滴灌施肥是将滴灌与施肥相结合的一项新技术。
Fertilization by drip irrigation (hereafter as FDI) is a new technique.
对滴灌施肥灌溉条件下水分和养分运移的研究进展进行了总结。
The research situation on water and fertilizer transport in soil under fertigation through drip irrigation systems is reviewed in this paper.
因此,研究滴灌施肥下不同水肥因子对玉米产量的效应具有重要的现实意义。
So it has been attached great importance on the effect of irrigation and fertilization, as well as its influence on yield of corn.
在膜下滴灌条件下,进行了不同氮肥滴灌施肥方式和土壤盐度对棉花生长和氮素吸收影响的田间试验。
It is of great importance to study the growth and nitrogen(N) uptaking by cotton for optimizing soil salinity, irrigation and fertilization strategies with drip irrigation under film.
因此,HYDRUS - 2d软件可以作为预测滴灌施肥灌溉条件下水分和氮素在土壤中运移的有效工具。
It is concluded that the HYDRUS-2D software can be used to implement water and nitrate transport in soil under drip fertigation.
滴灌施肥作为一种先进的水分调控技术,近年来国外已开始广泛采用,但对滴灌施肥条件下肥料养分在土壤中迁移转化规律的了解尚十分有限。
Fertigation by drip irrigation as an advanced technology to control the supply of water and nutrients has been applied by other countries in recent years.
并初步讨论了滴灌条件下不同灌溉施肥时段对尿素转化运移规律的影响。
Besides, we discussed the effects of different fertilization period on the principles of Urea-N transformation and transport under drip-irrigation in this paper.
研究施肥量和灌水量对不同滴灌模式棉花产量、水分利用效率(WUE)的水氮耦合效应影响。
The coupling effect of water and nitrogen on cotton yield and water use efficiency(WUE) was studied under different drip irrigation patterns.
研究施肥量和灌水量对不同滴灌模式棉花产量、水分利用效率(WUE)的水氮耦合效应影响。
The coupling effect of water and nitrogen on cotton yield and water use efficiency(WUE) was studied under different drip irrigation patterns.
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