J. Deienno, S. S. Souza, A. P. Coelho, L. B. Lemos
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The plots comprised maize alone, intercropped with sunn hemp (Crotalaria spectabilis), or intercropped with ruzigrass (Urochloa ruziziensis). The subplots were under four N rates: 0, 70, 140, and 210 kg ha-1. The intercropping systems promoted greater N accumulation and straw production and did not reduce grain yield (GY). The addition of N fertilizers increased leaf nitrogen content (LNC) and GY. Intercropping reduced maize LNC; however, higher N fertilizer application in topdressing mitigated this effect. The intercropping of maize with cover crops is a viable and sustainable alternative for agriculture, as maize GY is not affected, and there is a greater straw production and N accumulation. 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引用次数: 3
摘要
DOI:https://doi.org/10.18512/rbms2021v20e1225玉米间作和氮肥以粮食产量和实施免耕系统为目标摘要-粮食作物与覆盖作物间作是一种可持续的种植策略,有助于确保免耕系统(NTS)的秸秆生产和连续作物的养分供应,尤其是氮。本研究的目的是评估玉米(Zea mays L.)种植制度(CS),当单独种植或与sunn大麻和ruzigrass间作时,结合追肥中的氮肥,对玉米农艺性能和秸秆积累的影响。该实验在2017/2018赛季进行,采用四次重复的分裂地块方案,采用随机区组设计。这些地块包括单独种植玉米、与向日葵(Crotalaria spectabilis)间作或与ruzigrass(Urochloa ruziziensis)间作。亚地块在4种N率下:0、70、140和210 kg ha-1。间作系统促进了更多的氮积累和秸秆生产,但没有降低粮食产量(GY)。氮肥的添加增加了玉米叶片氮含量(LNC)和GY。间作降低了玉米的LNC;然而,在追肥中施用更高的氮肥减轻了这种影响。玉米与覆盖作物间作是一种可行和可持续的农业替代方案,因为玉米GY不受影响,秸秆产量和氮积累量更大。因此,NTS的实施将有助于增加连续作物的氮供应。
MAIZE INTERCROPPING AND NITROGEN FERTILIZATION AIMING GRAIN YIELD AND IMPLEMENT A NO-TILL SYSTEM
DOI: https://doi.org/10.18512/rbms2021v20e1225 MAIZE INTERCROPPING AND NITROGEN FERTILIZATION AIMING GRAIN YIELD AND IMPLEMENT A NO-TILL SYSTEM Abstract – Intercropping grain crops with cover crops is a sustainable cultivation strategy that is useful for ensuring straw production for the no-tillage system (NTS) implementation and supply of nutrients, especially N, for successive crops. The aim of this study was to evaluate the influence of maize (Zea mays L.) cropping systems (CSs), when grown alone or intercropped with sunn hemp and ruzigrass, in combination with N fertilization in topdressing, on the maize agronomic performance and straw accumulation with NTS implementation. The experiment was conducted during the 2017/2018 season with a randomized block design in a split-plot scheme with four replications. The plots comprised maize alone, intercropped with sunn hemp (Crotalaria spectabilis), or intercropped with ruzigrass (Urochloa ruziziensis). The subplots were under four N rates: 0, 70, 140, and 210 kg ha-1. The intercropping systems promoted greater N accumulation and straw production and did not reduce grain yield (GY). The addition of N fertilizers increased leaf nitrogen content (LNC) and GY. Intercropping reduced maize LNC; however, higher N fertilizer application in topdressing mitigated this effect. The intercropping of maize with cover crops is a viable and sustainable alternative for agriculture, as maize GY is not affected, and there is a greater straw production and N accumulation. Therefore, NTS implementation will help in increasing N supply in successive crops.
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