RU2821019C1 - Method of controlling weeds in crops of amaranthus paniculatus - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Method of controlling weeds in crops of Amaranthus paniculatus is characterized by the fact that it involves the use of herbicides and growth regulators, wherein the working solution of the herbicide preparations and the growth regulator is prepared at rate of 200 l/ha, when making a tank mixture, herbicides based on clopyralid 750 g/kg, haloxyfop-P-methyl 80 g/l and clethodim 130 g/l are added to the working solution, and as a growth regulator, 0.01% solution of triterpenic acids is added, followed by spraying amaranth in phase of 3-4 true leaves with the obtained tank mixture.

EFFECT: invention allows to increase grain yield and increase squalene yield.

1 cl, 4 tbl

Description

The invention relates to the field of biotechnology. The invention relates to the field of agriculture, in particular, to a method of using a growth regulator based on triterpene acids, which has a positive effect on plant growth and helps increase crop yields.

Amaranth is a valuable crop that is not widespread in our country. It is valued for its universal use: amaranth grain is used to make gluten-free flour, bran, starch, and oil. Amaranth grain is a storehouse of nutrients, it contains up to 20% easily digestible proteins, vitamins A, B, C, E, P, macro- and microelements, up to 8% oil, which contains squalene - a valuable substance that helps stop mutations , leading to the appearance of cancer cells, helps to more easily endure the effects of chemotherapy and radiotherapy in the treatment of malignant tumors (Sakpan A. A. Amaranth as a plant raw material used for fortifying food products / A. A. Sapkan, G. N. Nurymkhan, Zh. B . Asirzhanova // Internauka - 2020).

From 1916 to the present, most squalene has been extracted from shark livers. This method is very expensive and completely inhumane, which makes squalene-containing products expensive and inaccessible. The soil and climatic conditions of the Russian Federation correspond to the optimal requirements of the crop, which makes it possible to cultivate amaranth quite successfully.

In the studies of most scientists, the issues of combating weeds in amaranth crops were considered as related, and primarily from phytocenotic and agrotechnical positions. Thus, when choosing a predecessor for amaranth, based on the position of phytosanitary, it is best to place the crop in pure fallow, winter fallow, fallow land, old-growth crops of perennial grasses, annual grasses, grain legumes, spring wheat (Saratovsky L.I. Biological characteristics, yield and quality seeds of new varieties of amaranth depending on agrotechnical methods. / L. I. Saratovsky, T. G. Vashchenko, V. V. Kazazyan // Bulletin of the Voronezh State University. 2013. - No. 2 (37). P. 130-135; Koshelev D.V. Main directions of cultivation of the agricultural crop amaranth in the conditions of the lower Volga region // Materials of the international scientific and practical conference Modern problems of innovative development of agriculture and scientific ways of technological modernization of the agro-industrial complex" (December 20 - 23, 2016). .) - Makhachkala: [b.i.], 2016. - P. 89-92).

In the initial periods of development, amaranth has low competitiveness compared to weeds. High weed contamination contributes to a decrease in crop productivity, while their timely removal leads to an increase in amaranth yield. There are a number of examples in the scientific literature where the removal of weeds during this period increased the productivity of the crop. There are known experiments in which, under Nigerian conditions, double hand weeding 2 and 5 weeks after sowing had a positive effect on plant height, number of leaves and green mass, and three times after 2, 5 and 8 weeks led to an increase in grain yield (Ojo D.O. Effect of weeding frequencies on grain amaranth (Amaranthus cruentus L.) growth and yield / D.O. Ojo // Crop Protection - 1997. - V. 5. - P. 463-466). Other authors note that in the highlands of India, double manual weed removal increases plant height, the number of grains on the inflorescences and their length. Amaranth grain yield increases by 40-45% compared to options where weeds were not removed (Shukla D.K. Weed management strategies for better yield and economics of grain amaranth (Amaranthus hypochondriacus) in mountain agriculture. / D.K. Shukla, B. Prasad, Tej. Pratap // Journal of Hill Agriculture. - 2014) - No. 5. - P. 194).

