RU2746276C1 - Method for activating germination of seeds of cereal meadow grasses under led monochromatic lighting - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture and plant growing, to selection and expansion of the field of application of LED monochromatic radiation in technologies for obtaining germinated seeds of cereal meadow grasses for healthy nutrition and overseeding on forage lands of hayfields and pastures. The method includes germinating seeds of cereal meadow grasses under LED monochromatic lighting. In this case, the seeds of cereal meadow grasses are germinated for 10 days under standard conditions at room temperature and humidification under constant monochromatic LED illumination with green light with a wavelength of 525 nm at a low photon intensity of 1.44 mcmol / (m²⋅s) at the level of the substrate with seeds to obtain microgreens.

EFFECT: method provides expanding possibilities of using LED monochromatic lighting, determining the parameters of the radiation wavelength for germinating seeds of cereal meadow grasses and improving quality of seedlings, namely, starting primary photosynthesis with obtaining microgreens enriched with bioactive components.

1 cl, 2 tbl

Description

The invention relates to the field of agriculture and can be used in plant growing, in breeding and expanding the field of application of LED monochromatic radiation in technologies for obtaining germinated seeds of cereal meadow grasses for healthy nutrition and when over-sowing grasses on forage lands of hayfields and pastures.

Known technology for the use of LED light sources in the photoculture of plants in greenhouses and greenhouses, which makes it possible to long-term constant irradiation with combined light with the inclusion of polychromatic lighting in the luminous flux of red (SD KS), blue (SD SS) and green (SD ZS) lights (Kuryanova I .V., Olonina SI Assessment of the influence of different spectra of LED lamps on the growth and development of vegetable crops "Vestnik NGIEI, 2017.№7 (74) p.35-44)

Such light sources are offered by many manufacturers as phytolamps. As a rule, artificial lighting for various types of plants in greenhouses is studied only from the point of view of the possibility of increasing photosynthesis at different stages of vegetative and generative development during the growing season of specific plants in protected ground conditions.

For each plant, the issues of the influence of artificial lighting in its various components are specifically investigated in the spectra of electromagnetic radiation, intensity and exposure time at different stages of vegetation and photosynthesis in the development of technology elements for protected ground (patent No. 2601055, published on October 27, 2014 bull. No. 30. IPC А01С1 / 00, А01С1 / 02).

In the past few decades, agrobiotechnological systems of various designs and modifications have been actively involved in the practice of agricultural science and biotechnology, designed to study the processes of growing plants under controlled experimental conditions. In Russia, these technical systems are best known under the term phytotrons. In recent years, modifications of phytotrons have appeared to solve the problems of growing plants for space nutrition and medicine (Konovalova I.O., Berkovich Yu.A., Erokhin A.N., Smolyanina S.O., O.S. Yakovleva, A.I. Znamenskiy, IG Tarakanov, SG Radchenko, SN Lapach Substantiation of optimal plant illumination modes for the space greenhouse "Vitacyc-T" // Aviacosm. And Ecological Med. - 2016. - V. 50 , No. 4. - P. 28-36), as well as the class of phytotrons - synergotrons with program-controlled parameters, including illumination modes with LED light sources (Life cycle and plant ecology: regulation and management of the habitat in agrobiotechnological systems. Collection of scientific papers. Issue 1 / edited by Prof. V.N. Zelenkov - M .: Technosphere, 2018. - 208p. ISBN 978-5-94836-543-5).

Known technical solution in which potato plants in vitro irradiate LED sources of different colors (red, blue, green, white) with different intensity in nanometers. (Yu. Ts. Martirosyan, L. Yu. Martirosyan, AA Kosobryukhov. Dynamics of photosynthetic processes under conditions of variable spectral irradiation of plants. Agricultural biology, 2016, volume 51, No. 5, pp. 680-687)

However, the known solution did not reveal clear dependences on the growth and development of plants and indicated the parameters of one studied culture with alternating darkness and irradiation with different light spectrum of radiation for potato leaves under conditions of photosynthesis during vegetation.

It is known that when supplementary lighting of salad mustard in the phase of technical maturity of plants with LED lamps with a red and blue polydisperse spectrum, it is possible to control the productivity of plants and the parameters of the antioxidant activity of its green mass (Zelenkov V.N., Kosobryukhov A.A., Lapin A.A., Latushkin V.V. / Productivity and antioxidant activity of salad mustard under irradiation with red and blue light in a closed system of a phytotron of the synergotron ISR-1.1 class. //

Life cycle and plant ecology: regulation and management of the habitat in agrobiotechnological systems. Collection of scientific papers. Issue 1 / edited by prof. V.N. Zelenkova - M .: Technosphere, 2018 - pp. 144-154. ISBN 978-5-94836-543-5, DOI: 10.22184 / 978-5-94836-543-5-142-152.

However, this analogue considers the light source in the red region of the LED lamp as a polydisperse photon source of a wide region of red radiation of the controlled lamp of the synergotron model 1.01 (developed by ANO Institute of Development Strategies, Moscow) and provides a solution to the issues of intensifying the growth of lettuce crops in the phase of technical maturity salad.

