RU2592677C2 - METHOD FOR SELECTING EFFECTIVE STRAINS OF LEGUME BACTERIA Rhizobium loti L CAPABLE OF EFFECTIVE SYMBIOSIS WITH LADYFINGER - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention can be used in plant selection for improving productivity of ladyfinger. Method envisages growing ladyfinger on a nutrient medium Krasilnikova-Korenyako, in which adds mineral nitrogen in a dose of 0.072 g/l. Simultaneously with planting seedlings ladyfinger inoculation their strains of legume bacteria. At the end of 45-50 days after sowing symbiotic is evaluated efficiency ladyfinger with strains of bacteria Rhizobium loti L. at accumulation of biomass with subsequent extraction of effective legume bacteria Rhizobium loti L.

EFFECT: invention increases output of plant biomass ladyfinger.

1 cl, 1 dwg, 2 tbl

Description

The invention relates to the field of agriculture, in particular to methods of cultivating horned lamb, and can be used in plant breeding to create source material (cultivar microbial systems with increased nitrogen-fixing ability) and to increase the productivity of horned lamb.

This culture is of great importance as a stable legume component on unproductive soils of the Non-chernozem zone of Russia. Horned lamb is of great interest for arid regions and for soils with high acidity. This species is characterized by high total and protein productivity, has a good ratio of essential amino acids, and is a powerful biological nitrogen fixer. Such economic and biological features of horned calves indicate the value of this culture both in terms of obtaining complete feed, and in its use for increasing soil fertility.

It is known that for the implementation of active nitrogen fixation, effective strains of nodule bacteria specific for a specific legume culture, in this case, horned lamb, must be present in the soil. The presence of such strains determines the most complete realization of the potential of legumes. Currently, production effective strains of Rhizobium loti L. are virtually absent.

There are practically no studies on the nitrogen-fixing ability of baby cattle in our country, respectively, and there are no methods for selecting and evaluating effective strains of nodule bacteria Rh. loti L.

At the All-Russian Research Institute of Feed, a method for selecting Rh strains was previously developed. trifolii capable of efficient symbiosis on acidic soils with a high content of aluminum ions, including the assessment of the viability of strains inoculated on legumes, growing them on a nitrogen-free nutrient medium with high acidity, characterized in that the strains of bacteria Rh. trifolii for 3 days on a selective legume nutrient medium containing Al ³⁺ ions introduced after sterilization of the medium in the form of AlCl ₃ in an amount of 75 mg / l (until a pH of 4.5 is reached), then effective acid-resistant strains are evaluated and selected Then, the selected strains are grown on a nitrogen-free Krasilnikov-Korenyako nutrient medium containing Al ³⁺ ions introduced in the form of AlCl ₃ in an amount of 50 mg / l (until a pH of 4.5 is reached), by seeding clover seedlings with simultaneous inoculation of their data strains, after which the plants levera is grown in an artificial climate with the recommended regimen, and 30-35 days after sowing (in the early stages of clover ontogenesis), strains capable of efficient symbiosis on acidic soils by biomass accumulation are selected (1).

The disadvantage of this method is the presence of a strongly acidic medium in the nutrient substrate for growing inoculated legumes, under the conditions of which the potential effectiveness of nodule bacteria of the clover hornbeam cannot be manifested.

There is a method for selecting nodule bacteria for the effectiveness of symbiosis in the early stages of ontogenesis, developed at the All-Russian Research Institute of Agricultural Microbiology, successfully used for clover and alfalfa, which is based on growing them on a nitrogen-free medium of Krasilnikov-Korenyako. According to this technique, the effectiveness of the strains is determined by the accumulation of biomass by inoculated 30-day-old plants in relation to uninoculated plants, while the increase should be at least 60-70% (2).

The disadvantage of this method is that it is not suitable for horned lamb, since when growing this type of legume in a nitrogen-free environment in 30-day-old plants, there is no accumulation of sufficient biomass to conduct a reliable assessment of the tested strains.

The purpose of the invention is the development of a method for the selection of effective strains of nodule bacteria of clover in the early stages of ontogenesis.

This goal is achieved by developing a method for selecting strains of nodule bacteria Rhizobium loti L., capable of effective symbiosis with horned lamb, including assessing the effectiveness of strains in the early stages of ontogenesis when growing plants on Krasilnikov-Korenyako medium by planting seedlings with simultaneous inoculation of their nodule bacteria strains. Mineral nitrogen is introduced into the nutrient medium at a dose of 0.072 g / l - 0.3 of the total norm of nitrogen according to Pryanishnikov, which is 0.240 g / l (3), after 45-50 days after sowing, the symbiotic effectiveness of the baby cattle with Rhizobium bacteria strains is evaluated loti L. by biomass accumulation, followed by selection of effective strains of nodule bacteria Rhizobium loti L.

Preliminary experiments showed that the technique used on clover and alfalfa, which involves growing plants on a nitrogen-free medium, was not suitable for horned lamb, since the effectiveness of symbiosis was manifested only on the 55th day after emergence (table 1). This is due, first of all, to the fact that by the beginning of the active functioning of the symbiotic apparatus of rabbit horned (on the 45th day from the emergence of seedlings) there was a complete halt to the growth and development of uninoculated plants and, as a result, a decrease in the selection accuracy of effective strains. The studies revealed a significant increase in the duration of the experiment on a nitrogen-free medium (almost 2 times).

For a more reliable assessment and selection of effective strains of nodule bacteria of the Eryngium hornbeam at the initial stage of ontogenesis, a starting dose of mineral nitrogen was required to accelerate the development and prolong the life of control (uninoculated) plants.

The initial stage of the research was to determine the optimal nitrogen norm and the term for evaluating the activity of the symbiotic plant system.

