AI Article Synopsis
- Salinity is a significant barrier to plant growth, affecting regions with high salt exposure, and the study focuses on a specific plant species known for its tolerance to these conditions.
- A pot experiment was designed to explore how varying levels of soil and water salinity affect plant growth, comparing conditions with and without salt leaching.
- Results showed that high salinity dramatically hindered plant growth and caused more issues with sodium accumulation under no salt leaching compared to leaching, highlighting the importance of water management in saline environments.
Article Abstract
Salinity is a major constraint for plant growth in world areas exposed to salinization. (L.) Moench is a species that has received attention for biomass production in saline areas thanks to drought and salinity tolerance. To improve the knowledge in the mechanisms of salt tolerance and sodium allocation to plant organs, a pot experiment was set up. The experimental design combined three levels of soil salinity (0, 3, and 6 dS m) with three levels of water salinity (0, 2-4, and 4-8 dS m) and two water regimes: no salt leaching (No SL) and salt leaching (SL). This latter regime was carried out with the same three water salinity levels and resulted in average +81% water supply. High soil salinity associated with high water salinity (HSS-HWS) affected plant growth and final dry weight (DW) to a greater extent in No SL (-87% DW) than SL (-42% DW). Additionally, HSS-HWS determined a stronger decrease in leaf water potential and relative water content under No SL than SL. HSS-HWS with No SL resulted in a higher Na bioaccumulation from soil to plant and in translocation from roots to stem and, finally, leaves, which are the most sensitive organ. Higher water availability (SL), although determining higher salt input when associated with HWS, limited Na bioaccumulation, prevented Na translocation to leaves, and enhanced selective absorption of Ca vs. Na. At plant level, higher Na accumulation was associated with lower Ca and Mg accumulation, especially in No SL. This indicates altered ion homeostasis and cation unbalance.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7284944 | PMC |
| http://dx.doi.org/10.3390/plants9050561 | DOI Listing |
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