Currently, there is not a single registered herbicide for amaranth, and therefore there is an active search for drugs that can, on the one hand, effectively fight weeds, and on the other, not have a strong effect on the crop. In most cases, researchers working with crops make advisory conclusions about the possibility of using herbicides without a significant experimental basis. Thus, in the technology of cultivating amaranth, it is recommended to use anti-cereal herbicides without specifying the types of preparations and their consumption rates (Koshelev D.V. Main directions of cultivation of the agricultural crop amaranth in the conditions of the lower Volga region. // Materials of the international scientific and practical conference Modern problems of innovative development of agriculture and scientific ways of technological modernization of the agro-industrial complex" (December 20 - 23, 2016) - Makhachkala: [b.i.], 2016. - P. 89-92). Similar recommendations are given by L.I. Saratovsky, reporting the possibility of using haloxyfop-r-methyl 0.5 l/ha and herbicides based on clopyralid at half the rate (Saratovsky L.I. Biological characteristics, yield and quality of seeds of new varieties of amaranth depending on agrotechnical practices. / L. I. Saratovsky, T. G. Vashchenko, V. V. Kazazyan // Bulletin of the Voronezh State Agrarian University. 2013. - No. 2 (37).

Other studies have shown that amaranth is very sensitive to herbicides against broadleaf weeds. Of the active ingredients studied, only clomazone, clopyralid, phenmedipham and triflusulfuron did not contribute to the death of amaranth. Amaranth was resistant to selective graminicides belonging to the aryloxyphenoxypropionate group (Kudsk P. Herbicide tolerance and seed survival of grain amaranth (Amaranthus sp.). / P. Kudsk, A. Taberner, R.M.D. Troiani, at al. // Australian Journal of Crop Science. - 2012. - No. 6. - R. 1674-1680).

In connection with the development of biologization of agriculture, great prospects are given to biological products of natural origin. In recent years, special interest of researchers has been given to triterpene compounds, which are considered the most ancient and effective growth regulators (Kintya P.K. Plant terpenoids / P.K Kintya, Yu.M. Fadeev, Yu.A. Akimov. - Chisinau: Shtiintsa, 1990 . - 152 pp.).

There is a known method for senicating amaranth crops in a mountainous zone (RU 2741823, IPC A01N 25/00, A01N 25/02, publ. 01/28/2021). A method has been proposed for the senication of amaranth crops in a mountain zone, including the treatment of crops, and for the senication of crops a prepared 10% aqueous solution-extract is used, obtained by steaming the green mass of amaranth leaves in the milky-waxy ripeness phase of the lower inflorescence, cooled, strained, and then mixed the resulting aqueous solution-extract with Karmadon mineral water at the rate of 200 l/ha and the amaranth panicles are processed.

The disadvantage of the claimed method is the treatment of plants in the later stages of ripening, when the main damage from weeds manifests itself in a decrease in crop yield.

There is a known method for pre-sowing treatment of amaranth seeds (RU 2575043, IPC A01C 1/00, published 02/10/2016). The method involves soaking amaranth seeds in a mixture of aqueous solutions of 0.2% potassium humate with 0.1-0.2% PABA for 3-6 hours, then enveloping them in Irlit mash with 0.1% aqueous solution of sodium selenite at a ratio of 1 :3. The method allows you to increase the uniformity of seeding, germination, productivity, and quality indicators of green mass.

The disadvantage of the claimed method is the lack of a herbicidal effect on weeds in the early stages of amaranth development.

