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β-carotene Supply to Dill Plants Grown in Sulphur and Humic Acid-amended Soil Improves Salinity Tolerance via Quenching the Hazard Molecules

Khaled M. A. Ramadan, Hossam S. El‐Beltagi, M. S. Al Saikhan, Hayfa Habes Almutairi, Sallah A. Al‐Hashedi, Hani Saber Saudy, Omar A. A. I. Al‐Elwany, Khaulood A. Hemida, Taia Abd El-Mageed, S. Youssef

2024Russian Journal of Plant Physiology30 citationsDOI

Abstract

Abstract Remediation and cultivation of salinized soils are regarded as a significant solution for increasing the agricultural production. However, crops are dramatically injured by salts that accumulate in the root zone layer. The current investigation is an attempt to protect dill (Anethum graveolens L.) plants from the hazards of salinity via soil amendments (SA), i.e. sulphar (S) and humic acid (HA) or their combinations (SHA), as well as β-carotene (βC). SA involved S at a rate of 500 kg/ha, HA at a rate of 20 kg/ha, and SHA (10 : 1 (w/w)), in addition to the control (without amendments). βC was foliar sprayed at concentrations of 50, 150 µM, and distilled water (0.0 µM). SHA × βC practice exhibited the highest increases in all plant pigments contents and shoot dry weight. Soil applied-SHA × 150 µM βC reduced hydrogen peroxide and malondialdehyde and increased both aglycon and glycon compared to the control. Salty-lime soil applied-SHA plus 150 µM βC generated the highest significant increases in ascorbate peroxidase, catalase, ascorbic acid and glycine, respectively. Furthermore, soil treated-SHA × 150 µM βC surpassed soil treated-HA × 150 µM βC or soil treated-S × 150 µM βC combinations for increasing nitrogen, phosphorus, potassium and calcium while decreasing sodium in dill leaf. Under 150 µM βC application, SHA and HA were the potent treatments for improving dill seed yield and oil yield in saline soil. In conclusion, for boosting plant tolerance to salinity while obtaining high yielding and quality, it should perform supply plants with 150 µM βC and amending soil by SHA in dill cultivation practices.

Topics & Concepts

SulfurPlant physiologySalinityChemistryQuenching (fluorescence)Humic acidEnvironmental chemistryBotanyOrganic chemistryBiologyFluorescenceFertilizerEcologyPhysicsQuantum mechanicsPlant Growth Enhancement TechniquesPlant Stress Responses and ToleranceAgronomic Practices and Intercropping Systems
β-carotene Supply to Dill Plants Grown in Sulphur and Humic Acid-amended Soil Improves Salinity Tolerance via Quenching the Hazard Molecules | Litcius