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Improvement of diseases resistance and productivity of winter wheat varieties and their post- registration studying
2008
Гончаренко, М. П | Андрющенко, А. В | Уліч, Л. І | Кривий, М. С | Пашківська, Ю. В | Бусмак, О. А
Results of four-years assessment of approximately 90 winter wheat varieties at post- registration research on the background of crops chemical protection and in its absence at Biloczerkivska DSDS (forest- steppe zone) and Borodianska DSDS (subforest zone) are represented in this article. Methods of their immunological assessment and determination of potential productivity have been developed too. Authors are recommending to conduct immunological assessment of varieties on their natural background of diseases development and assess potential productivity in conditions of plants chemical protection as this is the element of crop growing technology.
显示更多 [+] 显示较少 [-]Efficiency of foliar dressing of winter wheat
2017
Худолій, Л. В
Purpose. To elaborate winter wheat cultivation technologies based on balanced fertilizer system that combines application of mineral fertilizers and the increase of their efficiency by the use of preparations with microelements. Methods. Field and laboratory studies, mathematical and statistical analysis. Results. During 2011–2013, the effect of cultivation technologies on the formation of yield and quality of winter wheat variety ‘Benefis’ (pea is a predecessor) was studied. In case of alternative technologies that provided adding only by-products of the predecessor, the yield of winter wheat was 3.73 t/ha when using integrated protection system, and it was increased to 4.22 t/ha with grain quality of the 4th–5th class of the group B when foliar dressing was applied. Resource saving technologies of cultivation with restricted use of fertilizers (Р45К45N30(II)+30(IV)) provided productivity at the level of 5.19–5.61 t/ha with grain quality of the 2nd–3rd class of the group A. Grain yield of 6.27 t/ha of the 2nd class quality was obtained by the use of intensive cultivation technology, which included application of mineral fertilizers (Р90К90N30(II)+60(IV)+30(VIII)) in addition to the use of predecessor’s by-products and foliar dressing. The highest yield of grain (6.71 t/ha) on average during all years of the study with the 1st class of the group A quality was provided by energy-intensive technology, which included application of P135K135N60(II)+75(IV)+45(VIII) with embedding of predecessor’s by-products into the soil and foliar dressing. Conclusions. It was established that in the northern part of the Forest-Steppe zone of Ukraine the highest productivity of winter wheat was obtained in dark gray podzolic soils using the energy-intensive technology with application of P135K135N60(II)+75(IV)+45(VIII) against the background of predecessor’s by-products embedded into the soil in case of integrated plant protection, and foliar dressing. This technology ensured the yield of 6.71 t/ha with grain quality of the 1st class of the group A.
显示更多 [+] 显示较少 [-]Impact of cultivation technologies elements on winter wheat grain productivity and quality
2016
Олійник, К. М | Давидюк, Г. В | Блажевич, Л. Ю | Худолій, Л. В
Purpose. To develop and improve adaptive technologies of winter wheat cultivation which provide high productivity and quality of grain. Methods. Field and laboratory studies, mathematical and statistical analysis. Results. During 2011–2015, the impact of cultivation technologies on the formation of grain quality and yield of winter wheat variety ‘Stolychna’ (with pea as predecessor) was studied. When using alternative technologies with only predecessor by-products application, the yield of winter wheat with integrated crop protection system was 4,56 t/ha, with minimal protection – 4.25 t/ha with grain quality of the 5th class of B group. Resource saving cultivation technologies with limited application of fertilizers (Р45К45N30(II)+30(IV)) provided productivity at the level of 4,87–5,50 t/ha with grain quality of the 2nd–3rd class of A group. Grain yield of 6.01 t/ha with indicators of the 2nd–3rd class of quality was obtained with the use of intensive cultivation technology with application of mineral fertilizers (Р90К90N30(II)+60(IV)+30(VIII)) on the background of applying predecessor’s by-products and integrated crop protection. The highest yield of grain (6.22 t/ha) with indicators of the 2nd class of A group quality on average for the research period was provided by energy-intensive technology, that requires the application of mineral fertilizers (P135K135N60(II)+75(IV)+45(VIII)) and incorporation of predecessor’s by-products in the soil, and integrated plant protection. Conclusion. It was found that in the northern part of the Right-Bank Forest-Steppe zone of Ukraine, the highest productivity of winter wheat was obtained in dark grey podzolic soils when using the energy-intensive technology with application of P135K135N60(II)+75(IV)+45(VIII) on the background of predecessor’s by-products and integrated crop protection. This technology ensured the grain yield of 6.22 t/ha of the 2nd class of A group quality.
显示更多 [+] 显示较少 [-]Plant varieties protection in the European Union: legal aspects
2015
Якубенко, Н. Б | Федяй, М. В | Линчак, Н. Б | Скоблікова, С. М
Purpose. Reviewing the EU legislation on plant varieties protection including documents of the International Union for the Protection of New Varieties of Plants (UPOV) that related to the national laws of its member states. Results. Based on the sources processed, the authors give a brief analysis of the basic EU Council Regulation № 2100/94 of 27 July 1994 on Community plant variety rights and regulations of the European Commission adopted to implement it. Basic copyright concepts, features of plant varieties protection in the EU, including those under the UPOV Convention, are also considered. Conclusions. For Ukraine, obtaining full membership in the EU, on the one hand, requires harmonization of its laws with the relevant EU legislation, on the other – improvement of the present system of plant varieties protection taking into account national interests of Ukraine.
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