The closest to the proposed solution is the PRC patent (CN 103687478 B, 09.23.2015), which considers monochromatic lighting to stimulate plant growth. The authors of the prototype work use the full spectra of monochromatic LED emitters only for the red or blue area of illumination for plants.

The technical result is to expand the possibilities of using LED monochromatic lighting, determine the parameters of the radiation wavelength for germinating seeds of cereal meadow grasses and improving the quality of seedlings, namely, starting primary photosynthesis with obtaining microgreens enriched with bioactive components.

The technical solution of the claimed object is that, unlike the prototype, seeds of cereal meadow grasses germinate for 10 days under standard conditions at room temperature and humidification under constant monochromatic LED lighting with green light with a wavelength of 525 nm at a low photon intensity of 1.44 μmol / (m ² ⋅s) at the level of the substrate with seeds to obtain microgreens.

The method is carried out as follows

The studies were carried out using an experimental sample of an agrobiotechnological system - a synergotron with digital programmed control of the main parameters of the environment (model 1.01, designed by ANO Institute for Development Strategies, Moscow). The object of research was a representative of cereal meadow grasses - fescue variety Allegro (selection of the Federal Research Center "VIK named after VR Williams").

Germination of fescue seeds was carried out in accordance with GOST 12038-84 with changes, namely: instead of filter paper, a substrate of mineral wool in the form of plates 20 * 20 cm (400 cm ² ) was used. The number of seeds is 100 pieces, threefold repetition. Watering was carried out with distilled water as the substrate dries up. As a control, we used the germination of fescue seeds in the dark in accordance with GOST 12038-84, as well as 3 experimental variants with monochromatic low-energy LED illumination of blue (SD SS), green (SD ZS) and red (SD KS) light with wavelengths of 440 nm. , 525 nm and 660 nm and an intensity of 6.53 micromoles / m ² to 1.44 mmol / m ² and 2.36 micromol / m ² s, respectively.

On the 10th day, the germination of seeds in the control and experimental variants was determined, the height and productivity of seedlings were measured in 3 replicates. Determined the arithmetic mean of germination and measurement of height and wet biomass of 100 shoots.

The test results of the options for implementing the method are shown in tables 1, 2.

Table 1. Germination (10th day) of fescue seeds (variety Allegro)

Experience Option Germination,% Change in germination relative to control,% Germinating seeds in the dark - control 74.8 - Germination of seeds under constant illumination of SD SS 440 nm,
6.52 mol / m ² s 74.4 - 0.5 Germination of seeds under constant illumination of SD ЗС 525 nm,
1.44 mol / m ² s 72.1 - 3.6 Germination of seeds under constant illumination of CD KS 660 nm,
2.36 mol / m ² s 74.1 - 0.9

Table 2. Height (cm) and productivity of shoots (weight of 100 shoots, g) on the 10th day of germination of fescue seeds (variety Allegro)

Experience Option Sprout height, cm Height change relative to control,% Productivity - weight of 100 sprouts, g Change in productivity relative to control,% Germinating seeds in the dark - control 12.6 - 2.67 - Germination of seeds under constant illumination of SD SS 440 nm,
6.52 mol / m ² s 9.4 - 25.4 2.59 - 3.0 Germination of seeds under constant illumination of SD ЗС 525 nm,
1.44 mol / m ² s 13.2 + 4.8 3.05 + 14.2 Germination of seeds under constant illumination of CD KS 660 nm,
2.36 mol / m ² s 10.3 - 18.3 2.35 - 12.0

The use of the proposed method using monochromatic lighting SD SS, SD ZS and SD KS gives a slight decrease in the germination of fescue seeds by 0.5%, 3.6% and 0.9%, respectively (Table 1).

For the tested variants of monochromatic illumination of SD SS and SD KS, at the end of the period, we obtain green seedlings (microgreens) with a decrease in their height relative to the control by 25.4% and 18.3%, respectively. Also, there is a decrease in productivity by weight of 100 sprouts for these options. The decrease in productivity during germination of fescue seeds for the SD SS and SD KS variants was 3.0% and 12.0%, respectively (Table 2).

Application of the proposed method using LEDs generating green monochromatic radiation leads to an increase in sprout height by 4.8% at the end of seed germination on the 10th day and an increase in productivity by 14.2% (Table 2).

At the same time, a pronounced green color of fescue seedlings is observed, which indicates the presence of photosynthesized pigments of primary photosynthesis, in contrast to seed germination in the dark, which makes it possible to obtain microgreens of fescue already on the 10th day from the moment of sowing seeds, as seedlings for breeding and the basis to obtain products for a healthy diet.

Claims (1)

A method for activating the germination of seeds of cereal meadow grasses under LED monochromatic lighting, characterized in that seeds of cereal meadow grasses germinate for 10 days under standard conditions at room temperature and humidification under constant monochromatic LED illumination with green light with a wavelength of 525 nm at a low photon intensity of 1.44 µmol / (m ² s) at the level of the substrate with seeds to obtain microgreens.