The Effect of Elevated Temperature on Salt Tolerance Mechanism in C4 Xero-Halophyte Kochia prostrata

The study of effect of elevated temperature on the mechanisms of salt tolerance in plants are of great interest and perspective under global climate change. This study investigated the individual and combined effects of prolonged heat and four days moderate salinity on morphophysiological and bioche...

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Published in:Russian journal of plant physiology 2022-12, Vol.69 (6), Article 137
Main Authors: Rakhmankulova, Z. F., Shuyskaya, E. V., Prokofieva, M. Yu, Toderich, K. N., Yamanaka, N., Voronin, P. Yu
Format: Article
Language:English
Subjects:
Acclimation
Acclimatization
Biomass
Biomedical and Life Sciences
Climate change
Combined stress
Energy costs
Global climate
Halophytes
Heat
High temperature
Ions
Life Sciences
Photosynthesis
Plant Physiology
Plant Sciences
Principal components analysis
Process parameters
Proline
Research Papers
Respiration
Salinity
Salinity effects
Salinity tolerance
Salt tolerance
Sodium
Temperature tolerance
Transpiration
Water use
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Summary:The study of effect of elevated temperature on the mechanisms of salt tolerance in plants are of great interest and perspective under global climate change. This study investigated the individual and combined effects of prolonged heat and four days moderate salinity on morphophysiological and biochemical parameters (biomass, photosystems I and II ( F v / F m ) efficiencies, apparent photosynthesis intensity, transpiration, dark respiration, water-use efficiency, contents of water, free proline, Na + and K + in aboveground parts of plants) in the С 4 xero-halophyte Кochia prostrata. The physiological processes and biochemical parameters actively involved during acclimation to stress under different treatments (control, heat, salinity, heat + salinity) were identified. A decrease in biomass and change in the K + /Na + ratio was observed under all treatments. Acclimation to heat resulted in increased dark respiration intensity (Rd) and K + content. Under salinity conditions, an increase in Na + content, a decrease in PSI efficiency and transpiration intensity were observed. Combined stress (heat + salinity) resulted in increased proline and Na + contents in addition to high values of Rd and K + . Principal component analysis showed that under combined stress, dark respiration, K + and proline are actively involved in acclimation. It was found that acclimation to elevated temperature affects the salt tolerance mechanisms in K. prostrata, since under combined stress, sodium ions accumulated 3-fold less than in plants under normal temperature and salinity. It is assumed that in K. prostrata plants grown at elevated temperature, K + and proline are more involved in the acclimation to salinity than Na + . Dark respiration is likely the source of additional energy costs. We conclude that acclimation of С 4 halophytes to elevated temperature changes the importance of sodium and potassium ions, as well as proline, in the mechanisms of salt tolerance.
ISSN:1021-4437
1608-3407
DOI:10.1134/S1021443722060322