Exogenous regulation of biological productivity of fenugreek

. In the article the results of the effect on Trigonella foenum-graecum L. productivity by organic fertilizers EcoFus and Siliplant and presowing inoculation of seeds with the Rizotorphyn are presented. We investigated effect of organic-mineral fertilizers “EcoFus” and “Siliplant” and presowing inoculation by “Rhizotorphyn”. ”EcoFus” and “Siliplant” increase herb yield by 24.8 and 18.8 % compare to control. “Rhizotorphyn” increasing yield of seeds production by 32.1 % compared to control. For the first time we present the data of the study devoted to the effect of foliar treatments with micronutrients and presowing seed inoculation on the quantitative content of flavonoids in fenugreek seeds. The highest flavonoid content was found in seeds subjected to foliar treatments with a binary mixture of “EcoFus + Siliplant” (1.59 %). Work is performed under the topic of the research project No. 0576-2019-0007.


Introduction
Fenugreek (Trigonella foenum-graecum L.) is an annual herbaceous plant, well known in culture since ancient times as valuable forage and medicinal plants.
The fenugreek (Trigonella) genus of the legume family (Fabaceae) consists of 129 species in the world flora, of which 44 are perennial and 85 are annual. On the territory of the Russian Federation grow about 50 species of fenugreek (perennial and annual) [1].
Fenugreek grows naturally in Western Asia, Turkey, Iraq and Iran, spreading to the Himalayas.
It is used for green fodder, hay and green fertilizer. Seeds are used for concentrates, as well as in folk medicine, veterinary medicine and technology. In its pure form fenugreek is not recommended for use. Young shoots are used as a salad, seeds -for cereals, flour. In the southern regions of Russia it is cultivated in busy pairs (for early feed, for green fertilizer) and as stubble [1].
It positively responds to moisture and fertilizers. To soils it is not demanding, unsuitable only to heavy, floating, acidic, waterlogged soil. Many of its ecotypes and geographical forms are not affected by diseases and pests [1].
Fenugreek is a drought-resistant plant, characterized as plastic to growing conditions. Therefore, some of its forms and biotypes can be cultivated up to 60° North latitude. Shoots appear in 7-8 days after germination of seeds, with a lack of moisture in the soilin 15-18 days. The plant has a tap root. Stem erect, slightly branched, round, hairy, green, length 25-60 cm. Leaves are trifoliate and short. Leaflets are back-ovate or broadly lanceolate, toothed, glabrous, 2-4 cm long. The corolla is almost twice as long as the calyx. The fruit is a bean, somewhat curved, glabrous, 6-16 cm long, brown after ripening. Seeds are greenish and yellowish, 4-6 mm long. Weight of 1000 seeds is 14-16 g. The whole plant has an intense odor. [1,2].
Fenugreek was conducted at the all-Union research Institute of medicinal and aromatic plants (VILAR, Moscow region), in the Crimean, North Caucasus (preserved branch VILAR) and Ukrainian, the Przheval'skaya zonal experimental stations of VILAR.
All these data confirm the need to continue the study of fenugreek as a source of raw materials for the production of diosgenin. In VILAR has been initiated to restore fenugreek as promising medicinal crops.
Fenugreek hay can be used as a forage plant (due to the presence of protein green mass and hay have high nutritional properties), and is a good precursor for all vegetable plants.
Research purposethe studies of non-root treatments effect of micro-fertilizers and presowing inoculation of seeds on yield and flavonoid content in Trigonella foenum-graecum L. seeds.

Characteristics of the place of the experiment
The studies were conducted in 2017-2019 on the experimental field of the Department of Agrobiology and Breeding according to the methods adopted for experiments with medicinal plants [13].
Allocation of plots was randomized. Repeat 4-fold, the square of the each experimental plot was 24 m².

