EFFICIENCY OF IRON OXIDE NANOPARTICLE APPLICATION IN THE GROWING OF SPRING BARLEY AND SOYBEAN

M. Novokhatsky, O. Bondarenko, N. Maidanovych
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Abstract

The aim of this research was to study of efficiency of iron oxide nanoparticle application (nano Fe+) in the cultivation of spring barley and soybeans by different systems of basic tillage in the Forest-Steppe of Ukraine. Methods. The effectiveness of nano Fe+ applying was determined by determining the biological yield of the studied crops and its structure and comparison with the control version of the experiment (without the use of nanopreparation). The studied crops were spring barley and soybeans. The number of variants of the experiment were 16 (8 variants for each culture). Number of repetitions – three. The research was carried out according to the following scheme: factor A – tillage system (A1 – traditional, A2 – conservation, A3 – mulching, A4 – mini-till); factor B – iron oxide nano Fe+ (B1 – control (without the use of nano Fe+), B2 – the use of nano Fe+ for seed treatment at a rate of 5 mg/t). Used nanopreparation of black iron oxide magnetite is a polyvalent iron oxide (FeO - Fe2O3 - Fe3O4). Results of field research showed a tendency to increase the yield of barley and soybeans with the use of iron oxide nanoparticles in the treatment of seed material. The increase in the yield of spring barley was different depending on the system of basic tillage and ranged from 5 % (conservation system) to 25 % (traditional system). The most favorable conditions for the formation of spring barley yield within the experiment were formed by the mulching system of tillage, which together with the use of nano Fe+ allowed to form the biological yield of the crop at the level of 61,2 c/ha. The effect of direct exposure to nano Fe+ in the case of the mulching system was a 12 % increase in yield compared to control. The use of nano Fe+ on soybean crops helped to increase plant survival. Biological yield during soybean seed treatment nano Fe+ was higher in almost all tillage options. The greatest effect from the use of nano Fe+ was observed for the traditional tillage system (+ 55 % compared to the control). Conclusions. The results of the field experiment revealed a positive effect from the use of nano Fe+ in seed treatment in the technology of growing spring barley and soybeans. It is noted that nano Fe+ influenced the growth and development of the studied crops and the formation of their yields. The average level of biological yield of spring barley (for all applied tillage systems) without nano Fe+ treatment was 50 c/ha, and with the use of nanopreparation – 58 c/ha. For soybeans, the average level of biological yield for all studied systems without nano Fe+ was 17 c/ha, and with the use of nanopreparation – 21,6 c/ha.
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纳米氧化铁在春大麦和大豆生产中的应用效果
本研究的目的是研究纳米氧化铁(纳米铁+)在乌克兰森林草原不同基本耕作制度下春大麦和大豆种植中的效率。方法。通过测定所研究作物的生物产量及其结构,并与对照试验(不使用纳米修复)进行比较,确定纳米铁+施用的有效性。研究的作物是春大麦和大豆。实验的变异数为16个(每个培养8个变异)。重复次数——三次。研究按以下方案进行:因子A耕作制度(A1 -传统,A2 -保护性,A3 -覆盖,A4 -微耕);因子B -氧化铁纳米铁+ (B1 -控制(不使用纳米铁+),B2 -使用纳米铁+以5 mg/t的速率进行种子处理)。采用纳米法制备的黑氧化铁磁铁矿是一种多价氧化铁(FeO - Fe2O3 - Fe3O4)。田间研究结果表明,使用氧化铁纳米颗粒处理种料有提高大麦和大豆产量的趋势。春大麦的增产幅度因基本耕作制度而异,在保护性耕作制度5% ~传统耕作制度25%之间。试验范围内春大麦产量形成的最有利条件是耕作覆盖制度,加上纳米铁+的使用,可形成作物61.2 c/ha水平的生物产量。在覆盖系统的情况下,直接暴露于纳米铁离子的效果比对照增产12%。在大豆作物上施用纳米铁离子有助于提高植物存活率。在大豆种子处理期间,纳米铁+几乎在所有耕作方式中都具有较高的生物产量。使用纳米铁离子对传统耕作系统的影响最大(与对照相比增加55%)。结论。田间试验结果表明,纳米铁离子在春大麦和大豆的种子处理技术中具有积极的效果。结果表明,纳米铁离子对所研究作物的生长发育和产量的形成有一定的影响。未施用纳米铁+的春大麦生物产量平均水平为50 c/公顷,施用纳米铁+的春大麦生物产量平均水平为58 c/公顷。对大豆而言,在不施用纳米铁离子的情况下,所有系统的平均生物产量为17 c/ha,而施用纳米铁离子的系统的平均生物产量为21.6 c/ha。
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