Biological effect of dual-frequency laser pulse radiation during pre-sowing treatment of rice seeds at early stages of development under stressful environmental conditions-Reference-Cited by-同舟云学术

Biological effect of dual-frequency laser pulse radiation during pre-sowing treatment of rice seeds at early stages of development under stressful environmental conditions

Published:2024-09-02 Issue:4 Volume: Page:72-76
ISSN:2500-2082
Container-title:Вестник российской сельскохозяйственной науки
language:
Short-container-title:Vestnik of the Russian agricultural science

Author:

Apasheva L. M.¹,Savransky V. V.²,Budnik M. I.³,Smurova L. A.¹,Ovcharenko E. N.¹,Kasaikina O. T.¹,Lobanov A. V.¹⁴,Dyachenko I. V.³,Grudzinsky A. V.³,Sergeev S. N.⁵,Taraskin K. A.⁵,Barnashova E. K.⁶,Vertikova E. A.⁶

Affiliation:

1. N.N. Semenov Federal Research Centre for Chemical Physics of the Russian Academy of Sciences

2. Prokhorov General Physics Institute of the Russian Academy of Sciences

3. Russian Academy of Missile and Artillery Sciences

4. Moscow Pedagogical State University

5. Institute of Engineering Acoustics

6. Russian State Agrarian University – Moscow Timiryazev Agricultural Academy

Abstract

The biological effect of two-frequency laser pulsed radiation produced on copper vapor during pre-sowing treatment of rice seeds of Veles and Leader varieties at early stages of development in extreme stressful environmental conditions has been studied. The copper vapor laser used in the experiment had the following output characteristics: wavelengths of 510.6 nm (green radiation line) and 578.2 nm (yellow radiation line), pulse duration of 15 ns, repetition frequency of 10 kHz, total pulse power of 10 kW, energy-power ratio between the green and yellow radiation lines 3/1 The interaction of laser radiation with wavelengths of 510.6 and 578.2 nm in the nonlinear medium of the seed caused the formation of additional wavelengths: a total wavelength of 271 nm (ultraviolet radiation) and a difference wavelength of 4.37 microns. Exposure to each of the four wavelengths in its spectral range could lead to the initiation of at least four radiation-induced biochemical reactions. It is shown that pre-sowing treatment of rice seeds with two-frequency laser pulsed radiation for 5–20 seconds had a stimulating effect on the growth and development of rice (the greatest effect was when exposed to 5–10 seconds), and also increased its stability when grown in extreme stressful environmental conditions (moisture deficiency, depleted soil) at early stages of development.

Publisher

The Russian Academy of Sciences

Reference14 articles.

1. Apasheva L.M., Smurova L.A., Kasaikina O.T. i dr. Sposob povysheniya vskhozhesti semyan i stressoustojchivosti seyancev hvojnyh porod // Patent RF № 2790449. Oficial’nyj byulleten’ «Izobreteniya. Poleznye modeli», 2023. № 6. Opublikovano: 21.02.2023.

2. Grigor’yanc A.G., Kazaryan M.A., Lyabin N.A. Lazery na parah medi. M.: Fizmatlit, 2005. 312 s.

3. Dolgovyh O.G., Krasil’nikov V.V., Gaztdinov R.R. Optimizaciya lazernoj predposevnoj obrabotki semyan zernovyh kul’tur. Izhevsk: RIO FGBOU VPO Izhevskaya GSKHA, 2014. 122 s.

4. Domcheva E. Rosstat nazval samye populyarnye u rossiyan produkty // Rossijskaya gazeta, 01.05.2016. https://rg.ru/2016/05/01/rosstat-nazval-samye-populiarnye-u-rossiian-produkty.html

5. Zhurba P. Praktika primeneniya lazernyh agrotekhnologij na Kubani // Fotonika. 2014. № 5. S. 90–103.