Sadegh Afzalinia; Seyed Ebrahim Dehghanian; Khadijeh Alijani; dadgar mohammadi; Seyed Mashaallh Hosseini; Afshar Estakhr; Seiid Mansur Alavimanesh; Mashaallah Zare
Abstract
In this research, effect of tillage and planting methods (planting on permanent raised beds, no-till, and conventional tillage) on soil properties such as bulk density, moisture content, and organic carbon and water consumption, water productivity, and crop yield was evaluated in the form of randomized ...
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In this research, effect of tillage and planting methods (planting on permanent raised beds, no-till, and conventional tillage) on soil properties such as bulk density, moisture content, and organic carbon and water consumption, water productivity, and crop yield was evaluated in the form of randomized complete blocks experimental design with three treatments and six replicates in corn-wheat rotation. Results showed that the raised bed planting had the maximum forage corn (95.33 ton/ha) and wheat yield (7.01 ton/ha) and no-till had the minimum silage corn (87.06 ton/ha) and wheat yield (5.23 ton/ha) which had no significant difference with the conventional tillage. Forage corn consumed the maximum water (9531 m3/ha) in the conventional tillage and the minimum water (8155 m3/ha) in no-till; while, there was no significant difference between treatments from the water productivity point of view. Wheat consumed the maximum water (7177 m3/ha) in raised bed planting, but there was no significant difference between treatments from the stand point of water productivity. Results also showed that conservation tillage methods increased soil moisture content in forage corn planting (around 11%), but had no significant effect on the soil moisture content in wheat planting.
Sadegh Afzalinia; Alidad Boostani; Abdolhamid Karimi; dadgar mohammadi; Seiid Mansur Alavimanesh; Mashaallah Zare; Ali Nouroozi
Abstract
In this research, effects of water sprayed over the upper layer of the mowed and rowed alfalfa (before baling) on quantitative and qualitative losses of alfalfa during baling process were evaluated. The study was conducted in the form of split plot experiment with 12 treatments and three replications ...
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In this research, effects of water sprayed over the upper layer of the mowed and rowed alfalfa (before baling) on quantitative and qualitative losses of alfalfa during baling process were evaluated. The study was conducted in the form of split plot experiment with 12 treatments and three replications from 2020 to 2022. Main plots were the amount of water sprayed on the alfalfa with four levels of water (0, 250, 350, and 450 liters per hectare). Subplots were the time interval between spraying water on alfalfa and baling operation (0, 30, and 60 minutes after spraying water). Alfalfa losses at the baler pickup and compression chamber, during transportation, and total losses were measured. Alfalfa dry matter, crude protein, fat, organic matter, ash, acid detergent fiber, neutral detergent fiber was measured, and amount of aflatoxin were also detected after six months of storage. Results showed that spraying 450 L water per hectare decreased alfalfa losses at baler pickup and compression chamber, transportation, and total losses by 20.4, 34.3, 4.7, and 21.1% respectively, compared to the control treatment. Time interval between spraying water on alfalfa and baling time had no significant effect on alfalfa losses during baling operation and transportation. Results also indicated that spraying water on alfalfa before baling operation had no significant negative effects on alfalfa quality after six months storing and did not reduce alfalfa quality during storing time.
dadgar mohammadi; Sadegh Afzalinia
Abstract
This study was conducted at Darab Agricultural Research Station in wheat-cotton rotation for four years. A complete block experimental design with three treatments (no-till, reduced tillage, and conventional tillage methods) and four replications were used. Tillage methods were compared economically. ...
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This study was conducted at Darab Agricultural Research Station in wheat-cotton rotation for four years. A complete block experimental design with three treatments (no-till, reduced tillage, and conventional tillage methods) and four replications were used. Tillage methods were compared economically. The most beneficial treatment was selected based on estimating the costs and incomes of different treatments and using the net present value method of gross margin changes. Analytical hierarchy analysis (AHP) method was also used to select the most appropriate tillage method. Results showed that there was no significant difference between tillage methods for wheat and cotton yield during most of the years that this investigation was in processing. Reduced tillage and no-till methods decreased wheat and cotton production costs, compared to conventional tillage, for 5 and 10% respectively. These conservation tillage methods, compared to the conventional tillage, also reduced fuel consumption for 60 and 77%, respectively. Conservation tillage methods increased effective field capacity of seed bed preparation and planting operations, so that time required for seed bed preparation and planting operations decreased in reduced tillage and no-till, compared to the conventional tillage, for 62 and 74%, respectively. Conventional tillage had maximum present value of gross margin (53662 thousands Rials) compared to reduced tillage (46379 thousands Rials) and no-till (38149 thousands Rials). Considering different factors in decision making, parameters such as crop yield (0.312), production costs (0.221), and water consumption (0.219) had the highest weight in farmers’ decision for selecting tillage method, and the conservation tillage methods received the highest priority for selection.