AGRICULTURAL PRACTICES MOST SUITABLE FOR SOYBEAN PRODUCTION IN FAYOUM | ||||
| Misr Journal of Agricultural Engineering | ||||
| Article 1, Volume 41, Issue 2, April 2024, Page 141-154 PDF (471.23 K) | ||||
| Document Type: Original Article | ||||
| DOI: 10.21608/mjae.2024.248394.1128 | ||||
 View on SCiNiTO | ||||
| Authors | ||||
A. T. Imbabi1; H. A. Abdurrahman  2
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| 1Prof. of Ag. Eng, Ag. Eng. Dept., Fac. of Ag., Fayoum U., Egypt. | ||||
| 2Assist. Prof., Soil Sci. Dept., Fac. of Ag., Fayoum U., Egypt. | ||||
| Abstract | ||||
| Reference to the rapid increase in the population of Egypt, the agricultural policy in Egypt aims to increase the productivity of edible oils to compensate the shortage in locally produced oils from field crops, and to meet the increasing demand for these oils as one of the important foods for humans, and given that agricultural mechanization contributes well to reducing the time needed to perform agricultural operations, as well as obtaining higher productivity at lower cost, so this research was concerned with trying to reach the optimum conditions for soybean production under the conditions of Fayoum Governorate. The results showed that the suitable agricultural practices for soybean production were: plowing depth of 25 cm, planting distances of 70 cm x 20 cm, and irrigation period of 18 days, where productivity reached 1,829 ton fed-1. power requirements were 87.78 kW.h ton, and costs amounted to 3,326 pounds ton-1, and an energy cost of 37.90 pounds kW.h-1. | ||||
| Keywords | ||||
| Soybean; Ploughing depth; Planting distance; Irrigation period | ||||
| References | ||||
|
Abdel Maksoud, S.E.; El-Shal, M. S.; El-Wahab, M. K. and Moustafs, M.I. (1993). Mechanizing of soybean crop production under Egyptian condition. Misr J. Agric. Eng. 10 (3). 525:536.
Abdel Motaleb, L.A.; Ibrahim, M.M. and Yousef, I.S. (1999). A study on harvesting of soybean and sunflower crops, Misr J. Agric. Eng. 16(2). 337:351.
Abdo, F. M. (1993). Modular design project that performs several agricultural operations combined in one operation with different capacities that suit Egyptian conditions, Academy of Scientific Research and Technology - Food, Agriculture and Irrigation Research Council - Mechanized Agriculture Division: 30-40.
Abdou, F.M. (1996). Effects of some seed-bed prepration systems on soybean crop production. Misr J. Agric. Eng.13(1). 139:148. In Arabic.
Abdou, F.M. (1996). Evaluation of systems and methods of wheat planting under Egyptian agricultural conditions. Misr J. Agric. Eng.13(1). 149:160.
Abou El-Kheir, M.M. (1999). Effect of some factors on threshing performance of soybean. Misr J. Agric. Eng.8(3). 172:181.
Agricultural Economics Bulletin (2020). Ministry of Agriculture, Cairo, Egypt.
Al-Awadi, M. N. (1978). Tractors and Agricultural Machines Engineering, a reference book, Faculty of Agriculture, Ain Shams University, Fifth Edition: 164-167.
Ali M. M. A. (2007). Selecting the proper systems for mechanization bean crop in new reclaimed lands. Misr J. Agric. Eng. 24(4) 779:792.
Ali. M. H.; Hoque, M. R.; Hassan, A.A. and Khair, A. (2007). Effects of deficit irrigation on yield, water productivity an economic returns of wheat. Agricultural water management, 92 (3). 151:161.
Barger, E.L.; Liljedohl, J.B.; Carleton, W.M. and McKibben (1963). Tractor and their power units. 2ed ed.k John Wiley Sons. Inc., New York, U.S.A.
Boydak, E.; Alpaslan, M.; Hayta, M.; Gercek, S. and Simesek, M. (2002). Seed compostion of soybean grown in the Harran region of Turkey as affected by row spacing and irrigation. J. Agric. Food Chem. (50) 4718:4720.
Dragos, T. (1985). Farm machinery equipment. Handbook. Min. of Ed., Bucharest Univ., Romania. 78:92.
El-Metwally, I.M.; Elewaand, T.A. and Dawood, M.G. (2018). Response of soybean cultivers to weed control treatments. Agric. Eng. Int. Special issue. 159:165.
El-Zemeity, A.H. and Nesserlla, A.N. (1998). The energy requirements for land preparation and manual harvesting of sugar beet. Misr J. Ag. Eng., 15(3):584-595.
FAO (1996). Yearbook of Agric.
Gomaa, S.M.; Abu-Shieshaa, R.R.; Hindy, F.I. and Hassan, M.N. (2009). A study on harvesting mechanization of soybean crop. J. Agric. Sci. Mansoura Univ. 34(3). 2381:2395
Hassan, A.A.; Afify, M.K.; El-Shal, H.M. and Abd El-Atty, A.A. (2015). Study on the mechanization of bean (Phaseolus vulgaris) crop under Egyptian conditions. Misr J. Agric. Eng. 32(2). 503:520.
Helmy, M.A. (1980). Theoretical and Experimental contribution for determination of the constructional and operational parameters of some tillage implements in Alluvial soils. Ph.D. Thesis., Bucharest Univ., Romania. 50: 80.
Herbek, J.H. and Bitzer, M.I. (2004). Harvesting, drying, storage and marketing. Lexington, Ky. Cooperative Extension Service Bulletin AGR, 132.
Ministry of Agriculture and Land Reclamation (1998). - Economic Affairs Sector - Central Administration of Agricultural Economy - General Administration of Statistics.
Moustafa, E.M. (1993). Mechanization of soybean crop M.Sc. thesis. Agric. Eng., Fac. of Agric., Zagazig Univ. 40:70.
Nave, W.R. and Cooper, R.L. (1974). Effect of plant population and row width on soybean yield and harvesting losses. Trans., ASEA. 17(5). 801:804.
Shall, M. S. (1987). A study on usability of pneumatic planter under Egyptian prevailing conditions. Misr J. Agric. Eng. 3(2). 511:520. | ||||
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