| 基于APSIM模型的旱地春小麦产量对施氮量和施氮深度的响应模拟 |
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| 引用本文: | 尹嘉德,张俊英,侯慧芝,张绪成,马明生,郭宏娟,方彦杰,雷康宁.基于APSIM模型的旱地春小麦产量对施氮量和施氮深度的响应模拟[J].应用生态学报,2022,33(3):775-783. |
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| 作者姓名: | 尹嘉德 张俊英 侯慧芝 张绪成 马明生 郭宏娟 方彦杰 雷康宁 |
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| 作者单位: | 1.甘肃省农业科学院旱地农业研究所, 兰州 730070;2.甘肃省旱作区水资源高效利用重点实验室, 兰州 730070;3.平凉市农业技术推广站, 甘肃平凉 744000;4.甘肃农业大学农学院, 兰州 730070 |
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| 基金项目: | 国家自然科学基金项目(31960398,31560355)、国家重点研发计划项目(2018YFD0200403)、甘肃省重点研发计划项目(20YF8WA110)和甘肃省农业科学院农业科技创新专项(2020GAAS32)资助。 |
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| 摘 要: | 氮是限制黄土高原旱农区作物水分生产潜力提升的重要因素,而氮肥适度深施是旱地作物提效增产的有效措施.本研究利用甘肃省陇中地区1990-2020年气象观测数据,基于APSIM模型模拟了不同施氮量和施氮深度的春小麦产量,以期为优化陇中旱农区小麦施肥策略提供理论依据.结果表明:模型模拟的春小麦产量、生物量和生育期0~200 c...
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| 关 键 词: | APSIM 春小麦 施氮量 施氮深度 产量 氮肥利用效率 |
| 收稿时间: | 2021-07-05 |
Simulation of the responses of spring wheat yield to the rates and depths of nitrogen application in dryland based on APSIM model |
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| YIN Jia-de,ZHANG Jun-ying,HOU Hui-zhi,ZHANG Xu-cheng,MA Ming-sheng,GUO Hong-juan,FANG Yan-jie,LEI Kang-ning.Simulation of the responses of spring wheat yield to the rates and depths of nitrogen application in dryland based on APSIM model[J].Chinese Journal of Applied Ecology,2022,33(3):775-783. |
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| Authors: | YIN Jia-de ZHANG Jun-ying HOU Hui-zhi ZHANG Xu-cheng MA Ming-sheng GUO Hong-juan FANG Yan-jie LEI Kang-ning |
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| Institution: | 1.Institute of Dry-land Agriculture, Gansu Academy of Agricultural Sciences, Lanzhou 730070, China;2.Gansu Province Key Laboratory of High Water Utilization on Dryland, Lanzhou 730070, China;3.Station for Popularizing Agricultural Technique, Pingliang 744000, Gansu, China;4.College of Agronomy, Gansu Agricultural University, Lanzhou 730070, China |
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| Abstract: | Nitrogen limitation is an important factor for the improvement of crop water production potential in rain-fed areas of the Loess Plateau. The reasonable deep application of nitrogen fertilizer is a promising method to increase yield of rain-fed crop. Based on APSIM model, this study simulated spring wheat yield under different nitrogen application rates and depths, by using meteorological observation data from 1990 to 2020 in the semiarid areas of central Gansu Province, aiming to provide theoretical reference for optimizing wheat fertilization strategy. The results showed that the determination coefficient of simulated spring wheat yield, biomass and soil water content in 0-200 cm soil profile was greater than 0.80, the normalized root mean square error was less than 0.2, and the model validity index was greater than 0.5. These results indicated that the model had good fitting and adaptability in the test area. Across all the levels within the experimental design, increasing nitrogen application rates could significantly increase the yield of spring wheat in different precipitation years, and increasing nitrogen application depth could significantly increase spring wheat yield in wet and normal years, but had no effect in dry years. The rate and depth of nitrogen application had significant interaction effects on spring wheat yield in wet and normal years, but not in dry years. According to the binary quadratic regression fitting equation, when the potential maximum yield reached 2749 kg·hm-2 in wet year, nitrogen application depth was 22.7 cm, and nitrogen application rate was 245 kg·hm-2. When the maximum potential yield reached 2596 kg·hm-2 in normal year, nitrogen application depth was 20.6 cm, and nitrogen application rate was 235 kg·hm-2. Integrating the effects of nitrogen application rate and depth on yield, biomass and agronomic efficiency of nitrogen fertilizer, and farmer's fertilizer application habits, the recommended nitrogen application depth was 20-23 cm, and nitrogen application amount was 120-150 kg·hm-2, which could further improve water productivity and nitrogen use efficiency of spring wheat in arid areas of central Gansu Province. |
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| Keywords: | APSIM spring wheat nitrogen application rate nitrogen application depth yield nitrogen use efficiency |
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