Effect of nitrogen topdressing on planting density response of grain yield in maize with different planting pattern cultivation

IF 1.1 4区 农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY
Song Liang, Taiki Yoshihira
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引用次数: 2

Abstract

We investigated the maize grain yield in response to nitrogen topdressing at different planting densities and planting patterns (twin row, TR; narrow row, NR; and conventional row, CR) over 3 years using early-maturing cultivars. The P8025 grain yield was higher with a nitrogen topdressing of 6 g/m2 (N6) than without a nitrogen topdressing (N0) at all planting densities in 2017, 2018, and 2019. The difference between the nitrogen topdressing treatments was largest at a planting density close to 10 plants per square meter, which resulted in the highest grain yield in the N0 plot. The rank order for the grain yields among planting patterns was TR ≥ NR > CR in the three analyzed years. Changes in grain yield associated with planting densities followed significant negative quadratic regression curves for all planting patterns. In both the N0 and N6 plots, the grain yield response to planting density was more stable for TR cultivation than for CR and NR cultivation. The rank order for the nitrogen use efficiency (NUE) among planting patterns was TR ≥ NR ≥ CR. The differences in the NUE among planting patterns were higher at higher planting densities. The high NUE observed for TR and NR cultivation was due to the high topdressed nitrogen absorption rate (Nab) at a planting density less than 8.9 plants per square meter as well as the efficiency of the grain yield increase resulting from absorbed nitrogen (Ngy) at a planting density greater than 10.3 plants per square meter. The higher NUE for TR cultivation than for NR cultivation at 12.1 plants per square meter was because of a difference in Ngy and was unrelated to Nab. These results suggest that the improvement of planting pattern (TR, NR) can enhance the effect of topdressed nitrogen on grain yield in maize due to the increase of Nab or Ngy according to the planting density.

氮肥追肥对不同种植模式玉米产量密度响应的影响
研究了不同种植密度和种植模式(双行,TR;窄排,NR;和常规行,CR)超过3年使用早熟品种。2017、2018和2019年,在所有种植密度下,施氮6 g/m2 (N6)的P8025籽粒产量均高于不施氮(N0)的P8025。氮肥追肥处理在种植密度接近10株/ m2时差异最大,产量最高。三种种植方式的粮食产量排序为TR≥NR > CR。籽粒产量随种植密度的变化均呈显著的负二次回归曲线。在N0和N6样地,TR栽培比CR和NR栽培对种植密度的响应更稳定。不同种植方式的氮素利用效率(NUE)排序为TR≥NR≥CR。种植密度越大,不同种植方式间氮肥利用效率差异越大。TR和NR栽培的高氮素利用效率是由于种植密度小于8.9株/ m2时的高氮吸收率(Nab)和种植密度大于10.3株/ m2时吸收氮(Ngy)的增产效率。TR栽培的氮素利用效率高于NR栽培,为12.1株/ m2,这是由于氮素的差异,与Nab无关。综上所述,改良种植模式(TR、NR)可根据种植密度增加Nab或Ngy,从而增强追肥氮对玉米籽粒产量的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Grassland Science
Grassland Science Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
2.70
自引率
7.70%
发文量
38
审稿时长
>12 weeks
期刊介绍: Grassland Science is the official English language journal of the Japanese Society of Grassland Science. It publishes original research papers, review articles and short reports in all aspects of grassland science, with an aim of presenting and sharing knowledge, ideas and philosophies on better management and use of grasslands, forage crops and turf plants for both agricultural and non-agricultural purposes across the world. Contributions from anyone, non-members as well as members, are welcome in any of the following fields: grassland environment, landscape, ecology and systems analysis; pasture and lawn establishment, management and cultivation; grassland utilization, animal management, behavior, nutrition and production; forage conservation, processing, storage, utilization and nutritive value; physiology, morphology, pathology and entomology of plants; breeding and genetics; physicochemical property of soil, soil animals and microorganisms and plant nutrition; economics in grassland systems.
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