morteza Barmaki; damoon rajabzadeh; Khadijeh Aghaeifard
Abstract
Objective: The present research was conducted in order to investigate the effect of different levels of Magnesium sulfate and Manganese sulfate on yield and some quantitative traits of Potato in Agria cultivar.
Methods: The experiment was conducted as a factorial in the form of a randomized complete ...
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Objective: The present research was conducted in order to investigate the effect of different levels of Magnesium sulfate and Manganese sulfate on yield and some quantitative traits of Potato in Agria cultivar.
Methods: The experiment was conducted as a factorial in the form of a randomized complete block design with three replications during 2018- 2019 growing season in Nir city. The first factor included foliar application of Manganese sulfate at two levels: control and 5 per thousand, and the second factor involved foliar application of Magnesium sulfate at five levels: (control, 1.5, 3, 4.5, and 6 per thousand), used in the stages of early tuberculosis and 50% tuberculosis.
Results: The results of analysis of variance showed that with the exception of the number of stems and the number of uneconomical tubers, the effect of Manganese sulfate on the number of usable tubers at the level of five percent and in the other studied traits was significant at 1% level. The effect of Magnesium sulfate had a significant effect on plant height at 5% level and on other studied traits at 1% level. However, the interaction of experimental treatments was not significant. The highest tuber yield of 44.9 t.ha-1 belonged to foliar application with a concentration of 5 per thousand manganese sulfate. The highest effect of Magnesium sulfate foliar application on the number of usable tubers was 34.4%, compared to the control. On average, foliar application of Magnesium sulfate increased tuber yield by 12.3%, compared to the control treatment.
Conclusion: Considering that in most of the studied traits, foliar application of 5 per thousand Manganese sulfate and 4.5 per thousand Magnesium sulfate showed better results than other treatments, these fertilizer levels can be recommended for this cultivar in this area.
Sevda Ghasemi Germi; morteza Barmaki; salim farzaneh; Mandana Amiri
Abstract
AbstractThis study aims at investigating the morpho-physiological responses of potato superelite mini-tubers to different coating treatments factorial experiment, based on randomized complete block design with three replications in Research Farm of Mohaghegh Ardabili University between 2018 and 2019. ...
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AbstractThis study aims at investigating the morpho-physiological responses of potato superelite mini-tubers to different coating treatments factorial experiment, based on randomized complete block design with three replications in Research Farm of Mohaghegh Ardabili University between 2018 and 2019. Experimental factors at four levels include mini-tubers filler (zeolite and cocopeat), superphosphate (soil and pellet application), chitosan, and superabsorbent with control treatment (without pelleting). Application of cocopeat with superphosphate leads to the highest average number of tubers per plant (8.36), fresh and dry tuber yield (18.23 and 3.88 tons per hectare), and biological yield (21.69 tons per hectare). The use of chitosan in mini-tuber pelleting decrease the activity of catalase and peroxidase enzymes (19.67% and 16.37%, respectively), increasing the activity of polyphenol oxidase (37.80%). Zeolite increase and cocopeat decrease the tuber protein percentage, compared to the control. This increase in protein percentage with increasing tuber yield leads to a 32.23% increase in tuber protein yield in zeolite application, compared to control treatment. The use of superphosphate in mini-tuber pelleting also increase the protein percentage, thus leading to a 30.30% increase in protein yield, compared to control mini-tuber. In principal component analysis (PCA), the first component, with which 35% of the changes could be explained, include the yield of protein, lysine, and methionine, and the second component, with which 25% of the changes could be explained, include the protein, methionine, lysine, and total nitrogen. Finally, the results show that the mini-tuber pelleting by superphosphate, zeolite, and superabsorbent have had significant additive effects on yield and quality traits.