Your search keyword '"El-Samahy Hamed"' showing total 3 results

1. Grafting Improves Fruit Yield of Cucumber Plants Grown under Combined Heat and Soil Salinity Stresses

Author

Emad Abd-Alkarim, Hassan El-Ramady, Jaime Prohens, F. El-Aidy, El-Samahy Hamed, Yousry Bayoumi, Naglaa Taha, and Mohamed Rakha

Subjects

0106 biological sciences, Soil salinity, Proline, Vegetative reproduction, Plant Science, lcsh:Plant culture, Horticulture, 01 natural sciences, Antioxidants, Cucumis sativus, 03 medical and health sciences, chemistry.chemical_compound, lcsh:SB1-1110, 030304 developmental biology, Peroxidase, Rootstocks, 0303 health sciences, biology, food and beverages, biology.organism_classification, Grafting, Abiotic stress, Catalase, 02.- Poner fin al hambre, conseguir la seguridad alimentaria y una mejor nutrición, y promover la agricultura sostenible, Salinity, GENETICA, chemistry, Chlorophyll, Rootstock, Cucumis, Cucurbita maxima, 010606 plant biology & botany

Abstract

Improving the productivity of cucumber (Cucumis sativus L.) plants subjected to combined salinity and heat stresses is a significant challenge, particularly in arid and semi-arid regions. Gianco F1 cucumbers were grafted onto five cucurbit rootstocks and, together with an ungrafted control, were grown in Egypt in a net house with saline soil during the summer season over two years. The vegetative growth, yield, quality, biochemical, and mineral composition traits were measured. Although many differences were observed among treatments, in general, the grafted plants had a performance better than or similar to that of the ungrafted plants, based on the different parameters measured. In particular, the cucumber plants grafted onto the Cucurbita maxima × C. moschata interspecific hybrid rootstocks VSS-61 F1 and Ferro had the highest early and total marketable yields. These two rootstocks consistently conferred higher vigor to the scion, which had lower flower abortion rates and higher chlorophyll contents. The fruit quality and N, P, and K composition in the leaves suffered few relevant changes as compared with the control. However, the leaves of the VSS-61 F1 had higher catalase activity, as well as proline and Se contents, while those of Ferro had higher Si content. This study reveals that the grafting of cucumber plants onto suitable rootstocks may mitigate the adverse effects caused by the combination of saline soil and heat stresses. This represents a significant improvement for cucumber cultivation in saline soil under high-temperature stress conditions in arid regions.

Published

2021

2. Nano-selenium, silicon and H

Author

Tarek A, Shalaby, Emad, Abd-Alkarim, Farouk, El-Aidy, El-Samahy, Hamed, Mohamed, Sharaf-Eldin, Naglaa, Taha, Hassan, El-Ramady, Yousry, Bayoumi, and André Rodrigues, Dos Reis

Subjects

Plant Leaves, Salinity, Selenium, Silicon, Soil, Fruit, Hydrogen Peroxide, Cucumis sativus, Antioxidants, Heat-Shock Response

Abstract

The production of cucumber under combined salinity and heat stress is a crucial challenge facing many countries particularly in arid environments. This challenge could be controlled through exogenous foliar application of some bio-stimulants or anti-stressors. This study was carried out to investigate the management and improving cucumber production under combined salinity and heat stress. Nano-selenium (nano-Se, 25 mg L

Published

2020

3. Nano-selenium, silicon and H2O2 boost growth and productivity of cucumber under combined salinity and heat stress

Author

Tarek A. Shalaby, Emad Abd-Alkarim, Yousry Bayoumi, El-Samahy Hamed, F. El-Aidy, Mohamed Sharaf-Eldin, Hassan El-Ramady, André Rodrigues dos Reis, Naglaa Taha, University of Kafrelsheikh, King Faisal University, Agriculture Research Center, Kafrelsheikh University, and Universidade Estadual Paulista (Unesp)

Subjects

Soil salinity, Health, Toxicology and Mutagenesis, chemistry.chemical_element, Antioxidants, Environmental pollution, Nutrient, GE1-350, Peroxidase, Transpiration, Electrolyte leakage, biology, Public Health, Environmental and Occupational Health, food and beverages, General Medicine, Catalase, Pollution, Economic evaluation, Environmental sciences, Salinity, Horticulture, TD172-193.5, Productivity (ecology), chemistry, Osmoregulation, biology.protein, Selenium

Abstract

Made available in DSpace on 2021-06-25T10:22:08Z (GMT). No. of bitstreams: 0 Previous issue date: 2021-04-01 The production of cucumber under combined salinity and heat stress is a crucial challenge facing many countries particularly in arid environments. This challenge could be controlled through exogenous foliar application of some bio-stimulants or anti-stressors. This study was carried out to investigate the management and improving cucumber production under combined salinity and heat stress. Nano-selenium (nano-Se, 25 mg L-1), silicon (Si, 200 mg L−1) and hydrogen peroxide (H2O2, 20 mmol L−1) were foliar applied on cucumber plants as anti-stress compounds. The results revealed that studied anti-stressors improved growth and productivity of cucumber grown in saline soil regardless the kind of anti-stressor under heat stress. The foliar application of nano-Se (25 mg L−1) clearly improved cucumber growth parameters (plant height and leaf area) compared to other anti-stressor and control. Foliar Si application showed the greatest impact on enzymatic antioxidant capacities among the other anti-stressor treatments. This applied rate of Si also showed the greatest increase in marketable fruit yield and yield quality (fruit firmness and total soluble solids) compared to untreated plants. These increases could be due to increasing nutrient uptake particularly N, P, K, and Mg, as well as Se (by 40.2% and 43%) in leaves and Si (by 11.2% and 22.1% in fruits) in both seasons, respectively. The potential role of Si in mitigating soil salinity under heat stress could be referred to high Si content found in leaf which regulates water losses via transpiration as well as high nutrient uptake of other nutrients (N, P, K, Mg and Se). The distinguished high K+ content found in cucumber leaves might help stressed plants to tolerate studied stresses by regulating the osmotic balance and controlling stomatal opening, which support cultivated plants to adapt to soil salinity under heat stress. Further studies are needed to be carried out concerning the different response of cultivated plants to combined stresses. Horticulture Department Faculty of Agriculture University of Kafrelsheikh Department of Arid Land Agriculture College of Agricultural and Food Science King Faisal University, P.O. 400 Vegetable crops Department Horticulture Institute Agriculture Research Center Plant Pathology Research Institute Agriculture Research Center Soil and Water Dept. Faculty of Agriculture Kafrelsheikh University Physiology & Breeding of Horticultural Crops Laboratory Horticulture Dept. Faculty of Agriculture Kafrelsheikh University Department of Biosystems Engineering School of Sciences and Engineering São Paulo State University (UNESP) Department of Biosystems Engineering School of Sciences and Engineering São Paulo State University (UNESP)

Published

2021