There is a known method of sowing amaranth, which allows to improve the quality of the seed (RU 2612778, IPC A01C 1/06, published 03/09/2016). The method of sowing amaranth includes pre-sowing seed treatment by covering each individual seed with a shell and subsequent placement into the soil. In this case, the shell is first formed using a polymer hydrogel, which is an aqueous solution of a water-soluble polysaccharide derivative and a polycarboxylic acid, and then the shell is dipped into a filler, which is water or an aqueous solution of hydrophilic substances. Next, the seeds are introduced individually into each shell during the sowing process.

The disadvantage of the claimed method, as in the previous one, is the lack of herbicidal effect on weeds.

The closest to the claimed invention is a method of controlling weeds in amaranth crops, which consists of using the Miura herbicide together with the growth-regulating fertilizer Agrovit-Kor brand A (Naumov M.O., Tyukina E.V., Bochkarev D.V., Smolin N.V., Emelyanov S.V., Soldatov E.O. Combined use of herbicide and organomineral fertilizer in the cultivation of amaranth for grain // Fertility 2021. No. 1 (118). article/n/sovmestnoe-primenenie-gerbitsida-i-organomineralnogo-udobreniya-pri-vozdelyvanii-amanta-na-zerno (date of access: 07/07/2023).

The disadvantage of this method is that the method proposed by the authors does not use herbicides against dicotyledonous weeds, which constitute significant competition for amaranth plants.

The technical result of the claimed invention is to increase grain yield, increase the collection of squalene and reduce the herbotoxic effect in amaranth plants through the use of a tank mixture of herbicides together with a growth regulator.

The essence of the invention lies in the fact that the method of controlling weeds in amaranth paniculata crops includes the use of herbicides and growth regulators. To prepare the tank mixture, herbicides based on clopyralid, haloxyfop-R-methyl, clethodim are used, and a 0.01% solution of triterpene acids is used as a growth regulator, followed by spraying paniculate amaranth in the phase of 3-4 true leaves with the resulting tank mixture.

The claimed invention proposes the use of a tank mixture of herbicides in conjunction with a growth regulator, which should reduce the herbotoxic effect on amaranth plants.

The use of growth-regulating drugs in crop production together with herbicides can achieve several goals at once: increasing the yield and quality of grain and helping plants more easily tolerate negative herbotoxic stress associated with the use of pesticides.

The method is carried out as follows.

First, the preparation of triterpene acids is obtained. The triterpene acid preparation is obtained by pyrolysis of wood resins. Triterpene acids are a rather complex mixture of similar pairs of geometric isomers, differing in the stereochemistry of the side chain of the molecule, the structure of the tetracyclic carbon backbone and the substituent at the C (3) atom (usually a keto or hydroxyl group).

The working solution of herbicides and growth regulator preparations is prepared at the rate of 200 l/ha. When preparing a tank mixture, herbicides based on clopyralid 750 g/kg (0.4 l/ha), haloxyfop-R-methyl 80 g/l and clethodim 130 g/l (0.6 l/ha) are first added to the working solution. then a growth regulator 0.01% solution of triterpene acids is added. The application of the working solution is carried out using ground sprayers, the use of which allows the preparations to be evenly distributed in the water.

Study of the influence of a tank mixture of herbicides and growth regulators on the development of amaranth plants.

Research to study the influence of growth regulators on the development of amaranth was carried out in 2021-2022 on the land use territory of Kalinovskoye LLC, Chamzinsky district of the Republic of Mordovia.

To study the effect of the studied tank mixture of drugs on increasing the yield of the biologically active substance squalene, the following options and methods of treating amaranth plants with them were considered:

- option 1 - water (control, without treatment);

- option 2 - clopyralid 750 g/kg (spraying);

- option 3 - clopyralid 750 g/kg and 0.01% solution of triterpene acids (spraying);

- option 4 - clopyralid 750 g/kg, haloxyfop-R-methyl 80 g/l, clethodim 130 g/l (spraying);

- option 5 - clopyralid 750 g/kg, haloxyfop-R-methyl 80 g/l, clethodim 130 g/l, 0.01% solution of triterpene acids (spraying).

