The effect of the silicon to distribute the assimilathion in plants of the roses which infected of Sphaerotheca pannosa Lev. var. rosea Woron.
Vol 26 (2005), Research articles
Vol 26 (2005)

The effect of the silicon to distribute the assimilathion in plants of the roses which infected of Sphaerotheca pannosa Lev. var. rosea Woron.

Research articles
https://doi.org/10.5281/zenodo.2586116
Published June 1, 2005
N.V. Zaimenko
M.M. Grishko National Botanical Gardens, National Academy of Sciences of Ukraine, Ukraine, Kyiv
N.V. Medin
M.M. Grishko National Botanical Gardens, National Academy of Sciences of Ukraine, Ukraine, Kyiv
PDF

How to Cite

Zaimenko, N., & Medin, N. (2005). The effect of the silicon to distribute the assimilathion in plants of the roses which infected of Sphaerotheca pannosa Lev. var. rosea Woron. Plant Introduction, 26, 67-71. https://doi.org/10.5281/zenodo.2586116
ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver

Download Citation

Endnote/Zotero/Mendeley (RIS) BibTeX

Abstract

It has been established the effect of the silicon to development of Sphaerotheca pannosa Lev. var. rosea Woron. It has been proved the rationality to use the silicon for activate physical and biochemical process in plants, to improve its adaptive ability to infact of powder mildew.

https://doi.org/10.5281/zenodo.2586116
PDF

References

Методы экспериментальной микологии: Справочник. — Киев: Наук. думка, 1982. — 550 с.

Новые методы анализа аминокислот, пептидов и белков / Под ред. В.П. Овчинникова. — М.: Мир, 1974. — 272 с.

Починок Х.Н. Методы биохимического анализа растений. — К.: Наук. думка, 1976. — 336 с.

Ринькис Г.Я., Ноллендорф В.Ф. Сбалансированное питание растений макрои микроэлементами. — Рига: Зинатне, 1982. — 202 с.

Семенов С.М. Лабораторные среды для актиномицетов и грибов. — М.: ВО Агропромиздат, 1991. — 240 с.

Belanger R.R., Bowen P.A., Ehret D.L., Menzies J.G. Soluble silicon. Its role іn crop and disrase managemеnt of greenhouse crops // Plant Dis. — 1995. — Vol. 79. — Р. 29—36.

Epstein E. The anomaly of silicon in plant biology // Proc. Natl. Acad. Sci. USA. — 1994. — Vol. 91. — Р. 11—17.

Lewin J., Reimann B.E.F. Silicon and plant growth // Ann. Rev. Plant. Physiol. — 1969. — Vol. 20. — Р. 289—304.

Mudson M.J., Evans S. Aluminium / silicon interactions in higher plants // J. Exp. Bot. — 1995. — Vol. 46. — Р. 167—171.

Rafi M.M., Epstein E., Falk R.H. Silicon deprivation causes physical abnormalities in wheat (Triticum aestivum L.) // J. Plant Physiol. — 1997. — Vol. 151. — Р. 497—501.

Savant N.K., Snyder G.H., Datnoff I.E. Silicon managemеnt and sustainable rice production // Adv. Agron. — 1997. — Vol. 58. — Р. 151—199.

Zhou T.S. The detection of the accumulation of silicon in Phalaenopsis (Orchidaceae) // Ann. Bot. — 1995. — Vol. 75. — Р. 605—660.

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Downloads

Download data is not yet available.