DETERMINING THE EFFICIENCY OF NITROGEN FERTILIZERS ON MAIZE USING ISOTOPE METHODS AT DIFFERENT IRRIGATION LEVELS

Q4 Agricultural and Biological Sciences

Indonesian Journal of Agricultural Science Pub Date : 2022-12-29 DOI:10.21082/ijas.v23n2.2022.p48-55

L. Anggria, T. Rostaman, N. L. Nurida, H. Husnain

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Abstract

The isotope technique can be used to improve and develop land management systems, including the effective and efficient use of nutrients and water to increase crop productivity. The study aimed to obtain information on nutrient uptake by maize and the efficiency of nitrogen fertilizers at some irrigation water levels in sub-optimal land. This study was conducted at the Research Station of Taman Bogo, East Lampung, Indonesia. The study used a split-plot design in a randomized group with three replications. The main plots consisted of water levels 100%, 80%, and 60% based on FAO’s recommendation, whereas the sub-plots were N fertilizer in the form of urea 15N labels with the rates 0, 100, and 135 kg N ha-1. The results showed that the average grain yield of maize (8.0 t ha-1) was the highest for 135 kg N ha-1 and 80% irrigation water. The application of 100 kg N ha-1 with 80% irrigation water was sufficient for increasing N uptake in grain and biomass. The highest efficiency (15.7–16.7%) of N fertilizer on maize was shown by treatments of 135 kg N ha-1with 100% irrigation water and 100 kg N ha-1 with 80% irrigation water. With the isotope method, the N efficiency from fertilizers can be traced

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同位素法测定不同灌溉水平下玉米施用氮肥的效率

同位素技术可用于改善和发展土地管理系统，包括有效和高效地利用养分和水来提高作物生产力。这项研究的目的是获得关于次优土地上玉米的养分吸收和某些灌溉水位下氮肥效率的信息。这项研究是在印度尼西亚东楠榜的Taman Bogo研究站进行的。该研究在一个随机组中采用了三次重复的分割图设计。根据粮农组织的建议，主地块包括100%、80%和60%的水位，而子地块是尿素15N标签形式的氮肥，施用量分别为0、100和135 kg N ha-1。结果表明，135 kg N ha-1和80%灌溉水条件下，玉米的平均产量（8.0 t ha-1）最高。施用100kg的N ha-1和80%的灌溉水足以增加谷物对N的吸收和生物量。135kg N ha-1和100kg N ha-1分别以100%灌溉水和80%灌溉水处理的玉米氮肥施用效率最高（15.7–16.7%）。利用同位素方法，可以追踪肥料的氮效率

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来源期刊

Indonesian Journal of Agricultural Science Agricultural and Biological Sciences-Soil Science

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

12 weeks