施氮量和耕作方式对春玉米产量和土体硝态氮累积的影响

王激清; 韩宝文; 刘社平

王激清,韩宝文,刘社平.施氮量和耕作方式对春玉米产量和土体硝态氮累积的影响[J].干旱地区农业研究,2011,29(2):129~135

施氮量和耕作方式对春玉米产量和土体硝态氮累积的影响

Effects of nitrogen application rates and soil tillage modes on yield of spring maize and NO₃^- -N accumulation in soil profile

DOI：10.7606/j.issn.1000-7601.2011.02.22

中文关键词: 氮肥用量,土壤耕作,春玉米产量硝态氮累积

英文关键词:N application rate soil tillage yield of spring maize NO₃^- -N accumulation

基金项目:国家科技支撑计划项目(2007BAD87B02-02)；河北省科技支撑计划项目(09220903D)；河北省重点学科建设基金资助项目；张家口市科技攻关计划项目(0811038C-3)

作者	单位
王激清	河北北方学院农林科技学院,河北张家口 075000
韩宝文	河北省农林科学院农业资源环境研究所,河北石家庄 050051
刘社平	河北北方学院农林科技学院,河北张家口 075000

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中文摘要:

在冀西北春玉米种植区,对不同施氮量和耕作方式春玉米产量和土体硝态氮累积状况进行研究分析,结果表明,和常规耕作相比,免耕对春玉米产量无明显影响,通过建立的施氮量和春玉米产量的肥料效应函数,求得免耕1(玉米和大豆间作)、免耕2(玉米单作)和常规耕作(玉米单作)3种处理的适宜氮推荐用量分别为192~209 kg/hm²、192~212 kg/hm²和196~216 kg/hm²。随着施氮量的增加,3种处理0~90 cm土层和90~180 cm土层的硝态氮累积量均呈显著增加趋势。在春玉米整个取样期,免耕处理0~90 cm土层硝态氮累积量均高于常规耕作处理的累积量,而且这种趋势在高施氮量下表现得更明显,春玉米收获后,免耕处理0~90 cm土层硝态氮累积量显著高于常规耕作的累积量,而常规耕作处理90~180 cm土层硝态氮累积量显著高于免耕处理的累积量,这说明免耕措施更有助于硝态氮累积在0~90 cm土层,而减少向下淋失进入地下水,产生环境污染的可能。

英文摘要:

Based on N application rates and soil tillage modes experiment，yield of spring maize and NO₃^- -N ac-cumulation in soil profile were studied in the northwest of Hebei Province. The results showed that compared with conven-tional tillage，no-tillage mode had no significant effect on yield of spring maize，through analyzing function curve of N rate and yield of spring maize under no-tillage 1，no-tillage 2 and conventional tillage modes, and the proper rate of N of spring maize was 192~209 kg/hm²，192~212 kg/hm² and 196~216 kg/hm² respectively. With the increase of N rate，NO₃^- -N accumulation in 0~90 cm and 90~80 soil layers were also significantly increased by three treatments. NO₃^- -N accumulation in 0~90 cm soil layer under no-tillage mode was higher than that under conventional tillage in whole sampling period, and this trend increased with increase of N application rate. After maize was harvested, NO₃^- -N accumulation in 0~90 cm soil layer under no tllale mode was significantly higher than that under conventional tillage mode, while NO₃^- -N accumulation in 90~180 cm soil layer under conventional tllage mode was significantly higher than that under no tllge mode，this indicated that more N mutrient accumulated in 0~90 cm soil layer under no tillage mode and less leached into groundwater for environment pollution.

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