maedeh fereshtian; Reza Salehi; abdolkarim kashi; Mesbah Babalar
Abstract
Objective: To investigate the physiological and biochemical effects of incompatibility between Khatooni melon (Cucumis melo GR. Inodorus accession Khatooni) scion on cucurbit rootstocks, a series of experiments was conducted in a randomized complete block design at the Horticultural Research Station ...
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Objective: To investigate the physiological and biochemical effects of incompatibility between Khatooni melon (Cucumis melo GR. Inodorus accession Khatooni) scion on cucurbit rootstocks, a series of experiments was conducted in a randomized complete block design at the Horticultural Research Station of the University of Tehran in Mohammadshahr, Karaj, in 2021.
Methodes: Seven different Cucurbit Rootstocks were applied in this research, which include: 'Rout Power', 'ES 900', 'RZ 12', 'Nongwoo 01', 'RZ6' 'Shintozwa', 'Marvel' and the seed rootstock of the melon cultivar 'Khatooni' with the scientific name (Cucumis melo GR. Inodorus accession Khatooni) was also used as a control plant in addition to the scion. Then the effects of incompatibility and compatibility on the yield of fruit weight, number of fruit and marketable yield were checked. Then biochemical activity of plant scion, such as sugar and starch content of scion leaves, leaf mineral elements (N, P, K, Ca, Mg, B) and the amount of stress proteins and enzymes super oxide dismutase, peroxidase and catalase (SOD, PO, CAT) were compared.
Results: Variance analysis revealed significant differences (p<0.01) among treatments in yield traits, stress enzyme activities, protein, and carbohydrate content. Elements such as nitrogen, potassium, calcium, and boron showed significant variation at the 5% level. The highest fruit weight, number of fruits, and marketable yield were observed with Rout Power and Shintozwa rootstocks, indicating incompatibility compared to the Marvel rootstock. Protein accumulation at the graft junction was 1.03 mg/fresh weight in incompatible Marvel rootstocks versus 0.6 mg in Shintozwa, which was more compatible. Higher antioxidant enzyme activities were found in incompatible rootstocks. Sugar and leaf starch contents were higher in Shintozwa relative to incompatible rootstocks, while leaves of compatible plants showed significantly greater levels of N, Ca, Mg, and B.
Conclusion: Rootstock incompatibility adversely affects physiological and biochemical growth traits and scion performance. The Marvel rootstock exhibited incompatibility, whereas Shintozwa demonstrated compatibility with the Khatooni melon scion. Therefore, Shintozwa is recommended as a suitable rootstock for melon grafting to ensure optimal growth and yield
sara Najafi; Issa Khammari; ahmmad ghanbari; mahdi dahmard
Abstract
Additive intercropping series of sunflower and basil have been laid out under salty and fresh water irrigation management with the aim of achieving the highest yield and intercropping advantage as a result of intercropping the two plants. An experiment has been performed at Zabol University during two ...
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Additive intercropping series of sunflower and basil have been laid out under salty and fresh water irrigation management with the aim of achieving the highest yield and intercropping advantage as a result of intercropping the two plants. An experiment has been performed at Zabol University during two cropping years (2018 and 2019). Fresh water (ECe = 3.9 dS.m-1) and saline water (ECe = 1.1 dS.m-1) have been taken from the Hirmand River and a local well, respectively. The irrigation water regimes are fresh water, salt water, and an alternating usage of salty and fresh irrigation water. In addition, five types of intercropping patterns are considered the sub-factors (100% sunflower (4 plants/m2), 100% basil (80 plants/m2), 100% sunflower+ 50% basil, 50% sunflower + 100% basil and 100% sunflower + 100% basil. The results show that the interaction between intercropping patterns and different irrigation regimes has had a significant effect on 1000 seed weight, seed yield, harvest index, oil yield of sunflower, dry weight, and essential oil yield of basil plants. In response to all irrigation regimes, the highest value of total land equivalent ratio (1.37-1.45) and intercropping advantage (0.29 - 0.48) has occurred as a result of cultivating 50% sunflower + 100% basil, thereby appearing as a good model of intercropping. The results show that intercropping patterns can be effective in modulating the negative effects of saline irrigation water on plant yield.
Raouf Seyed sharif; Reza Seyed Sharifi
Abstract
In order to study the effect of irrigation levels and application of methanol and nano iron oxide on yield and grain filling components of sunflower (Helianthus annuus L.), a factorial experiment was conducted based on randomized complete block design with three replications at the research farm of the ...
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In order to study the effect of irrigation levels and application of methanol and nano iron oxide on yield and grain filling components of sunflower (Helianthus annuus L.), a factorial experiment was conducted based on randomized complete block design with three replications at the research farm of the Islamic Azad University, Ardabil Branch in 2017. The experimental factors were included: application of methanol (foliar application with water as control, 20 and 30 volume percent), nano iron oxide (foliar application with water as control, application of 0.3, 0.6 and 0.9 g.L-1) and irrigation levels (full irrigation as control, irrigation withholding at flowering stage, irrigation withholding at grain filling period). The results showed that the highest grain yield (2952 kg/ha), number of filled grains per head (1121 grains per head), 1000-grain weight (50 g), rate and grain filling period, effective grain filling period (0.00239 g/day, 42 and 33 days respectively) and chlorophyll index (56) were obtained in full irrigation and high levels of methanol and nano iron oxide. Maximum of proline and soluble sugars content (11.1 µg/g FW and 72 mg/g FW) were obtained in irrigation withholding at flowering stage and application of high rates of methanol and nano iron oxide. The least of they were obtained in full irrigation and no application of methanol and nano iron oxide.
masoud arghavani; Saeedeh Savadkoohi; Seyed Najmadin Mortazavi
Abstract
This experiment was conducted in order to investigate morphological and physiological responses of Kentucky bluegrass (Poa pratensis L.) to salinity and silicon application in horticultural science department at the University of Zanjan in 2015. The salinity levels (0, 40 and 80 mM NaCl) and sodium silicate ...
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This experiment was conducted in order to investigate morphological and physiological responses of Kentucky bluegrass (Poa pratensis L.) to salinity and silicon application in horticultural science department at the University of Zanjan in 2015. The salinity levels (0, 40 and 80 mM NaCl) and sodium silicate (0, 0.75 and 1.5 mM) were applied in complete nutrient solutions. Salinity reduced root and shoot growth, visual turf quality, leaves chlorophyll and potassium content, whereas electrolyte leakage, proline and sodium content increased with increasing salt concentration in nutrient solution. Silicon application ameliorate adverse effects of salinity in all factors except in potassium content and this effect was more pronounced in 80 mM NaCl. Although there was no significant difference between 0.75 and 1.5 mM sodium silicate in visual turf quality, root growth and chlorophyll content, altogether, application of 1.5 mM silicon had better results to increase salinity tolerance in Kentucky bluegrass, suggesting that higher concentrations of silicon must be evaluated.