Impacts of Silicon Foliar Spraying and Nitrogen Application Techniques on Quantitative and Qualitative Parameters of Rice at Different Planting Spaces

IF 0.9 4区 农林科学 Q3 AGRONOMY Romanian Agricultural Research Pub Date : 2023-01-01 DOI:10.59665/rar4035
Sarvenaz Yahyazadeh, H. Mobasser, E. R. Petroudi, Alireza Daneshmand
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Abstract

The silicon (Si) foliar application along with timely application of nitrogen (N) can be help to increase the quantity and quality of crops. Also, planting spaces is an agronomic technique that can affect yield and quality of rice. The objective of this study was to evaluate the effects of Si foliar application and N application techniques on yield components, grain yield and accumulation of Si and N in rice grains at different planting spaces. The experiment was conducted as a split-split-plot in a randomized complete block design with three replications during two crop years of 2018 and 2019. The experimental treatments included the main plot assigned to planting spaces (25×10 cm, 20×10 cm), the sub-plot assigned to N application techniques (N application as 33.3% at basal + 33.3% at panicle initiation + 33.3% at full heading, N application as 40% at basal + 40% at panicle initiation + 20% at full heading), and the sub-sub-plot assigned to foliar application of Si (control or non-use of Si, Si foliar application). The results indicated that the reducing planting space (20×10 cm) resulted in an increase in the number of panicle number m–2 by 9.3%, followed by an improvement in grain yield by 9.7% compared with planting distance of 25×10 cm. The plants that received N in three equal splits had higher grain yield (6993.1 kg.ha–1 ). The Si-treated plants showed both higher yield parameters and greater physiological characteristics when compared with control plants. We observed an increase in grain yield (10%), N concentration (7%) and uptake (14.3%) in grain, protein content (6.8%), and nitrogen use efficiency (7.1%) by supplying Si fertilizer. Overall, our results revealed that foliar application of Si could be an effective technique for increasing rice grain yield and improving rice nutritional quality.
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硅叶面喷施和施氮技术对水稻不同种植间距定量和定性参数的影响
叶面施硅和及时施氮有助于提高作物的产量和质量。此外,种植空间是一种影响水稻产量和质量的农艺技术。本研究旨在评价不同种植空间下施硅和施氮技术对水稻产量构成、产量和籽粒硅氮积累的影响。在2018年和2019年两个作物年,采用随机完全区组设计,采用裂-裂区设计,3个重复。试验处理包括种植空间主区(25×10 cm, 20×10 cm)、施氮技术分区(基施氮33.3% +穗形成期33.3% +全抽穗期33.3%,基施氮40% +穗形成期40% +全抽穗期20%)和施氮分区(对照或不施硅,叶面施硅)。结果表明:与25×10 cm相比,缩短种植间距(20×10 cm)可使水稻穗数m-2增加9.3%,籽粒产量提高9.7%;三等份施氮的植株籽粒产量较高(6993.1 kg)。农业)。与对照植株相比,硅处理植株表现出更高的产量参数和更强的生理特性。结果表明,施硅可提高籽粒产量(10%)、氮素浓度(7%)和籽粒吸收量(14.3%)、蛋白质含量(6.8%)和氮素利用效率(7.1%)。综上所述,叶面施硅是提高水稻籽粒产量和改善稻米营养品质的有效技术。
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来源期刊
Romanian Agricultural Research
Romanian Agricultural Research 农林科学-农艺学
CiteScore
0.90
自引率
28.60%
发文量
2
审稿时长
>12 weeks
期刊介绍: The Journal ROMANIAN AGRICULTURAL RESEARCH is an “open access” one, which publishes original articles, short communications, presenting new scientific results – theoretical, experimental and technical – on plant breeding and genetics, physiology, biotechnology, mineral nutrition and plant protection, in field crops. Reviews on up-to date subjects and recent research, preferably from Eastern Europe, may also be published.
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