Behrooz Dolatparast; Farzad Hosseinpanahi; Adel Siosemardeh; Hamed Mansory
Abstract
Considering the importance and value of water and optimal use of nitrogen for maintaining production productivity and simultaneously reducing the negative environmental effects, two experiments have been conducted in 2017-2018 and 2018-2019 cropping seasons in the research farm of the Faculty of Agriculture, ...
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Considering the importance and value of water and optimal use of nitrogen for maintaining production productivity and simultaneously reducing the negative environmental effects, two experiments have been conducted in 2017-2018 and 2018-2019 cropping seasons in the research farm of the Faculty of Agriculture, University of Kurdistan. The experiments are performed as a split plot in a randomized complete block design with four replications. Experimental treatments include the different levels of irrigation as the main plots (25% (W1), 50% (W2), 75% (W3), and 100% (W4) of crop water requirement) and different levels of nitrogen fertilizer as sub-plots (25% (N1), 50% (N2), 75% (N3), and 100% (N4) based on crop nitrogen requirement). Results show that all the studied traits with the exception of the time of reaching the maximum pod area index are affected by the main and interaction effects. The highest grain yield is obtained in W4N4 treatment (5069 kg.ha-1) and the lowest grain yield in W1N1 and W1N2 treatments at 880 and 899 kg.ha-1, respectively, which has been decreased by 82.6% and 82.2%, compared to the control, respectively. The grain and biological yield of W4N3 (4826 and 17589 kg.ha-1) and W3N4 (4712 and 17657 kg.ha-1) treatments, represent 25% reduction in nitrogen consumption and 25% reduction in water consumption, respectively compared to the control. W4N4 is recognized as the superior treatment in this study for improving productivity.
Farideh Sadeghi; Yousef sohrabi; Adel SioSe Mardeh
Abstract
In order to study the effect of cytokinin, gibberellin, and cycocle on yield and yield components of two wheat cultivars under different irrigation regimes, a study was conducted as a split-split experiment based on a randomized complete block design with three replications at the Agricultural Research ...
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In order to study the effect of cytokinin, gibberellin, and cycocle on yield and yield components of two wheat cultivars under different irrigation regimes, a study was conducted as a split-split experiment based on a randomized complete block design with three replications at the Agricultural Research Station of Kurdistan University in 2016. There, the irrigation factor at four levels: dryland, irrigation at booting stage, irrigation at booting + flowering and irrigation at booting + flowering + grain filling stages have served as the main plots, two wheat cultivars (Sirvan and Homa) as sub-plots, and levels of plant growth regulators foliar application including, i.e. control, gibberellin (100 µm), cytokinin (100 µm), and cycocel (3gr. lit-1) at the wheat stem elongation and grain filling stages as the sub-sub plots. Results show that in the foliar application during the stem stage, compared to the dryland treatment, yield increase in one, two, and three irrigation treatments have been 29%, 33%, and 43%, and at the grain filling stage; 22%, 28%, and 33%, respectively. Homa cultivar produced higher yield compared to Sirvan. In the foliar application during the stem stage, the highest grain yield (504 g m-2) belongs to application of three irrigation treatments as well as addition of cytokinin, and at the grain filling stage, the highest grain yield (477.6 g m-2) has been obtained from Homa cultivar under three times irrigation condition and cycocel consumption. Therefore, using even one stage irrigation and the application of cytokinin and cycocel can increase the grain yield of wheat.