The article discusses the results of the use of root formation stimulants in the green propagation of four varieties of juniper: juniperus scopilorum 'Moonglow', juniperus squamata 'Blue Star', juniperus communis 'Hibernica', juniperus virginiana in a tree-decorative nursery. Rooting was carried out in summer cultivation facilities under conditions of artificial fog. Four serial production stimulants were tested: Kornevin, Heteroauxin, Root, Zircon. Statistical processing of data showed that the use of all considered stimulants allowed us to obtain results other than control. This suggests that the use of stimulants affects the rooting of introducers, but this effect may be the opposite. It has been established that treatment of cuttings with phytohormones in some cases increases the regenerative capacity of the considered juniper varieties. A comparison between the effectiveness of the drugs shows that there are no differences between the "Root" and "Kornevin" actions, while the differences with other drugs are significant at the significance level. The greatest effectiveness was demonstrated by preparations based on β - indolylbutyric acid Ukorenit, Kornevin, as well as Heteroauxin (indolyl-3-acetic acid). Treatments with Zircon cuttings (a mixture of hydroxycinnamic acids) in most cases showed inhibition of rhizogenesis.
cuttings, juniper, root-forming stimulants, rooting.
ВВЕДЕНИЕ
Размножение древесно-кустарниковых пород зелеными черенками применяется питомниководами в течение многих веков. Черенкование позволяет полностью передать ценные качества материнского растения потомству, что особенно актуально для сохранения особо-ценных форм деревьев и кустарников. Для повышения процента укоренения в питомнике применяются обработки черенков стимуляторами корнеобразования. К веществам-регуляторам корнеобразования относятся такие химические соединения, которые в небольших количествах способны вызывать заметное повышение интенсивности биохимических процессов в растении и вследствие этого более быстрого образования корней.
1. Alandina O.N. Novye elementy v tehnologii razmnozheniya sadovyh rasteniy zelenymi cherenkami / [Tekst] Sbornik dokladov V ezhegodnoy konferencii Associacii Proizvoditeley Posadochnogo Materiala M.: APPM 2012. S.55-64.
2. Besschetnov V.P., Opyt zelenogo cherenkovaniya oblepihi krushinovidnoy v usloviyah yugo-vostoka Kazahstana V.P. Besschetnov, E.Zh. Kentbaev / Izvestiya vysshih uchebnyh zavedeniy. Lesnoy zhurnal. 2018. № 4 (364). S. 56-62.
3. Budykina N.P. Effektivnost' preparatov «Epin-Ekstra i Cirkon» / N.P. Budykina, T.F. Alekseeva, S.N. Drozdov, T.S. Gogoleva // Osnovnye napravleniya nauchno-teh. progressa v ovoschevodstve stran SNG i Baltii: materialy konf. // Kartofel' i ovoschi. – Minsk, 2006. – 2007. – № 2. – S. 21.
4. Malevannaya, N.N. Rostostimuliruyuschaya i immunomoduliruyuschaya aktivnosti prirodnogo kompleksa gidroksikorichnyh kislot (preparat Cirkon) / N.N. Malevannaya // Regulyaciya rosta, razvitiya i produktivnosti rasteniy: materialy 4 mezhdunar. nauch. konf. – Minsk, 2005. – S. 141.
5. Ceplyaev A.N. Kompleksnoe primenenie stimulyatorov korneobrazovaniya i sistemy podogreva substrata pri ukorenenii hvoynyh introducentov v usloviyah proizvodstvennogo pitomnika. Vestnik Irkutskoy gosudarstvennoy sel'skohozyaystvennoy akademii. Irkutsk: izd-vo IrGSHA, 2011. № 44(4).- S.132-139.
6. Ceplyaev A.N. Sinergicheskiy effekt primeneniya stimulyatorov rizogenenza i podogreva substrata pri zelenom cherenkovanii hvoynyh porod A.N. Ceplyaev, Treschevskaya E.I. /Lesotehnicheskiy zhurnal. 2019. T. 9. № 2 (34). S. 14-21.
7. Spethmann W. Herkunftsforschung bei Straucharten - Beispiele zeigen Unterschiede Deutsche Baumschule / W. Spethmann. – 2003. – 55 (3): 28-29.
8. Blythe, E.K., J.L. Sibley, K.M. Tilt, and J.M. Ruter. 2004. Auxin application to stem cuttings of selected woody landscape plants by incorporation into a stabilized organic rooting substrate. J. Environ. Hort. 22(2):6370.
9. Hayat S., Ahmad A. 28-homobrassinolide induced changes favoured germinability of wheat grains. Journal of Plant Physiology, 2003.- 29: 55–62.
10. Júnior, R., Ribeiro W., Zeffa D., Faria, R., Saito, H., Gonçalves, L., Mitsuharu, H., Roberto, S. Association of Indolebutyric Acid with Azospirillum brasilense in the Rooting of Herbaceous Blueberry Cuttings. 2019, 5, 68; doi: 10. 3390 /horticulturae5040068.