RU2299188C2 - Method for treatment of alfalfa seeds - Google Patents

Abstract

FIELD: soil microbiology, agriculture.

SUBSTANCE: invention relates to methods used in treatment of alfalfa seeds. Method involves presowing treatment of alfalfa seeds with biopreparation based on the strain Sinorhizobium meliloti Yakutsky №1 GNU VNIIChM 1775 taken in the amount 1 billion of cells per 1 seeds of alfalfa. Method provides enhancing productivity of alfalfa and improving fertility of soils.

EFFECT: improved method of treatment of seeds.

5 tbl, 5 ex

Description

The invention relates to the field of agriculture: crop production, forage production, meadow farming, agriculture, soil science, as well as soil microbiology.

There is a method of treating alfalfa seeds (Novikova A.G., Knyazeva V.L., Orishchenko N.G. All-Union Rhizobium Collection - the main gene pool of symbiotic nitrogen fixers. Proceedings of VNIISKHM, 1989, v. 59, p.13-22) using biomass of strains of Rizobium meliloti).

The technical result of the invention is to increase the productivity of alfalfa, as well as improving soil fertility.

The technical result is achieved as follows: from a pure culture, a liquid bacterial preparation is prepared on the basis of the Sinothizobium meliloti strain Yakutsk No. 1 GNU VNIISCHM 1775 alfalfa nodule bacteria (KB) in the amount of 1 billion cells per 1 alfalfa seed. The strain of nodule bacteria Yakutsk No. 1 GNU VNIISKHM 1775 is characterized by the following features.

Morphological features:

Cell shape: rod-shaped, straight or slightly curved motile, have polar flagella - peritrichi from 1 to 3.

Sticks - 0.5-0.9 × 1.2-3.0 microns.

Gram stain is gram negative.

Mobility - mobile due to flagella.

The presence of pigment - forms.

Spore formation - the dispute does not form.

Cultivation conditions (medium, temperature, attitude to oxygen, etc.) are among fast-growing. In fast-growing nodule bacteria, growth in the form of individual small colonies appears after 3-5 days of incubation on a legume medium. Colonies are round, convex, translucent, raised, mucous, usually 2-4 mm. The optimum temperature is 25-30 ° C, the optimal pH range is 6-8.

Legume: pea broth - 1 l.

Sucrose (granulated sugar) - 20 g.

Agar-Agar - 20 g.

Sterilization at 1 atm 20 min.

Aerobic attitude to oxygen: respiratory metabolism using oxygen as the final electron acceptor.

The following substrates are used for carbon sources: D-arabinose, cellobiose, fructose, D-galactose, glucose, lactose, mannitol.

Relation to sources of nitrogen, ammonium chloride and nitrates.

With the growth of culture in milk with litmus, the medium is strongly acidified, giving it a pink color.

Other signs of strains need pantothenate and nicotinic acid, vitamin requirements vary. Casein and agar do not hydrolyze. 3-ketoglycosides do not form. Oxidase and catalase are positive. Symbiotic nitrogen fixers. A characteristic feature of these organisms is the ability to penetrate the root hairs of alfalfa, melilot and cause the formation of root nodules, inside which bacteria are present as intracellular symbionts. In root nodules, bacteria are present in the form of pleomorphic forms - bacteriodes, usually fixing atmospheric nitrogen with its transformation into a bound form (ammonia) available for use by the host plant. From a pure culture we prepare a liquid inoculum. Pure culture is a periodically sown crop.

The strain can be obtained at the GNU VNIISKHM in St. Petersburg on a peat basis and at the laboratory for selection and seed production of perennial grasses of the Yakutsk Research Institute of Agricultural Sciences in the form of a liquid inoculum. We prepare a liquid preparation in two stages:

1. Obtaining uterine cultures.

2. Obtaining working solutions.

The following are examples of the implementation of the method.

Example 1. The use of a bacterial preparation increases the yield of green mass of alfalfa in the field.

Table number 1. The effect of inoculation with strains of nodule bacteria on the yield of green mass of alfalfa Strains 1999 year 2000 year 2001 year Average No processing 350 400 420 390 1775 Yakutsky №1 450 470 520 480 425 a 425 430 490 448

As can be seen, from table No. 1 the yield of green mass of alfalfa can be obtained up to 20% higher with seed treatment based on strain S.M. Yakutsk No. 1 GNU VNIISKHM 1775. In comparison with the production strain, this indicator strain S.M. Yakut No. 1 GNU VNIISKHM 1775 exceeds 7% higher.

