作物
氮气
环境科学
农学
农林复合经营
农业工程
业务
生物
工程类
化学
有机化学
作者
N. K. Fageria,V. C. Baligar
出处
期刊:Advances in Agronomy
日期:2005-01-01
卷期号:: 97-185
被引量:955
标识
DOI:10.1016/s0065-2113(05)88004-6
摘要
Nitrogen is the most limiting nutrient for crop production in many of the world's agricultural areas and its efficient use is important for the economic sustainability of cropping systems. Furthermore, the dynamic nature of N and its propensity for loss from soil‐plant systems creates a unique and challenging environment for its efficient management. Crop response to applied N and use efficiency are important criteria for evaluating crop N requirements for maximum economic yield. Recovery of N in crop plants is usually less than 50% worldwide. Low recovery of N in annual crop is associated with its loss by volatilization, leaching, surface runoff, denitrification, and plant canopy. Low recovery of N is not only responsible for higher cost of crop production, but also for environmental pollution. Hence, improving N use efficiency (NUE) is desirable to improve crop yields, reducing cost of production, and maintaining environmental quality. To improve N efficiency in agriculture, integrated N management strategies that take into consideration improved fertilizer along with soil and crop management practices are necessary. Including livestock production with cropping offers one of the best opportunities to improve NUE. Synchrony of N supply with crop demand is essential in order to ensure adequate quantity of uptake and utilization and optimum yield. This paper discusses N dynamics in soil‐plant systems, and outlines management options for enhancing N use by annual crops.
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