01. Up-to-date technologies in plant growing in historical foreshortening and view of euro integration calls

https://doi.org/10.31073/agrovisnyk201709-01
Petrychenko V. F., Lyhochvor V. V.
Pages: 5-10.

Full article: 
Abstract
The purpose. To study state of models of technologies in plant growing and prospects of their development. Methods. Analysis, synthesis, historical search, generalization. Results. It is established that in Ukraine in conditions of intensification of production of plant growing the most perspective are the following three models: intense, organic (biological) and no-till. In the most widespread intense technologies the greater influence on productivity cause grades, fertilizers and means of protection of plants. Biological technologies provide reception of organic production. No-till technology has also significant advantages: expediency of use in conditions of deficiency of moisture and on slope lands, decrease of expenses, obligatory use of plant residues for mulching surface of soil. Conclusions. Analysis of development of models of technologies in plant growing shows that in bridge will be improved high-intensity (waste), biological, no-till, strip-till, and crop-miks technologies. That will provide the highest economic and ecological indexes.

Key words: plant growing, models of technologies, prospects.

References
  1. Petrychenko, V.F.& Lykhochvor, V.V (2014). Roslynnyctvo. Tekhnologhiji vyroshhuvannja siljsjkoghospo-darsjkykh kuljtur vyprav.Ljviv: NVF "Ukrajinsjki tekhnologhiji.
  2. Petrychenko, V.F. Strategichni napramy rosvytku agrarnogo sectoru economicy na period do 2020 rocu/V.F. Petrychenko,//Economica APC. — 2012. — № 11. — P. 3-9.
  3. Lykhochvor, V.V(2004). Biologhichne roslynnyctvo.- Ljviv: NVF "Ukrajinsjki tekhnologhiji".
  4. Petrychenko, V.F.& Lykhochvor, V.V (2010). Revoljucijni zminy v tekhnologhijakh u roslynnyctviZerno. №7. – P. 42—48.
  5. Kanyghin, Ju.M. (2001) Shljakh arijiv: Ukrajina v dukhovnij istoriji Ljudstva: Roman-ese. K.: Ukrajina
  6. Lykhochvor, V.V. & Petrychenko, V.F., (2006). Roslynnyctvo. Suchasni intensyvni tekhnologhiji vyroshhuvannja osnovnykh poljovykh kuljtur .- Ljviv: NVF "Ukrajinsjki tekhnologhiji".
  7. Lykhochvor, V.V. & Petrychenko, V.F., (2012). Mineraljni dobryva ta jikh zastosuvannja. 2-ghe vyd., dopovn., i vypravl.- Ljviv: NVF "Ukrajinsjki tekhnolo-ghiji".
  8. Sajko, V.F. & Malijenko, A.M.,(2009). Minimaljnyj ta nuljovyj obrobitky ghruntu, stan i perspektyvy jikh zaprovadzhennja v Ukrajini. Posibnyk ukrajin-sjkogho khliboroba. Naukovo-vyrobnychyj shhorichnyk. K.: Urozhaj/P. 178-188.
  9. Kravchuk, V., Brovarecj, O., Novokhacjkyj, M., & Shustik, L.,(2014). Tekhnologhija STRIP-TILL na vyroshhuvanni siljsjkoghospodarsjkykh kuljtur. Tekhnika i tekhnolo-ghiji APK, 2, P. 7-12.
  10. Meljnyk, V.Y., Pastukhov, V.Y., & Vytanov, A.D.(2015). Aghrobyologhycheskoe obosnovanye effektyvnosty smeshannblkh posevov. Inzhenerija pryrodoko-rystuvannja ,2, P. 29-45.
  11. Meljnyk, V.Y. (2015). Evoljucyja system zemledelyja - vzghljad v budushhee. Zemledelye,1, P. 8 - 12.