Example 2. As can be seen from table No. 2, with the treatment of alfalfa seeds S.M. Yakutsk No. 1 GNU VNIISKHM 1775 biological product seed productivity is increased by 2 times than in the control.

Table number 2. The influence of KB strains on the yield of alfalfa seeds Strains Seed productivity, kg / ha +, - to control No processing 0.9 - 425 a 1,6 0.7 1775 (Yakutsky No. 1) 2.0 1,1

Example 3. The effect of strains of Sinorhizobium meliloti Yakutsk No. 1 GNU VNIISCHM 1775 alfalfa nodule bacteria on the agrochemical composition of the soil of permafrost-taiga-yellowish, mild soil.

Under the alfalfa grass, the humus content increased by 0.5 and 0.8%, since the mowing of the aboveground mass entails a more intensive renewal of the root system and, accordingly, the death of root hairs and their accumulation in the organic part of the soil. It is inexplicable that there is no significant consumption of nutrients from the root layer of the soil, the content of available phosphorus and potassium compounds did not decrease with the age of grass stands. In general, inoculation of alfalfa has a positive effect on the conservation and increase of humus in the soil.

Table No. 3 Effect of 1775 KB strains on the agrochemical composition of the soil Strains Horizon Humus% Ntotal% NO ₃ % P ₂ O ₅ mg potassium mg water pH No processing 0-20 cm 2.70 0.45 0.47 142 234 7.3 425 a 0-20 cm 2.86 0.40 - 126 252 7.5 1775 (Yakutsky No. 1) 0-20 cm 3,50 0.40 - 159 265 6.96

Example 4. The use of a bacterial preparation has a positive effect on the formation of the alfalfa symbiotic apparatus. As can be seen from table No. 4, the number of nodules on alfalfa roots is increased by 2.9 million pcs / ha compared to the control, the weight of nodules is 3.1 kg / ha, and the dry weight of roots is 14.4 t / ha.

Table 4. Formation of the alfalfa symbiotic apparatus Strains The number of nodules, million / pc. +, -, to control Weight of nodules, kg / ha +, -, to control Dry weight, t / ha +, -, to control No processing 5.3 - 4,5 - 5.5 - 425a 7.4 2.1 6.2 1,5 15.3 9.8 1775 Yakutsky №1 8.2 2.9 7.6 3,1 19.9 14,4

Example 5. Also positively affect the Yakut strains of KB on the biochemical composition of alfalfa. Our observations found that the content of crude protein increases by 2.6%, crude fiber decreases by 0.7%, crude fat by 0.5%, crude ash decreases by 0.1%, carotene increases by 0.6 mg / kg than on the control (table No. 5).

Table No. 5 Biochemical composition of alfalfa Strains Protein Cellulose fat Ash Bev P2O5 Cao in / angle of water Carotene No processing 20,4 25.9 3.2 9.1 43.3 0.4 2.0 0.6 23.5 425a 21.5 20.9 3,5 9.8 44.6 0.4 2.0 0.6 25.0 1775 Yakutsky №1 23.0 25,2 3,7 9.0 43.0 0.5 2,5 0.5 24.1

A liquid inoculum based on the Sinorhizobium meliloti strain Yakutsk No. 1 GNU VNIISCHM 1775 is used as a treatment for alfalfa seeds.

The strain Sinorhizobium meliloti Yakutsky No. 1 GNU VNIISKHM 1775 was obtained from alfalfa nodules of the Yakutskaya yellow variety, zoned in Yakutia since 1999.

As a result of the use of a biological bacterial preparation based on the Sinorhizobium meliloti strain Yakutsky No. 1 GNU VNIISCHM 1775, the yield of green mass of alfalfa can increase up to 20%, seeds by 2 times, compared to without treatment. Thus, the use of strain Sinorhizobium meliloti Yakutsk No. 1 GNU VNIISCHM 1775 nodule bacteria is an effective way to increase alfalfa productivity and increases the humus content from 0.5-0.8%.

Claims (1)

A method of treating alfalfa seeds, including pre-sowing treatment of alfalfa seeds with a biological product, characterized in that they use a biological product based on the Sinorhizobium meliloti strain Yakutsk No. 1 GNU VNIISCHM 1775, in the amount of 1 billion cells per 1 alfalfa seed.