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Summary of quince (Суdonіа oblonga Mill.) development in nursery
2013
Сіленко, В. О | Трохимчук, В. А | Яремко, Н. О
The authors present the results of the study of pears clonal rootstocks, namely the following quince forms: IC 2-10, IC 4-6, S1 and Cydo in the nursery during 2010-2012. Experimental nursery was founded in the spring of 2010, with bushes planting designs of the following dimensions: 1,4*0,3 m. Diameter of the reference root collar of all forms of rootstocks in average over the years of the tests, ranged from 6,7 mm to 7,9 mm and satisfied the requirements of standard (6-12 mm). Among the quince forms under review the best biometric indicators for two years of examination have been registered for IC 2-10, IC 4-6 and S1quince. The IC 4-6 and S1 display better quality of the root system of vertical layers; highest standard layers yield is registered for ІC 2-10, 4-6 and S1forms. IC 2-10 rootstock and S1quince have proved to be the best varieties for the West Steppe of Ukraine by the complex of economic and biological characteristics.
显示更多 [+] 显示较少 [-]Features of formation of Miscanthus giganteus planting material depending on cultivation technology elements
2017
Доронін, В. А | Дрига, В. В | Кравченко, Ю. А | Доронін, В. В
Purpose. To establish biological features of plants growth and development and the formation of Miscanthus giganteus planting material depending on the cultivation technology elements. Methods. Field, laboratory, visual, weight measuring, mathematical and statistical ones. Results. The features of the growth and development of the miscanthus bioenergy crop were investigated including the formation of planting material depending on the combined technology elements application during the planting time, namely: planting time, rhizome mass, the granules and the MaxiMarin absorbent gel. It was established that the increase in plant height and leaf area as well as the miscanthus stems formation was depended on both the rhizome planting time, their size, and the use of the absorbent. During three-year period, increase in plant height was more intensive and leaf area was largest in case of the absorbent application, as compared to the control during all phases of the development for the first and the second planting time regardless of rhizome mass. On the average, the largest leaf area – 1905,9 cm3 – was in the final stage of vegetation in the context of the second planting time for large rhizomes and application of granules and absorbent gel jointly. Increasing the ground mass due to plant height, leaf area and the number of stems benefited the photosynthesis productivity intensity, that influenced the root system increase, and consequently the output of the miscanthus planting material. It was found that there are direct strong correlation between these indices and the rhizome mass. Ground mass growing is contributed to the increase in the rhizome mass, and accordingly the output of the planting material – rhizome. In case of application of granules and absorbent gel jointly, the ground mass of the miscanthus was growing most intensively and accordingly the rhizome mass was the largest, which in the first year of small rhizomes planting was twice as much as compared to the control and was equal to 1090.5 g, for large rhizomes planting this index was respectively 2.4 times more and equal to 1763.9 g. During the second planting time, the application of granules and absorbent gel jointly resulted in the rhizomes mass increase for small rhizomes planting 1.9, large rhizomes – 2.1 times more as compared to the control. Conclusions. Direct strong correlations were established between the intensity of the ground mass growth – the height of plants, the number of leaves, leaf area, the number of buds and the rhizome mass. The growth of the ground mass of plants was contributed to the increase of the root system, and consequenly the output of planting material. In all stages of plant development, the increase of the rhizome mass was more intensive in case of the absorbent application regardless the time of rhizome planting, as compared to the control. The application of granules and absorbent jointly allowed to form the largest rhizome mass.
显示更多 [+] 显示较少 [-]The role of primary root system, coleoptile length and cold resistance in the yield formation of semi-dwarf varieties of spring barley (Hordeum vulgare L.)
2014
Кірдогло, Є. К | Поліщук, С. С | Нагуляк, О. І
For the resistance to a soil drought in the early stages of seed germination the key role plays the primary root system: an activity of seed germination, the number of seminal roots and their length, dry weight of roots and coleoptile length and also the degree of cold resistance at the seedling stage. The stages and methods of the creation of six-row medium-grown barley varieties Vakula and Helios and semi-dwarf varieties Ros and Halychanyn are described.
显示更多 [+] 显示较少 [-]Selection of Rye (Secale cereale L.) by Root System Capacity
2009
Скорик, В. В | Скорик, Волод. В | Симоненко, Н. В | Скорик, О. П
Three synthetics of Winter Rye were being observed for the quantity of seminal roots (QSR) to study their inheritance. High inheritance coefficients in a restricted sense were established. Genetic improvement of the Rye may be a result of direct breeding and of using heterosis effect. QSR expressed essentially negative genetic correlation with plant height, positive with grain size, productive bushiness and weight of grain in the ear of successors, as well as with grain yield per unit of the area. Genetic correlation coefficients shall be used in the applied breeding.
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