Analysis of the chemical composition of the product of pyrolysis of wood resins showed that it contains the following acids: abietic (14.2%), anticopalic (12.6%), behenic (12.3%), pimaric (12.2%), pinifolic ( 13.1%), epimanooloxide-19-oic (11.2%) and other triterpene acids, which amounted to less than 5%.

The experiments were carried out in triplicate. The shape of the plots is rectangular, the area of the experimental plot is 15 ^m2 , the area of the control plot is 12 ^m2 .

The placement of options within repetitions is randomized. The treatment of crops with the studied mixture of preparations was carried out in the phase of 2-4 true leaves. For spraying, a backpack sprayer was used, the working fluid flow rate was 300 l/ha (methodology for state variety testing of agricultural crops, 1989).

Sheaf samples for laboratory analysis were taken at the onset of economic ripeness in all sample plots in triplicate. Statistical processing of data was carried out using the method of analysis of variance.

Squalene was determined from amaranth seed oil. To do this, it was dissolved in an eluent with a concentration of 10.0 ± 1.0 mg/ml. For reverse-phase high-performance liquid chromatography, an Agilent 1260 Infinity chromatography system with a differential refractometric detector RI 401 (Waters) was used. Chromatographic columns: 4.6×250 mm Kromasil 100-5C18, 4.0×250 mm, flow rate 0.8 ml/min, column temperature 35°C, mobile phase: 25% acetonitrile in acetone. For the quantitative determination of squalene, a standard substance was used, the solutions of which were used to determine the calibration dependence. The concentration of squalene in oil was calculated from peak areas (Multichrome 1.5 program).

Weed counts were carried out in accordance with the methodological instructions of the All-Russian Research Institute of Plant Protection: before treatment (initial weed), 15, 30, 45 days after treating crops with herbicides and before harvesting. At each count, the number of weeds was calculated separately by species. The effect of the studied tank mixture of drugs on the weediness of amaranth crops is presented in Table 1.

The feasibility of using various active ingredients of herbicides, both separately and in combination with growth regulators in crops, is primarily assessed by their biological effectiveness against various groups of weeds. Treatment of amaranth crops with preparations based on clopyralid, haloxyfop-R-methyl, clethodim and a solution of triterpene acids contributed to a significant reduction in the infestation of the crop.

In the control variant, before treatment, 53 specimens of weeds belonging to 6 families and 12 species were noted, among which 18 were monocotyledons and 35 dicotyledons. The crops were dominated by representatives ^of : bluegrass ( Elytrigia repens (L.) Nevski - 8 ^pcs./m2 , Echinochloa crus-galli (L.) Beauv. - 3 pcs./m2, Setaria pumila (Poir.) Schult. - 4 ^{pcs./m2 ,} Setaria viridis (L.) Beauv. - 3 ^pcs./m2 ), asteraceae ( Sonchus arvensis L. - 4 pcs./m2, Tripleurospermum inodorum (L.) Sch. Bip. - 3 pcs. ^./m2 ), amaranthus retroflexus L. - 8 ^pcs./m2 ), etc.

On the 30th day after treating the amaranth plant with the mixture according to option 5, the number of weeds decreased by 94% compared to the control option. Echinochloa crus-galli (L.) Beauv., Setaria pumila (Poir.) Schult, Setaria viridis (L.) Beauv., Sonchus arvensis L. completely died. On the 60th day after treatment, the number of weeds decreased by 95% compared to the control ( option 1).

The most important indicator for assessing the effectiveness of herbicides and growth regulators is their effect on the morphometric parameters of the crop.

Plant height has a direct impact on the yield of green mass and the intensity of photosynthetic activity of leaves. The studied mixtures of drugs had different effects on the morphometric parameters of amaranth. (table 2).

