Pomology
Fatemeh Javan; Yahya Selahvarzi; Maryam Kamali
Abstract
Introduction
Today, in the commercial production of strawberries, short day cultivars are used due to having large fruits of desirable quality. Among the short day cultivars available in Iranare Camarosa, Atabaki, Gaviota, Queen Aliza, Paros and McDonance, which can be cultivated ...
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Introduction
Today, in the commercial production of strawberries, short day cultivars are used due to having large fruits of desirable quality. Among the short day cultivars available in Iranare Camarosa, Atabaki, Gaviota, Queen Aliza, Paros and McDonance, which can be cultivated at greenhouse. Titanium dioxide (TiO2) nanoparticles are one of the metal oxides that exist in three forms of rutile, brookite and anatase, which affect growth, enzymatic activity and photosynthesis. Reported titanium nano dioxide in the highest concentration used (11.5 mg/l) increases fruit formation percentage, leaf chlorophyll content, vitamin C content, fruit ripening index, fresh and dry weight of roots and shoots and yield of strawberries. In another study, it was shown that titanium dioxide treatment under drought stress can increase photosynthetic pigments, total soluble solids, vitamin C, phenol, flavonoid, anthocyanin, and antioxidant activity, and it also improved plant performance. increase the strawberry cultivar Ventana compared to the control treatment. In a research found that spraying titanium increases the biomass, fertility and quality of peach fruit. It has alsow been showed that the pomegranate size of flowers and fruits increased with using titanium nano dioxide, and this can increase the quantity and quality of Alberta peach cultivar. Foliar application of titanium nano dioxide in cucumber has been reported to increase photosynthesis and phenolic content and reduce lipid peroxidation. In a research, it was shown that titanium dioxide nanoparticles increased photosynthesis rate, water conductivity and transpiration rate in tomato leaves. Despite the effect of titanium dioxide nanoparticles on the quantitative and qualitative improvement of some agricultural products, the researches conducted on strawberry plants were not complete or were only conducted on a specific variety. Therefore, with the aim of investigating and comparing the morphological and biochemical traits of some commercial strawberry cultivars under the effect of foliar spraying with titaniumdioxide, the above research was conducted.
Materials and Methods
This research was conducted to investigate the effect of nano titanium dioxide foliar spraying on four strawberry cultivars in the hydroponic greenhouse of the Department of Horticultural Sciences, Faculty of Agriculture, Ferdowsi University of Mashhad in 2020-2021. Experimental treatments included 4 levels of titanium nano dioxide (0, 5, 10 and 20 mg/l) and 4 strawberry cultivars (Sabrina, Paros, Gaviota and Camarosa) with 4 replications. The research was done in a factorial manner based on a completely random design. JMP 8 software was used to perform variance analysis and compare the averages of the measured traits. Means were compared using Tukey test at 5% probability level and graphs were drawn using Excel 2010 software.
Results and Discussion
According to the tables of mutual effects of titanium dioxide nano treatments and varieties, it can be found that the application of titanium dioxide nanoparticles had a positive effect on the desired characteristics in all four studied strawberry varieties. So that the application of different levels of titanium dioxide nano particles causes a significant increase in quantitative traits (number of leaves, leaf area, root length, fresh and dry weight of aerial and root parts, photosynthetic pigments) The yield-dependent traits compared to the control plants were found in strawberry-strawberry cultivars. Nano titanium dioxide had an effect in increasing the number of fruits and vegetative traits of all investigated cultivars, in such a way that, on the one hand, with a balanced increase in vegetative growth, and on the other hand, improving the efficiency of photosynthesis and absorption through the roots and increasing the percentage of fruit formation. , increased the yield per plant. Also, sprinkling of titanium nanoparticles on all levels caused a significant increase in juice pH, TSS, TA, vitamin C, anthocyanin, total phenol, flavonoid and in general qualitative traits compared to the control. In the treatment of nano titanium dioxide, especially at the level of 10 mg/liter, better results were observed.
Conclusion
According to the results, the use of Paros and Gaviota cultivars is recommended to farmers and agricultural researchers due to its high yield and good quality.
Bahram Behzadi; Ali Rahemi Karizaki
Abstract
Introduction: Tomato is a major source of the antioxidant, lycopene, which has been linked to many health benefits, including reduced risk of heart disease and cancer. It is also a great source of vitamin C, potassium, folate and vitamin K. Optimal planting dates and appropriate cultivars are farm management ...
