响应到稻田的脲申请的氨挥发损失,氮利用效率,和米饭收益在 Wangzhuang 镇上被调查, Changshu 城市,江苏省,中国。N 化肥处理,适用在三倍,是 0 (控制) , 100, 200, 300,或 350 kg N 哈 ? 1。在脲被用于地面水以后,一个连续...响应到稻田的脲申请的氨挥发损失,氮利用效率,和米饭收益在 Wangzhuang 镇上被调查, Changshu 城市,江苏省,中国。N 化肥处理,适用在三倍,是 0 (控制) , 100, 200, 300,或 350 kg N 哈 ? 1。在脲被用于地面水以后,一个连续气流包围方法被用来在稻田测量氨挥发。通过氨挥发的全部的 N 损失通常与 N 申请率,和申请评估的二更高的 N 增加了(300 和 350 kg N 哈 ? 1 ) 证明 N 的更高的比率通过氨挥发输了到应用 N。由在全部米饭期间,生长上演的氨挥发的全部的氨损失从 9.0% ~ 16.7% 应用 N 。增加申请率通常减少了在到在植物的 N 的种子的 N 的比率。为所有 N 处理,氮肥利用效率从 30.9% ~ 45.9%。有最高的 N 率的剩余 N 导致了米饭植物,氮肥利用的减少的率,和减少的米饭收益的住宿。从这个实验计算,最节俭的 N 化肥申请率是 227 kg 哈 ? 1 为在泰胡·莱克区域的水稻土的类型。然而,推荐适当 N 化肥申请率以便植物生长被提高,氨损失被减少能改进大米的 N 利用效率。展开更多
Ammonia volatilization loss and ^15N balance were studied in a rice field at three different stages after urea application in Taihu Lake area with a micrometeorological technique. Factors such as climate and the NH4^...Ammonia volatilization loss and ^15N balance were studied in a rice field at three different stages after urea application in Taihu Lake area with a micrometeorological technique. Factors such as climate and the NH4^+-N concentration in the field floodwater affecting ammonia loss were also investigated. Results show that the ammonia loss by volatilization accounted for 18.6%-38.7% of urea applied at different stages, the greatest loss took place when urea was applied at the tillering stage, the smallest at the ear bearing stage, and the intermediate loss at the basal stage. The greatest loss took place within 7 d following the fertilizer application. Ammonia volatilization losses at three fertilization stages were significantly correlated with the ammonium concentration in the field floodwater after the fertilizer was applied. ^15N balance experiment indicated that the use efficiency of urea by rice plants ranged between 24.4% and 28.1%. At the early stage of rice growth, the fertilizer nitrogen use efficiency was rather low, only about 12%. The total amount of nitrogen lost from different fertilization stages in the rice field was 44.1%-54.4%, and the ammonia volatilization loss was 25.4%-33.3%. Reducing ammonia loss is an important treatment for improving N use efficiency.展开更多
基金新西兰恒天然-中国科学院国际合作项目International Collaborative Research on Dairy Farm Waste application to land supported by Fonterra(Beijing)Farm Management Consulting Co.Ltd
基金Project supported by the Knowledge Innovation Program of Chinese Academy of Sciences (No.KZCX2-413-3)National Natural Science Foundation of China (No.30390080)National Basic Research Program of China (No.2005CB121108)
文摘响应到稻田的脲申请的氨挥发损失,氮利用效率,和米饭收益在 Wangzhuang 镇上被调查, Changshu 城市,江苏省,中国。N 化肥处理,适用在三倍,是 0 (控制) , 100, 200, 300,或 350 kg N 哈 ? 1。在脲被用于地面水以后,一个连续气流包围方法被用来在稻田测量氨挥发。通过氨挥发的全部的 N 损失通常与 N 申请率,和申请评估的二更高的 N 增加了(300 和 350 kg N 哈 ? 1 ) 证明 N 的更高的比率通过氨挥发输了到应用 N。由在全部米饭期间,生长上演的氨挥发的全部的氨损失从 9.0% ~ 16.7% 应用 N 。增加申请率通常减少了在到在植物的 N 的种子的 N 的比率。为所有 N 处理,氮肥利用效率从 30.9% ~ 45.9%。有最高的 N 率的剩余 N 导致了米饭植物,氮肥利用的减少的率,和减少的米饭收益的住宿。从这个实验计算,最节俭的 N 化肥申请率是 227 kg 哈 ? 1 为在泰胡·莱克区域的水稻土的类型。然而,推荐适当 N 化肥申请率以便植物生长被提高,氨损失被减少能改进大米的 N 利用效率。
文摘Ammonia volatilization loss and ^15N balance were studied in a rice field at three different stages after urea application in Taihu Lake area with a micrometeorological technique. Factors such as climate and the NH4^+-N concentration in the field floodwater affecting ammonia loss were also investigated. Results show that the ammonia loss by volatilization accounted for 18.6%-38.7% of urea applied at different stages, the greatest loss took place when urea was applied at the tillering stage, the smallest at the ear bearing stage, and the intermediate loss at the basal stage. The greatest loss took place within 7 d following the fertilizer application. Ammonia volatilization losses at three fertilization stages were significantly correlated with the ammonium concentration in the field floodwater after the fertilizer was applied. ^15N balance experiment indicated that the use efficiency of urea by rice plants ranged between 24.4% and 28.1%. At the early stage of rice growth, the fertilizer nitrogen use efficiency was rather low, only about 12%. The total amount of nitrogen lost from different fertilization stages in the rice field was 44.1%-54.4%, and the ammonia volatilization loss was 25.4%-33.3%. Reducing ammonia loss is an important treatment for improving N use efficiency.