A. Coelho, L. Sangoi, M. J. L. C. Sapucay, Felipe Bratti, H. Debiasi, J. C. Franchini, Luiz G. Garbelini, A. A. Balbinot Junior
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引用次数: 1
Abstract
ABSTRACT Second-crop maize-ruzigrass (Urochloa ruziziensis) intercropping, nitrogen (N) fertilization, and high maize plant densities enhance biomass production and N cycling, which may favor soybean growth and yield in the following season. This study aimed to assess the effects of second-crop maize-ruzigrass intercropping, N top dressing, and maize plant density on straw production in autumn/winter, N cycling, and agronomic performance of soybean crops grown in succession. Field experiments were installed in the 2018/2019 and 2019/2020 seasons using a randomized complete block design with split-split plots and four replications. The following factors were investigated: cropping system (sole maize and maize intercropped with ruzigrass), N top dressing (0 and 80 kg ha-1), and maize plant density (40, 60, 80, and 100 thousand plants ha-1). Maize-ruzigrass intercropping improved straw yield (2,365 kg ha-1) and N cycling (50 kg ha-1), and increased soybean yield in the following season (232 kg ha-1). N fertilization of maize increased soybean grain yield by 180 kg ha-1. Maize plant density did not influence the performance of succeeding soybean crops, regardless of the growing season.
二季玉米-穗草间作、施氮和玉米密度提高可促进生物量生产和氮循环,有利于大豆下一季的生长和产量。本试验旨在评价二季玉米-紫穗草间作、氮肥追肥和玉米密度对秋冬秸秆产量、氮素循环和大豆连作农艺性能的影响。现场试验于2018/2019和2019/2020季节进行,采用随机完全区组设计,分拆样区和4个重复。研究了玉米种植制度(单作玉米和间作玉米)、氮肥追肥(0和80 kg ha-1)和玉米种植密度(40、60、80和10万株ha-1)。玉米-紫穗草间作提高了秸秆产量(2365 kg hm -1)和氮素循环(50 kg hm -1),并提高了下一季大豆产量(232 kg hm -1)。玉米施氮可提高大豆籽粒产量180 kg hm -1。无论生长季节如何,玉米种植密度对后续大豆作物的生产性能没有影响。
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