Characteristics of weather conditions during the experiment
Unstable weather conditions have a negative impact on yields and contribute to the deterioration of the quality of the products. Under these conditions, there is a decrease in plant resistance to stress factors and the inability to obtain the potential productivity of cultivated varieties and populations.
The temperature in the growing seasons of 2017-2019 varied within 3-5 ºC. In 2017, the temperature during the growing season was on average below the norm by 1.3-3.4 C.
In 2018, during the flowering phase and the beginning of fruiting, the air temperature was relatively low and amounted to 16.2-17.3 °C. Precipitation fell in the amount of 60 mm. in the phase of seed ripening (July), the temperature increased (to 20. 5°C), precipitation fell 93 mm. Weather conditions in 2019 at the beginning of seed ripening deviated from the norm by -2.4° [13].
"Siliplant" is a microfertilizer with a high content of silicium (6-7 %) in an accessible form for plants. Silicium, which is a part of "Siliplant", activates synthesis of auxins necessary for root system growth. The solution was applied at a concentration of 1 ml/L. [15,16].
"EcoFus"organic-mineral fertilizer based on fucus algae, contains physiologically active substances possessing immunostimulating, antiviral, antibacterial and fungicidal action. The solution was applied at a concentration of 5 ml/L. Consumption 300-400 l/hectare.
The inoculation of seeds was carried out with the biological product "Rhizotorphyn" (200 g/hectare). "Rhizotorphyn" (strains of nodule bacteria of the genera: Bradyrhizobium, Rhizobium, Sinorhizobium, Mesorhizobium), highly concentrated inoculants with increased biological efficiency based on gamma sterile peat. 1 g contains at least 2.5 billion Rhizobia. Inoculants have increased nodulation ability of the root system of legumes. As a result of the using of the inoculant, nodulation form on the roots which fix molecular nitrogen (N2) from the air and convert it into NH4 + form which accessible for plants. This process allows reducing or abandoning mineral fertilizers introduced into the soil without reducing yield, increases the yield of plants and their resistance to adverse environmental factors [17][18][19].
The biological product was developed by the Russian State Research Institute of Agricultural Microbiology.

Quantitative analysis of flavonoids
Quantitative analysis of flavonoids in the seeds of fenugreek we have developed methodology based on differential spectrophotometry on a LAMBDA-950 spectrophotometer using a technique for determining flavonoids in combination with Aluminum chloride in the range of 385-460 nm. For quantitation of flavonoids in raw we have developed methodology based on bacteria's ability to form colored complex of C2H5OH and AlCl3 what causes a bathochromic shift of the longwavelength absorption band and at the same time gives the main absorption maximum at a wavelength of 393 ± 2 nm [20][21][22].
The extract was left to soak for 24 hours and then the extraction was carried out in a boiling water bath for 30 minutes twice. For develop methods for the quantitative determination of the sum of flavonoids, a reaction with an alcoholic solution of Aluminum chloride was used.
In order to develop the manual we determinate optimal conditions for extractions: ethanol 70 %, as extracting. Ratio raw / extracting 1:50. Sum of flavonoids measured in conversion with Apigenin using standard solution of Apigenin CAS№520-36-5 in 95 % ethanol.
The degree of flavonoid content (%) was calculated by formula: Хflavonoid content conversioned to Apigenin Аoptic density of test solution А0optic density of standard solution ; mraw mass, gramm m0mass standard solution ruthin, gramm; Wmass loss on drying of raw materials Concentrations of Apigenin and Aluminium chloride from 0,0002 to 0,0020 % of are match to meanings of optic density from 0,1 to 1,0 %. This dependence is described by linear equation: = 0.4306 × + 0.0002 (2) Mean of coefficient of absorption of Apigenin and Aluminium chloride complex is 491 with relative error 3 %.

Results and discussions
In 2017-2019 years sowing of Trigonella foenumgraecum L was carried out in the first ten days of May in a wide-row method (row spacing 60 cm). The sowing rate is 6 kg/ha, the seed placement depth is 3 cm. The predecessors are black steam. After 7-10 days, seedlings appeared. The field germination of seeds in all variants was 94 % after 20-30 days from the plants began to branch. In the last decade of June, mass budding of plants was observed. In the phase of the onset of seed ripening, the height of the plants had been 39-43 cm was not increased further.
The length of the growing season of fenugreek plants after treatment by micronutrients was lengthened. From germination to full maturation of seeds in the control variant was 74 days. The time from germination to harvesting of fenugreek plants after treatment by micronutrients was 77-80 days. The time from germination to harvesting in control variant was 85-95 days. The main phenological phases took of the fenugreek plants, after the influence of non-root treatments with a binary mixture of "EcoFus + Siliplant" take the place on 2-4 days earlier than the plants from the control site.
Foliar treatments and seed inoculation also had a noticeable effect on the intensity of the color of fenugreek leaves and stems. Plants in the variant "EcoFus + Siliplant" were characterized by intensive growth, dark green color of leaves (Fig. 1).   Fig. 1. Plant of fenugreek variants of foliar treatment by: 1 -Presowing inoculation of fenugreek by "Rhizotorphyn"; 2 -Foliar treatment by a mixture "EcoFus + Siliplant";