In option 5, the plant height was 17 cm higher, which is 12% compared to option 1 and 11% more than in option 4. In option 2, the plant height was 15% less compared to the control option.

The maximum accumulation of air-dry mass from one plant was noted in option 5, the increase was 23.4 (45%) compared to option 1 and 2.5 g (10%) when compared with option 4. In options 2 and 3 this figure was less by 4 and 15% respectively.

The highest grain yield per plant was in option 5. The increase was 5.95 g (30%) compared to option 1 and 5.9 g (8%) when compared with option 4. In options 2 and 3 there was also a significant an increase in grain yield per plant, but it was lower by 3 and 11% compared to the best (option 5) option.

The use of herbicides together with a growth regulator significantly increased the yield in all variants. The greatest efficiency was from the use of option 5. Grain yield increased by 0.48 t/ha (30%) when compared with option 1. The use of herbicides without a growth-regulating drug was significantly worse, the increase was 0.27 t/ha (16%) compared to option 1.

A similar pattern was observed when cultivating amaranth for green mass. The increase compared to the control (according to option 1) was 11.4 t/ha - 45%. There was no significant increase compared to the option without a growth regulator (option 4) (2.3 t/ha - 8%).

The ratio of green mass to grain mass showed that for cultivation for green fodder and silage, the most effective is the use of only a herbicide against dicotyledons (option 2), since the coefficient here is the maximum among all studied options - 15.2.

Calculation of the squalene collection per unit area showed that in the experiment it was greatest in option 5. The increase compared to option 1 was 1.97 l/ha (55%) due to an increase in crop productivity and crude fat yield.

The conducted studies indicate the effectiveness of the combined use of herbicides and a growth regulator on the yield of amaranth grain and the yield of the biologically active substance squalene.

The invention makes it possible to increase the yield of amaranth grain by 30% (Table 3) and the collection of squalene from 1 hectare by 55% (Table 4).

The invention was created at the expense of the Fund for Assistance to the Development of Small Enterprises in the Scientific and Technical Field (agreement No. 17078GU/2021 dated November 9, 2021).

Table 1 Option Before processing 30 days after treatment 60 days after treatment Monocot weeds, ^pcs./m2 Dicotyledonous weeds, ^pcs./m2 Monocot weeds, ^pcs./m2 Dicotyledonous weeds, ^pcs./m2 Monocot weeds, ^pcs./m2 Dicotyledonous weeds, ^pcs./m2 1 18 35 36 52 31 47 2 18 35 34 7 thirty 5 3 18 35 thirty 6 28 3 4 18 35 7 5 4 4 5 18 35 6 5 3 5

table 2 Option Height of amaranth plants, cm Air-dry mass of one plant, g Grain weight per plant, g 1 140 20.3 52.56 2 119 22.3 67.6 3 153 25.1 74.3 4 141 23.7 70.1 5 157 26.2 76.0

Table 3 Option Grain yield, t/ha Productivity of green mass, t/ha Ratio of green mass to grain mass 1 1.62 21.0 13.0 2 1.78 27.1 15.2 3 2.01 29.8 14.8 4 1.89 28.1 14.8 5 2.10 30.4 14.5

Table 4 Option Squalene content
in crude fat,% Collection of squalene from
grain yield, l/ha 1 7.20 3.58 2 7.42 4.39 3 8.12 4.81 4 8.10 4.66 5 8.25 5.55

Claims (1)

A method of controlling weeds in amaranth paniculata crops, characterized by the fact that it includes the use of herbicides and growth regulators, while the working solution of herbicide preparations and growth regulators is prepared at the rate of 200 l/ha; when preparing a tank mixture, herbicides based on clopyralid 750 are added to the working solution g/kg, haloxyfop-R-methyl 80 g/l and clethodim 130 g/l, and a 0.01% solution of triterpene acids is added as a growth regulator, followed by spraying paniculate amaranth in the phase of 3–4 true leaves with the resulting tank mixture.