综合农艺管理对夏玉米氮效率和土壤硝态氮的影响

doi:10.3724/SP.J.1006.2013.02009

Abstract

Abstract:

A field study with an integrated management experiment and a nitrogen (N) application rate test was conducted to explore the effects of integrated agronomic practices such as sowing methods, sowing time, fertilizers amount and applied date and harvest time on N efficiency and nitrate N of summer maize,. Results showed that, with increasing N application amount partial factor productivity of applied N increased and N fertilizer agricultural utilization efficiency decreased significantly; N use efficiency and N harvest index increased first and then decreased gradually, and both of them reached the maximum at a N application of 184.5 kg ha^-1; the N accumulation before tasseling stage and nitrate N accumulation in 0–30 cm soil increased. That means that it is difficult to realize high N efficiency and lower soil N accumulation persistently. Under integrated management of further high yield and high efficiency treatment (Opt-2), the partial factor productivity of applied N, N fertilizer agricultural utilization efficiency, N use efficiency and N harvest index all increased significantly; the N accumulation before tasseling stage was low, but the N accumulation of plants was higher than that under farmers’ traditional cultivation and lower than that under high yield treatment at harvest time; after harvesting, the nitrate N accumulation in 0–30, 30–60, and 60–90 cm soils was lower than that under farmers’ practices. Therefore the N efficiency of summer maize was increased significantly and the N accumulation trend was reasonable in growing season and the soil nitrate N accumulation was lower after harvesting when the integrating agronomic practices are performed.

Key words: Summer maize, Integrated agronomic practices, N efficiency, Nitrate N, High yield and high efficiency

JIN Li-Bin,CUI Hai-Yan,LI Bo,YANG Jin-Sheng,DONG Shu-Ting,ZHAO Bin,LIU Peng,ZHANG Ji-Wang. Effects of Integrated Agronomic Practices on Nitrogen Efficiency and Soil Nitrate Nitrogen of Summer Maize[J].Acta Agron Sin, 2013, 39(11): 2009-2015.

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