The use of microfertilizers on the background of the main fertilizer helps to increase the efficiency of plant use of nutrients of mineral fertilizers and soil, which provides increased yields and improved quality indicators of the crop. The aim of the research was to establish the influence of culture conditions and selection of high-yielding hybrids (NK Diamantis, SI Kupava, NK Neoma) for specific soil and climatic conditions through the formation of their productivity. Field research was conducted during 2018–2019 on typical low-humus chernozems of the Chernihiv region. The research program provided for the establishment of a three-factor field experiment, which studied hybrids (factor A) fertilizer options (factor B) and foliar fertilization (factor C) in phase 4 and 8 sunflowers leaves with Ecoline Bor, Nertus Bor, Bast Bor. The studied sunflower hybrids are NK Diamantis, SI Kupava, NK Neoma. Studies have shown that the most productive was the hybrid SI Kupava with the maximum yield on the variant with the use of N36R56K108S28 + N23 + Ecoline Boron (in phase 4 and 8 leaves of 1 l / ha) - 3.46 t / ha. The fat content in the seeds of sunflower hybrids was determined by the morphobiological features of the hybrid and fertilizer options. The use of foliar fertilization with trace elements had a positive effect on the fat content in the seeds of sunflower hybrids, which allowed to obtain the maximum value for the option of making N36R56K108S28 + N23 + Ecoline Boron (5-6 leaves) in plants of the hybrid SI Kupava - 51.1%. The maximum content of oleic acid was found in the hybrid SI Kupava on the variant with the introduction of N27R42K81S21 + N23 + Ecoline Boron (5-6 leaves) - 77.2%. Due to the use of fertilizers containing boron, the content of this polyunsaturated acid can be increased by improving the quality of sunflower seed oil. The highest oil yield, according to the calculations, was obtained on the variant with the introduction of N36R56K108S28 + N23 + Ecoline Boron (5-6 leaves) in plants of the hybrid SI Kupava, which was 1.64 tons per 1 hectare.
Nutritional conditions of plants during the growing season is one of the main factors aimed at realizing the genetic potential of sunflower hybrids for growing them in any soil and climatic conditions. Currently, it is important to study the genetic potential of domestic hybrids under different growing conditions in order to identify their competitiveness, which provides an increase in quality and yield of the crop. The use in the production of a significant range of complex microfertilizers on the background of the main fertilizer helps to increase the efficiency of plant use of nutrients of mineral fertilizers and soil, is one of the ways to increase crop yields and quality of agricultural products. Despite the relevance of sunflower as the main oil crop, the technology of its cultivation is not a perfect study, in addition, previous studies often contain conflicting indicators. An important place among the agronomic techniques aimed at increasing crop productivity belongs to the provision of optimal plant nutrition conditions during the growing season. The purpose of the research was to establish the influence of culture conditions and selection of high-yielding hybrids (NK Diamantis, SI Kupava, NK Neoma) for specific soil and climatic conditions through the formation of their productivity. The purpose of the research was to establish the influence of culture conditions and selection of high-yielding hybrids (NK Diamantis, SI Kupava, NK Neoma) for specific soil and climatic conditions through the formation of their productivity. The research was conducted during 2018–2019 on typical low-humus chernozems. The research program provided for the establishment of a three-factor field experiment, which studied hybrids (factor A) fertilizer options (factor B) and foliar fertilization of crops (factor B) in phase 4 and 8 sunflower leaves with Ecoline Bor, Nertus Bor, Bast Bor. The studied sunflower hybrids are NK Diamantis, SI Kupava, NK Neoma. The results of the research revealed significant changes in the diameter of the sunflower inflorescence under the influence of different nutritional conditions created by fertilizer options. The influence of hybrid characteristics also determined this indicator. Plants of the hybrid NK Diamantis formed baskets, the diameters of which varied from 17.6 to 21.2 cm, SI Kupava - from 18.8 to 22.1 cm, NK Neoma – from 17.2 to 21.6 cm. The maximum value was obtained on variant with the introduction of N36P56K108S28 + N23 + Ecoline Boron (phase 4 and 8 leaves) in plants of the hybrid SI Kupava, which corresponded to 22.1 cm. The weight of 1 000 achenes belonging to genetically determined traits of culture, in plants of the hybrid NK Diamantis, depending on the fertilizer variant varied from 59.3 to 62.3 g, SI Kupava from 69.8 to 74.0 g, NK Neoma from 68.8 to 72.6 g. The maximum value was provided by the variant with the use of N36P56K108S28 + N23 + Ecoline Boron (phase 4 and 8 leaves). Studies have shown that the most productive was the hybrid SI Kupava with the maximum yield on the variant with the use of N36P56K108S28 + N23 + Ecoline Boron (in phase 4 and 8 leaves of 1 l / ha) – 3.46 t per ha.
An important place among the factors that ensure a high yield of sunflower is occupied by plant nutrition conditions throughout the growing season and technological measures aimed at realizing the genetic potential of sunflower in some regions of Ukraine. It to Deeply study the potential of domestic hybrids under different growing conditions is necessary to identify their competitiveness and promotion, which will increase the quality and yield of the crop as a whole. Introduction and application in the production of new complex microfertilizers on the background of basic fertilizers, which can increase the efficiency of plant nutrients of mineral fertilizers and soil, is one of the ways to increase crop yields and quality of agricultural products. Despite the importance of sunflower as one of the traditional crops of Ukraine, the technology of its cultivation in the Steppe zone today has many unsolved problems. Among the technical measures aimed at increasing the yield of sunflower, an important place is occupied by the choice of optimal rates of fertilizer application and micronutrient fertilization in critical periods of crop development. The purpose of the research was to establish the influence of fertilizers and selection of high-yielding hybrids (NK Diamantis, SI Kupava, NK Neoma) for specific soil and climatic conditions through the formation of their productivity. Field research was conducted during 2018–2019 on typical low-humus chernozems. As a result of research, it was found that the use of twice foliar fertilization on the background of the main fertilizer Ecoline Bor, Nertus Bor, Bast Bor in phase 4 and 8 leaves of 1 L_ha stimulated the formation of leaf surface, contributed to the accumulation of dry matter and high yields sunflower hybrids. Maximum indicators of the leaf surface area were formed in the flowering phase of sunflower plants, which under the influence of fertilizer variants changed in the following range: in plants of the hybrid NK Diamantis from 37.6 to 48.7 thousand m2_ha, SI Kupava was 41.1 - 52.39 thousand m2_ha, NK Neoma - 36.5- 47.6 thousand m2_ha. The highest indicator of leaf area was formed by plants of the SI Kupava hybrid on the variant with application of N36P56K108S28 + N23 + Ecoline Bor ”( 4 and 8 leaves), which amounted to 52.39 thousand m2_ha.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.