Mohamad Keshtegar khajedad; Alireza Sirousmehr; Issa Khammari; Khodadad Dahmardeh
Abstract
Water deficit is one of the most important limiting factors of production in crops. The present study was conducted in 2019 to investigate the effect of different irrigation times and foliar application of humic acid on morphophysiological traits and yield of black beans as a split plot in a randomized ...
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Water deficit is one of the most important limiting factors of production in crops. The present study was conducted in 2019 to investigate the effect of different irrigation times and foliar application of humic acid on morphophysiological traits and yield of black beans as a split plot in a randomized complete block design with three replications at Zahak Agricultural Research Station in Sistan and Baluchestan Province. The main factor involves three irrigation treatments, including irrigation from planting to harvest, irrigation from planting to flowering, and irrigation from flowering to harvest, and the secondary factor includes foliar application at four levels of humic acid (0, 1, 2, and 3 per thousand). By increasing drought stress levels, plant height and width, fresh and dry forage yield, leaf area (in both stem and flowering stages), photosynthetic pigments, nitrogen, phosphorus (3.39%), potassium (20.6%), calcium of leaf, grain yield (11.27%), and biological yield (60.22%) has decreased, whereas proline content (31.88%) has increased, compared to the control. Also, by increasing humic acid levels, the values of all studied traits has increased. Humic acid has had a positive effect on black bean plant traits under drought stress conditions, so that its concentration of three per thousand reduces the adverse effects of drought stress, increasing the tolerance of black bean crop. In general, complete irrigation and application of three per thousand humic acids for the production of black beans seems appropriate. It is suggested that in future research, soil application of humic acid consumption should be investigated to compare the efficiency of the methods used.
siavash aryafar; Alireza Sirousmehr; Iesa khammari; Ahmad ghanbari; Esmaeil Seyedabadi
Abstract
In order to investigate the effect of tillage systems and the combination of chemical fertilizer and livestock manure on some characteristics of sunflower, an experiment has been conducted as split plots in a randomized complete block design with three replications at the research farm of University ...
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In order to investigate the effect of tillage systems and the combination of chemical fertilizer and livestock manure on some characteristics of sunflower, an experiment has been conducted as split plots in a randomized complete block design with three replications at the research farm of University of Zabol during 2019. The main factor has been tillage levels (1. moldboard plow and disc, 2. sweep and disc, and 3. disc). The sub-factor include fertilizer levels (no fertilizer application, 100 kg/ha of diammonium phosphate, 25 tons/ha of livestock manure+ 100 kg/ha of diamonium phosphate, 50 tons/ha of livestock manure + 100 kg/ha of diamonium phosphate, 25 tons/ha of livestock manure, and 50 tons/ha of livestock manure). Results show that the highest values belong to the 50 tons/ha of livestock manure in tillage with disk for grain yield (5072 kg/ha), and oil percentage (44.44%), 50 tons/ha of livestock manure in tillage with disc for oleic acid content (51.61%), and 50 tons/ha of livestock manure for linoleic acid content (31.1%). The highest amount of chlorophyll a, b and carotenoids (1.253, 0.45, and 1.04 mg/g, respectively) has been obtained from the application of 100 kg/ha of diamonium phosphate in tillage with disc. In general, in order to increase and improve the quantitative and qualitative characteristics of sunflower, the application of 50 tons/ha of livestock manure is suitable in disc tillage conditions.