Application of the Cropping System Model (CSM)‐CROPGRO‐Soybean for Determining Optimum Management Strategies for Soybean in Tropical Environments |
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| Authors: | P. Banterng G. Hoogenboom A. Patanothai P. Singh S. P. Wani P. Pathak S. Tongpoonpol S. Atichart P. Srihaban S. Buranaviriyakul A. Jintrawet T. C. Nguyen |
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| Affiliation: | 1. Department of Biological and Agricultural Engineering, University of Georgia, Griffin, GA, USA;2. Department of Plant Science and Agricultural Resources, Faculty of Agriculture, Khon Kaen University, Khon Kaen, Thailand;3. Department of Plant Science and Agricultural Resources, Faculty of Agriculture, Khon Kaen University, Khon Kaen, Thailand;4. Soils and Agroclimatology Division, International Crops Research Institute for the Semi‐Arid Tropics (ICRISAT), Paatancheru, Andhra Pradesh, India;5. Office of Agricultural Research and Development Region 3, Department of Agriculture (DOA), Khon Kaen, Thailand;6. Land Development Department (DLD) Regional Office 5, Khon Kaen, Thailand;7. Department of Agronomy, Faculty of Agriculture, Chiang Mai University, Chiang Mai, Thailand;8. Department of Soil Science and Conservation, Faculty of Agriculture, Chiang Mai University, Chiang Mai, Thailand;9. Legume Research and Development Center, Vietnam Agricultural Science Institute, Thanh Tri, Ha Noi, Vietnam |
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| Abstract: | The determination of optimum crop management practices for increasing soybean production can provide valuable information for strategic planning in the tropics. However, this process is time consuming and expensive. The use of a dynamic crop simulation model can be an alternative option to help estimate yield levels under various growing conditions. The objectives of this study were to evaluate the performance of the Cropping System Model (CSM)‐CROPGRO‐Soybean and to determine optimum management practices for soybean for growing conditions in the Phu Pha Man district, Thailand. Data from two soybean experiments that were conducted in 1991 at Chiang Mai University and in 2003 at Khon Kaen University were used to determine the cultivar coefficients for the cultivars CM 60 and SJ 5. The CSM‐CROPGRO‐Soybean model was evaluated with data from two experiments that were conducted at Chiang Mai University. The observed data sets from farmers’ fields located in the Phu Pha Man district were also used for model evaluation. Simulations for different management scenarios were conducted with soil property information for seven different soil series and historical weather data for the period 1972–2003 to predict the optimum crop management practices for soybean production in the Phu Pha Man district. The results of this study indicated that the cultivar coefficients of the two soybean cultivars resulted in simulated growth and development parameters that were in good agreement with almost all observed parameters. Model evaluation showed a good agreement between simulated and observed data for phenology and growth of soybean, and demonstrated the potential of the CSM‐CROPGRO‐Soybean model to simulate growth and yield for local environments, including farmers’ fields, in Thailand. The CSM‐CROPGRO‐Soybean simulations indicated that the optimum planting dates from June 15 to July 15 produced maximum soybean yield in a rainfed environment. However, the planting date December 15 produced the highest yield under quality irrigation. Soybean yield was slightly improved by applying nitrogen at a rate of 30 kg N ha?1 at planting. Soybean yield also improved when the plant density was increased from 20 to 40 plants m?2. The results from this study suggest that the CSM‐CROPGRO‐Soybean model can be a valuable tool in assisting with determining optimum management practices for soybean cropping systems in the Phu Pha Man district and might be applicable to other agricultural production areas in Thailand and southeast Asia. |
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| Keywords: | crop simulation model CSM‐CROPGRO‐Soybean Decision Support System soil weather |
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