Mitigation of the adverse effects of combined salinity and heat stresses on tomato plants by salt repellent and anti-stressor applications

Sharaf-Eldin, Mohamed Ali; Bayoumi, Yousry; Hashem, Ahmed; El-Henawy, Ahmed S.; Okasha, Abdelaziz Mohamed; Soltan, Mahmoud; Farouk, El-aidy

doi:10.21608/ejss.2025.427681.2389

	Mitigation of the adverse effects of combined salinity and heat stresses on tomato plants by salt repellent and anti-stressor applications
Egyptian Journal of Soil Science
Volume 65, Issue 4, December 2025
Document Type: Original Article
DOI: 10.21608/ejss.2025.427681.2389
Authors
Mohamed Ali Sharaf-Eldin¹; Yousry Bayoumi^* ²; Ahmed Hashem²; Ahmed S. El-Henawy³; Abdelaziz Mohamed Okasha⁴; Mahmoud Soltan⁵; El-aidy Farouk²
¹Horticulture, Fac. of Agri., Kafrelsheikh Univ.
²Horticulture Dept., Fac of Agriculture, Kafrelsheikh University
³Department of Soil and Water, Faculty of Agriculture, Kafr El-Sheikh University, Egypt
⁴Prof. of on-farm irrigation and drainage engineering, Agricultural Engineering Department, Faculty of Agriculture, Kafrelsheikh University, Kafr El-Sheikh 33516, Egypt
⁵Horticulture Research Institute, Sakha Station
Abstract
High temperature and salinity are critical abiotic stresses that severely limit tomato production, especially in coastal farmlands of arid and semi-arid regions. The current study was conducted in the north River Nile Delta close to Mediterranean Sea coast to evaluate the performance of tomato plants under combined heat and salinity stresses during the late summer season. Treatments included the application of salt repellent through the irrigation system and/or foliar spray with an anti-stressor. The effect of salt repellent and/or anti-stressor applications on plant growth, photosynthesis activity, antioxidant enzymes activity, flowering and fruit yield as well as fruit quality were investigated in comparison to untreated plants. Salt repellent contained Ca, fulvic acid, legnosulphenic acid and organic acids, however, the foliar spray anti-stressor contained a solution of Mn and amino acids (lysine, proline, glutamic and glycine). The results showed the significant reduction by applying both of salinity repellent and anti-stress in soil salts by about 26.5 and 13.2% in both seasons, respectively compared to control treatment. Results showed that untreated plants were highly affected by heat and salinity, exhibiting reduced growth, photosynthetic activity, and yield. However, the studied anti-stressors improved plant growth, biomass, leaf area, photosynthesis, antioxidant enzymes activity, proline content, flowering attributes, and fruit yield and quality. Total fruit yield was increased by 25.2-34.6% when the plant treated by salt repellent and by 10-24% with foliar spray by anti-stressor and by 14-22% with the combined treatment of salt repellent and anti-stressor application. These ratios were also achieved for water productivity and the extent of utilization of the cubic meter used for irrigation. These findings emphasize the role of anti-stressors in mitigating heat and salinity impacts on tomato, suggesting that further research should optimize formulations and application methods to improve crop adaptation under combined environmental conditions to support small farmers in the affected farmlands
Keywords
Amino acids; Ca; Mn; Biochemical aspects; Fruit yield; Fruit quality

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