Effect of N fertilization on grain yield of winter wheat and apparent N losses

被引:47
作者
Cui Zhen-Ling
Chen Xin-Ping
Li Jun-Liang
Xu Jiu-Fei
Shi Li-Wei
Zhang Fu-Suo [1 ]
机构
[1] China Agr Univ, Coll Resources & Environm Sci, Beijing 100094, Peoples R China
[2] Laiyang Agr Coll, Dept Agron, Laiyang 265200, Peoples R China
关键词
apparent N losses; optimum N rate; residual soil nitrate N; soil mineral N; winter wheat yield;
D O I
10.1016/S1002-0160(06)60117-3
中图分类号
S15 [土壤学];
学科分类号
0903 ; 090301 ;
摘要
Excessive nitrogen (N) fertilizer application to winter wheat is a common problem on the North China Plain. To determine the optimum fertilizer N rate for winter wheat production while minimizing N losses, field experiments were conducted for two growing seasons at eight sites, in Huimin County, Shandong Province, from 2001 to 2003. The optimum N rate for maximum grain yield was inversely related to the initial soil mineral N content (N-min) in the top 90 cm. of the soil profile before sowing. There was no yield response to the applied N at the three sites with high initial soil mineral N levels (average 212 kg N ha(-1)). The average optimum N rate was 96 kg N ha(-1) for the five sites with low initial soil N-min (average 155 kg N ha(-1)) before sowing. Residual nitrate N in the top 90 cm of the soil profile after harvest increased with increasing fertilizer N application rate. The apparent N losses during the wheat-growing season also increased with increasing N application rate. The average apparent N losses with the optimum N rates were less than 15 kg N ha(-1), whereas the farmers' conventional N application rate resulted in losses of more than 100 kg N ha(-1). Therefore, optimizing N use for winter wheat considerably reduced N losses to the environment without compromising crop yields.
引用
收藏
页码:806 / 812
页数:7
相关论文
共 21 条
[11]   Soil nitrogen amendment effects on seasonal nitrogen mineralization and nitrogen cycling in maize production [J].
Ma, BL ;
Dwyer, LM ;
Gregorich, EG .
AGRONOMY JOURNAL, 1999, 91 (06) :1003-1009
[12]  
Meisinger JJ, 1984, NITROGEN CROP PRODUC, P391
[13]  
PAN J, 2001, THESIS CHINA AGR U
[14]  
PIER JW, 1995, J ENVIRON QUAL, V2, P75
[15]   SOIL-PLANT BUFFERING OF INORGANIC NITROGEN IN CONTINUOUS WINTER-WHEAT [J].
RAUN, WR ;
JOHNSON, GV .
AGRONOMY JOURNAL, 1995, 87 (05) :827-834
[16]   SOIL NITRATE ACCUMULATIONS FOLLOWING NITROGEN-FERTILIZED CORN IN PENNSYLVANIA [J].
ROTH, GW ;
FOX, RH .
JOURNAL OF ENVIRONMENTAL QUALITY, 1990, 19 (02) :243-248
[17]   CORN RESPONSE TO LONG-TERM NITROGEN AND PHOSPHORUS FERTILIZATION [J].
SCHLEGEL, AJ ;
HAVLIN, JL .
JOURNAL OF PRODUCTION AGRICULTURE, 1995, 8 (02) :181-185
[18]   Optimizing nitrogen and irrigation inputs for corn based on nitrate leaching and yield on a coarse-textured soil [J].
Sexton, BT ;
Moncrief, JF ;
Rosen, CJ ;
Gupta, SC ;
Cheng, HH .
JOURNAL OF ENVIRONMENTAL QUALITY, 1996, 25 (05) :982-992
[19]  
WANG XR, 1995, J BEIJING AGR U, V21, P94
[20]  
Zhang W.L., 1995, PLANT NUTR FERTILIZE, V1, P80