-Control
As it is shown in figure 1, seed inoculation significantly stimulates the development of the symbiotic apparatus. The plants of fenugreek have a more branched root system, therefore, get more nutrition.
Foliar treatment by a mixture of organic fertilizer "EcoFus" with microfertilizer "Siliplant" increased plant growth. In 20 days the height of the plants exceeded the control by 7.0 %, harvesting (third decade of August) by 4.3 % (Table 1). "Rhizotorphyn" increased plant height by 7.8 % in budding phase compare to control and by 4.8 % in harvesting. If the purpose of production is the cultivation of fenugreek for green food, the plants are suitable for harvesting after treatment by "EcoFus + Siliplant". Increasing of growing on the "EcoFus + Siliplant" and "Rhizotorphyn" types of experiment contributed to an increase in grass yield (air-dry mass) by 24.8 and 18.8 %, respectively, compared to the control.
Under the influence of organic-mineral fertilizers and macrosimbionts, not only the height of fenugreek plants increased, but also their bushiness by 18.4-31.5 %. This increased the yield of the above-ground part of the plants, and also led to increase the number of beans on the plants (Table 2).
In the analysis of table 2 a significant increase by 18.4-21.7 % weight of 1000 seeds after application of foliar treatments "EcoFus" + "Siliplant" and inoculation with "Rhizotorphyn" it is shown. After the presowing inoculation of fenugreek seeds with "Rhizotorphyn", there is a significant (at P<0.05) increase (22.3 %) compared with control the weight of the seeds from 1 bean.
The use of a binary mixture "EcoFus + Siliplant" increased the number of beans on the plant, but the weight and quality of seeds was influenced by presowing inoculation with "Rhizotorphyn". A comparative study of productivity fenugreek hay revealed the dependence of these vegetation processes on the meteorological conditions of the growing season. Thus, under cold stress (2017), fenugreek had a decrease in plant growth, bushiness and yield compared to optimal weather conditions of 2018-2019 years (Fig. 2). Processing binary mixture "EcoFus + Siliplant" increased the number of beans per plant. In this case, the growing season increased to 95-110 days, the seeds did not have time for full mature. In contrast, the inoculation by "Rhizotorphyn" has proven itself in cold and wet weather conditions of 2017 and allowed obtaining high yields of seeds (Fig. 2).
It should be noted, that under adverse weather conditions in 2017, harvesting was carried out 15-20 days later than under optimal conditions for fenugreek hay. "Rhizotorphyn" under hydrothermal stress (drought conditions 2018 year) contributed to the improvement of adaptive capabilities of fenugreek to adverse weather conditions and reduced crop losses.
In the variant "EcoFus + Siliplant" was a secondary flowering of plants on the background of the warm period in August of 2018 (the average temperature was 19, 8° C). In this variant, uneven ripening of beans and seeds was noted.
Presowing inoculation of Trigonella foenumgraecum L. seeds by the Rhizotorphyn have not much effect on the accumulation of flavonoids. Rizotorphyn can be used to increase seed yield and aerial mass.

Conclusion
Non root treatment binary mixture "EcoFus + Siliplant" increased grass yield (dry mass) by 24.8 % compare to control. This treatment also increases the number of beans on fenugreek plants.
Presowing inoculation increased yield of seeds by 32.2 %. After the presowing inoculation of fenugreek seeds with "Rhizotorphyn", there is a significant increase on 22.3 % compared with control the weight of the seeds from 1 bean.
Non root treatment by binary mixture "EcoFus + Siliplant" have effect on flavonoid content in Trigonella foenum-graecum L. seeds by 45.8 %.
The highest flavonoid content was found in seeds subjected to foliar treatments with a binary mixture of "EcoFus + Siliplant" (1.59 %). Seeds collected from the samples treatment by "Rhizotorphyn" slightly exceed the control variant in terms of flavonoid content (1.09 %).