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Introduction: Tomato is a major source of the antioxidant, lycopene, which has been linked to many health benefits, including reduced risk of heart disease and cancer. It is also a great source of vitamin C, potassium, folate and vitamin K. Optimal planting dates and appropriate cultivars are farm management cases that are effective in increasing yield. The purpose of the planting date is to find the planting time of a cultivar or a group of similar varieties of a plant so that the set of environmental factors at that time would be appropriate for the emergence, establishment and survival of the seedlings. Because of off-season production, tomato has a high economic status in Bushehr Province. Some researchers reported that cultivars with larger fruits had the lowest number of fruits per plant. By investigating the response of tomatoes to time of transplantation, fruit yield and crop characteristics of the cultivars, a number of researchers reported that the date of transplantation had a significant effect on the number of days to flowering, the number of branches per plant, the diameter of the fruit, the number of fruits per Plant and fruit yield, early transfer of seedlings increased the harvest period, while late planting date was significantly effective on flowering, and the plants sooner went to flower.
Materials and Methods: The study was conducted in order to determine the best transplanting date and tomato cultivars. An experiment was carried out in Randomized Completely Block Design with four levels of transplanting dates (6 Sep, 27 Sep, 17 Oct and 6 Nov) in main plots and four cultivars (Petopride 2, Peto Early CH, Cal J-N3 and Kimia) in sub plots with four replications in Bushehr Agricultural and Natural research resource center during 2009-2011.The spacing between rows of planting was 140 cm and plant spacing was 50 cm. Each plot included 4 planting lines of 4 meters long. Before planting in the summer, land preparation was done between June and August. The amount of fertilizer was determined based on soil test results. Phosphorus fertilizers, potassium, micronutrient and one third of nitrogen fertilizers and iron sequestrons, along with decayed animal manure, were mixed prior to deployment of type tubes and mixed with soil. One third of nitrogen fertilizers and iron sequestrons were given during flowering and one-third remained at the time of fruit start. Irrigation was carried out on a regular basis, taking into account the weather conditions and plant requirements. After each harvest, fruit yield, fruit number per plant, fruit weight, yield per plant were measured. To determine the length and diameter of fruit, acidity and soluble solids from each plot, 10 fruits were selected randomly.
Results and Discussion: Interaction effect among the tomato cultivars and transplanting dates on fruit yield, yield per plant, number of fruits per plant, fruit weight and fruit diameter were significant at 1% probability level. In the first year, the highest total yield and fruit yield per plant were obtained from the transplanting date of 6 September and Potoperide 2 cultivar, and the lowest yield was produced with November 15 transplanting date and Kimia cultivar. In the second year, the highest total yield and fruit yield per plant were obtained from the transplanting date of 27 September and kimia cultivar, and the lowest amount was obtained from the transplanting date of 6 November and Peto Early CH cultivar. Planting date is one of the most important management practices which affects the crop growth through the effect on photoperiod, day and night temperature, light intensity and soil moisture. In most cases, earlier planting dates due to the longer vegetative and reproductive growth period of the plant may improve the allocation of photosynthetic materials to the plants.
Conclusions: This study showed that fruit yield and yield components were significantly affected by planting date and cultivars. Generally, delay in planting reduces fruit yield, plant yield, fruit weight and number of fruits per plant. Environmental factors such as light, temperature, CO2, moisture content can be changed from year to year. These factors affect the number of flowers formed in the plant, their pollination, the percentage of fruit formation. Also, the potential of cultivars had a significant effect on yield and its components and the cultivars producing the shorter fruit had the least number of fruits per plant.
Morteza Sadeghi Chrori; Ahmad Golchin; Seyyed Najmodin Mortazavi
Abstract
In order the study the effects of cultivar, foliar fertilization and plant density on quantitative and qualitative traits and vase life of cut lilium a split plot factorial experiment with three replications was carried out. Foliar fertilization as the first factor included different concentrations ...
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In order the study the effects of cultivar, foliar fertilization and plant density on quantitative and qualitative traits and vase life of cut lilium a split plot factorial experiment with three replications was carried out. Foliar fertilization as the first factor included different concentrations of a complete fertilizer (Foster fertilization + Ammonium nitrate) and had four levels (0, 2000, 4000 and 6000pm) and was located in main plots. Cultivar and plant density each had two levels and factorial combinations of them were located in sub–plots. Cultivars used in this study were Arcolano and Coca and were planted with densities of (20×15 and 30×25 cm). At the end of growth period, traits such as bulb weight, plant height, chlorophyll content of leaf, vase life of cut flower, number of flower per plant and Macro-and micro nutrients contents of leaf were measured. The result of analysis of variance showed that the effects of foliar fertilization were significant on plant height, vase life of cut flower and N, P and K contents of leaf. Foliar fertilization lilium with concentration of 4000 ppm created the height vase life of cut flower. The effects of cultivar were significant an all measured traits except on vase life of cut flower and P and Zn contents of leaf. The Arcolano cultivar was superior to Conca cultivar in respects to the measured traits. The effects of plant density were significant only on K and Fe contents of leaf. But plant density of 30× 25 had higher bulb and flower yield and quality. The results of this study indicate that for increasing yield and quality of cut lilium planting of Arcolano cultivar, with density of 30×25 cm and foliar fertilization of lilium plant with a complete fertilizer (Foster fertilizer + Ammonium nitrate) with concentration of 4000 ppm is recommended.
