In order to understand the effect of CO2,CH4 and N2O gas released by rice on the greenhouse effect and its utilization rate of
nitrogen fertilizer,to find a reasonable water and fertilizer control mode,and to reduce greenhouse enhancement effect of crop and large area
non-point source pollution due to the excessive use of nitrogen,the experimental study with 3 irrigation modes ( control irrigation,intermittent
irrigation,flood irrigation) and 4 nitrogen application levels ( 140,110,70 kg / hm2
,no nitrogen fertilizer) were conducted in 2016 under
field conditions. The effects of the above 12 combinations on rice yield,harvest index,greenhouse gas emission,greenhouse effect,water
and nitrogen use efficiency were studied. The results show that the increase of N can effectively enhance rice yield and the control irrigation
mode has significant effect of yield increase; different irrigation patterns have less effect on the yield of rice straw; under the submerged
irrigation mode,the effect of different nitrogen application rates on the number of grains per spike is small,which is less than 66 or so; for
different irrigation modes,the emission per unit area of CO2,CH4 and N2O of the high nitrogen application treatment is lower than that of the
control group; the greenhouse effect produced by CH4 is much larger than that of CO2 and N2O; the order of the total greenhouse effect of
different irrigation methods from large to small is flooded irrigation,control irrigation,intermittent irrigation,which indicates that water -
saving irrigation can reduce the overall greenhouse effect of the crop to the atmosphere and the nitrogen utilization rate of rice increases shows
a downward trend with the increase of nitrogen.
ZAN Peng, CHEN Yan-ping.
A Study on Greenhouse Effect and Water and Nitrogen Use Efficiency
Under Different Water and Fertilizer Coupling Modes[J].Water Saving Irrigation, 2018(2): 56-60
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