Residual Nitrogen Contributions from Grain Legumes to the Growth and Development of Succeeding Maize Crop

ISRN Agronomy Pub Date : 2012-08-08 DOI:10.5402/2012/213729

M. Adeleke, I. Haruna

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引用次数: 26

Abstract

Field experiment was conducted at the Institute for Agricultural Research Farm at Samaru, Nigeria in 2008 and 2009 rainy seasons to investigate the residual nitrogen contributions by four legume crops (soyabean, cowpea, lablab, and groundnut) to the growth and development of succeeding maize given four levels of nitrogen fertilizer (0, 40, 80, and 120 kg N ha−1). In 2008, the treatments consisted of four legumes, maize and a fallow period. The six treatments were laid out using randomized complete block design replicated four times. In 2009, maize crop was planted on the previous crops’ plots and fallow. The experimental design used was split-plot with previous legumes, maize, or fallow as main plots, and the four nitrogen fertilizer treatments as subplots. Results obtained showed that nitrogen availability in the top soils of the previous legumes and fallow compared with that of maize plot was increased by 250, 200, 170, 107 and 157% after lablab, groundnut, cowpea, soyabean and fallow, respectively. Maize grown on previous lablab plot significantly recorded higher growth characters compared with maize following other legumes and fallow. Growth of maize was highest with the application of lower rates of nitrogen after lablab and groundnut compared with maize after maize.

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豆科作物残氮对后续玉米作物生长发育的贡献

2008年和2009年雨季，在尼日利亚萨马鲁的农业研究所农场进行了田间试验，研究在4个氮肥水平(0、40、80和120 kg N ha - 1)下，4种豆科作物(大豆、豇豆、lablab和花生)对后续玉米生长发育的剩余氮贡献。2008年，这些处理包括四种豆类、玉米和一段休耕期。6个处理采用随机完全区组设计，重复4次。2009年，玉米作物被种植在以前作物的地块和休耕地。试验设计为以豆科作物、玉米或休耕为主区，4个氮肥处理为次区。结果表明:豆科、花生、豇豆、大豆和休耕后的表层土壤氮有效性分别比玉米田提高了250、200、170、107和157%。与其他豆科作物和休耕后的玉米相比，先前试验田种植的玉米的生长性状显著提高。与玉米后施氮量相比，花生后施氮量较低的玉米生长最快。

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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ISRN Agronomy

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