Khiermohammad Mohammadi; Ali Ebadi; Mohammad Ali Askari Sarchishmeh; Mohammad Reza fattahi Moghaddam; Hossein Hokmabadi
Abstract
Plants employ antioxidant mechanism to face different stresses. In this research work the effect of salinity stress, caused by increasing sodium chloride, on the antioxidative system and some physiological characteristics of selected pistachio seedlings (Badami-Riz-e- Zarand, Qazvini, Sarakhs, Atlantica ...
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Plants employ antioxidant mechanism to face different stresses. In this research work the effect of salinity stress, caused by increasing sodium chloride, on the antioxidative system and some physiological characteristics of selected pistachio seedlings (Badami-Riz-e- Zarand, Qazvini, Sarakhs, Atlantica UCB1, and Hybrids of Pistacia. vera cv. Badami-Riz-e-Zarand × P. Integerrima, P. vera cv. Sharakhs× P. Integerrima, P. atlantica Desf. × P. Integerrima ) was studied. A greenhouse experiment was conducted as a factorial based on a completely randomized design with three replications in Cocopit and Perlite media. Treatments consisted of four salinity levels (0, 75, 150 and 225 mM NaCl) and above mentioned Root stocks. Using salt in nutrient solution was carried out in the second year of seedling growth for nine weeks. At the end of experiment, some physiological and biochemical traits of seedlings were measured. Results showed that, leaf area and total chlorophyll contents decreased in all treated plants. Under the salinity stress, a higher reduction in the observed traits was noticed in the Atlantica rootstock while less effect on the Badami-Riz-e-Zarand was noticed. Also, it has been found that by increasing salinity levels the levels of proline, total phenol content and antioxidant enzymes activity were higher in Badami-Riz-e-Zarand × P. Integerrima, Badami-Riz-Zarand and Qazvini compared to others. It seems that Hybrid of Badami-Riz-e-Zarand × P. Integerrima, Badami-Riz-Zarand and Qazvini rootstocks had more ability to sustain leaf water and proteins and therefore, were more resistant to salinity stress.
Negar Saemi; Mohammad Javad Nazarideljou; Nabi Khezri Nezhad
Abstract
This experiment was conducted to evaluate the effects of Ajowan's (Carum copticum) essential oil as a natural and non-chemical fungicide on flower longevity and gray mold infection as the most important agent of rose postharvest losses. Different essential oil concentrations of Ajowan (0, 300 600 and ...
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This experiment was conducted to evaluate the effects of Ajowan's (Carum copticum) essential oil as a natural and non-chemical fungicide on flower longevity and gray mold infection as the most important agent of rose postharvest losses. Different essential oil concentrations of Ajowan (0, 300 600 and 900 µL/L) applied as a postharvest foliar application on rose cut flowers (Rosa × hybrida cv. Angelina) which inoculated with gray mold fungus compared to the control (non-contaminated). Based on the results, enzymatic antioxidant capacity (CAT and POD), lipid peroxidation, vase life and gray mold contamination were affected significantly by gray mold infection and foliar application of Ajowan essential oil. According to the results, the minimum gray mold infection was observed at the highest essential oil level 900 µL/L. The highest flower vase life of roses which were inoculated by gray mold was observed at 600 µL/L; while maximum flower vase life was observed at the same concentration but in non-inoculated flowers by gray mold (control plants). The results of the present experiment led to conclude that increasing of flower longevity of infected roses by gray mold under Ajowan's essential oil was achieved because of lipid peroxidation reduction and ion leakage as well as a consequence of antioxidant activity which has been happened under essential oil treatments.