entities

- **Chemicals:** Mg2+ (PubChem CID 888), K+ (PubChem CID 813), NaCl (PubChem CID 5234), Na+ (PubChem CID 923)
- **Species:** Vicia faba (taxon 3906)

## Full-text entities

- **Chemicals:** Mg2+ (-), K+ (MESH:D011188), Na+ (MESH:D012964), Magnesium (MESH:D008274), Salt (MESH:D012492), NaCl (MESH:D012965)
- **Species:** Vicia faba (broad bean, species) [taxon 3906]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12986746/full.md

## References

33 references — full list in the complete paper: https://tomesphere.com/paper/PMC12986746/full.md

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Source: https://tomesphere.com/paper/PMC12986746