As an object of research, a zoned variety Ray of breeding of the All-Russian Research Institute of Feed was used. Inoculation of seeds was performed with strain Rh. loti No. 1802 obtained from the All-Russian Research Institute of Agricultural Microbiology. The efficiency of nitrogen fixation was determined in the dynamics of plant growth and development by the accumulation of dry biomass.

Tubes with a substrate and a nutrient solution were sterilized before sowing at 1.1 atmosphere for 45 minutes, and seeds were treated with concentrated sulfuric acid for 5 minutes before germination. The plants were grown in an artificial climate chamber with illumination of 16,000 lux, a photoperiod of 16 hours, a daytime temperature of 20-25 ° C and a night temperature of 16-18 ° C. Then, 45–50 days after sowing, strains were selected that were capable of efficient symbiosis with horned chickweed, which ensured the accumulation of biomass of inoculated plants compared to control (uninoculated plants) by at least 60-70%. The figure 1 shows the effect of inoculation on the dynamics of the formation of nodules of cloven hornbeam.

The study of the formation of the symbiotic system of the baby eagle in the dynamics of plant growth and development showed that a full-fledged symbiotic apparatus is formed by the 45th day after the emergence of plants. At this point, the nodules acquire a characteristic color (yellow-pink) characteristic of molecular nitrogen fixation and their quantitative growth practically ceases (Fig. 1). Subsequently, the number of nodules on the plant remains almost at the same level.

To determine the optimal norm of mineral nitrogen in order to assess the effectiveness of nodule bacteria, a micro-vegetation experiment was laid with the following backgrounds: 0.0 g / l; 0.048 g / l; 0.072 g / l and 0.096 g / l of nitrogen according to Pryanishnikov, the experimental data of which are presented in table. one.

It can be seen from the table that by the 45th day of the experiment on a nitrogen-free medium, the growth and development of horned lamb plants stopped, against the background of nitrogen 0.048 g / l, the increase was 57%, and by 0.096 g / l - 48%. The maximum biomass gain was obtained at a nitrogen rate of 0.072 g / l, which in percentage terms was 68% over the control. Such an advantage just speaks of the optimality of this norm of nitrogen during the assessment and selection of effective strains of nodule bacteria of the studied culture.

Based on the developed method, an assessment and selection of effective strains of nodule bacteria isolated from native soil microflora was carried out. Of the number of isolated strains, 3 strains were highly effective, which were subsequently evaluated in a growing experiment in soil culture.

As the experimental material, we used the rayon cultivar Luch, promising numbers SGP-3 and SGP-6 and nodule-specific strains of nodule bacteria isolated from the local soil microflora Lts-1, Lts-2 and Lts-3, as well as production strain No. 1802 . Plants were taken as control without additional inoculation. The results of the studies are shown in table 2.

The specific action of strains of nodule bacteria caused their unequal effect on the accumulation of biomass of the Luch variety and of the tested variety samples.

Among the studied strains in the variety Luch, the strain L _c -1 turned out to be effective. As a result of processing this strain of seeds of horned hornbeam, the absolutely dry biomass of the variety was 3.46 g / plant (8% higher than the control), including the absolutely dry root mass - 0.91 g / plant (19% higher than the control). For the variety specimen SGP-3, the strain L _c -2 turned out to be the best. When processed with this strain, the absolutely dry biomass of the variety sample was 3.73 g / plant, which is 25% higher than the control, while the dry weight of the roots was 0.96 g / plant - 28% higher than the control.

When studying the same strains on the sample SGP-6, commercial strain No. 1802 had the greatest influence on the formation of biomass. Absolutely dry biomass in this variant amounted to 3.24 g / rast., Which is 23% higher than the control, and absolutely dry root mass - 0.81 g / rast, which is 11% higher than the control.

Thus, the proposed method allows for a reliable assessment and selection of effective strains of nodule bacteria of the cloven hornbeam in the early stages of plant growth and development. Plant growth should be carried out under the conditions of a micro-vegetation experiment on a Krasilnikov-Korenyako nutrient medium with the addition of 0.072 g / l of nitrogen, and the strains should be evaluated 45–50 days after plant emergence. The industrial use of such strains increases the feed and protein productivity and the mass of the roots of the baby cattle by increasing the efficiency of symbiotic nitrogen fixation, which positively affects the improvement of soil fertility.

Information sources

1. Patent No. 2205215, RF IPC C12N 1/20, АСС 21/00 C12Q 1/02 // (С 12 1/02 C12R 1:41) / Method for selection of strains Rh. trifolii capable of effective symbiosis in acidic soils with a high content of aluminum ions. / L.V. Drobysheva, G.P. Zyatchina, I.E. Ogarkova (RF). - No. 2205215; stated on 02.16. 2000 g .; published on May 27, 2003; Bull. No. 15.

2. Guidelines for obtaining new strains of nodule bacteria and evaluating their effectiveness. VNIISKHM, L., 1979, p. 16-18.

3. Grodzinsky A.M., Grodzinsky D.M. A quick reference to plant physiology. Kiev, 1973, p. 31.

Claims (1)

A method for selecting effective strains of nodule bacteria Rhizobium loti L., capable of effective symbiosis with rabbit horned in the early stages of ontogenesis, including the cultivation of rabbit horned on a nutrient medium Krasilnikova-Korenyako with the addition of mineral nitrogen at a dose of 0.072 g / l and with simultaneous inoculation of seedlings with bacterial strains Rhizobium loti L., after 45-50 days after sowing, they evaluate the symbiotic effectiveness of baby cattle with bacterial strains of Rhizobium loti L. according to the accumulation of biomass with subsequent selection of strains of nodule bacteria Rhizobium loti L.

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