RU2825998C1 - Method of controlling fusarium spike of wheat - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention relates to biotechnology and represents a method for controlling fusarium spike of wheat. Arable soil is mulched by application of plots on the cultivated area at the outcrops of wheat, which are at the stage of ontogenesis 31 according to BBCH classification, first of compost, then of wheat straw. Amount of compost and wheat straw is calculated based on moisture content and carbon content of wheat straw and compost, which, when added to the treated area, corresponds to a mulch concentration of 50–60 gC×m^-2 for compost and 160–180 gC×m^-2 for straw. For mulching one uses dry wheat straw with length of 15–25 cm, moisture content 7–15 wt.%, carbon content in dry mass is 40–45 wt.%, and compost based on cattle manure or based on poultry droppings and champignon production wastes, with moisture content of 53–69 wt.%, carbon content in dry mass 17–30 wt.%. Characteristics of the harvested grain are assessed.

EFFECT: reduced portion of wheat grains contaminated with fusarium blight, reduced content of mycotoxin DON in grain and increased wheat yield.

1 cl, 1 tbl

Description

The invention relates to agriculture, in particular to methods for combating fusarium head blight of wheat based on organic mulch.

Fusarium is a plant disease that most often originates from the soil. It is easier to prevent than to neutralize it. This will require preventive actions before sowing in the form of seed treatment to prevent the development and spread of spores and the correct choice of wheat variety that is most suitable for its predecessor. It is also necessary to prepare and process the sowing areas, remove plant residues from the previous harvest. After sowing, wheat should be treated with fungicides 2-3 times before the wheat blooms. In this regard, the need to create more effective and affordable technologies for combating Fusarium spp. has increased.

As is known, the most intensive infection occurs in the flowering phase of wheat, so fungicide treatment should be carried out at the beginning of this period. It has been established that the most effective in the fight against fusarium are tebuconazole, metconazole, prothioconazole, pidiflumetofen. Other active substances are not effective. At the same time, strobilurins can enhance the toxin formation of fungi, so their use only increases the harmfulness of fusarium. How to deal with fusarium head blight of cereal crops. Theory and practice. https://поле.рф/journal/publication/2197 Found on the Internet 10/23/2023.

Two ways of using biological plant protection products against fusarium are proposed. The first is the direct effect of bioagents or their metabolites on the ear shortly before the period or during the susceptible phase, the second is the treatment of plant residues with antagonists long before the period of plant infection to suppress the number of infections. Thus, the treatment of wheat straw in the field with a suspension of the fungi Trichoderma harzianum (Fernandez, 1992) and Microsphae ropsis sp. (Bujold et al., 2001) showed a significant decrease in infection and sporulation by the fungus Gibberella zeae . All-Russian Research Institute for Plant Protection (VIZR). Fusarium of Grain Crops. 1 Supplement to the journal "Plant Protection and Quarantine" No. 5, 2011, p. 100. Fusarium wilt of grain crops.

A known method for preventing the development of fusarium in cereal plants such as wheat and barley involves growing a microbial strain of the species Variovorax sp. NRRL B-50469, which has suppressive activity against fusarium, or a culture thereof in the growth medium or soil of the plant. The method for treating against the development of fusarium involves applying an effective amount of the microbial strain or culture thereof to the plant or its environment. RU 2736382 C1, published 11/16/2020.

Compost is a product of the aerobic decomposition process, during which microorganisms play an important role. Microorganisms mainly decompose organic matter into stable humus-like substances that can be used to improve the quality and fertility of the soil. In addition, compost often has not only fertilizing properties, but also the ability to suppress plant diseases, the so-called suppressiveness. Bonanomi G. et al. Identifying the characteristics of organic soil amendments that suppress soilborne plant diseases. Soil Biol. Biochem. 2010. v. 42, №2. p. 136-144.

Straw is a traditional material for mulching agricultural fields. Currently, various options for mulching soil in fields with straw are used. In particular, a method is known for accumulating moisture reserves in the field by mulching previous grain crops with straw followed by shallow flat-cutting of the soil. A.R. Makarov, M.E. Cherepanov, L.V. Yushkevich. Soil Moisture Resources in Dryland Agriculture of Western Siberia. Omsk, Rosagroprom, 1992, pp. 94-106.

The disadvantage of this method is that it does not solve the problem of moisture accumulation in occupied pairs.

The technical task of the present invention is to develop a method for combating fusarium head blight of wheat using organic mulch prepared from wheat straw and compost, which made it possible to reduce the proportion of grains infected with fusarium and at the same time increase the yield.

The technical result of implementing the invention is a reduction in the proportion of wheat grains infected with fusarium, a reduction in the content of the mycotoxin DON in grain and an increase in wheat yield due to optimization of the concentration of the organic mulch used and the conditions of its application.

The technical result is achieved by a method for combating fusarium head blight of wheat, according to which arable soil is mulched with compost and wheat straw on wheat yields that are in the ontogenesis stage 31 according to the BBCH classification, whereby compost is first applied to the treated area of the plot, then wheat straw in an amount calculated based on the moisture content and carbon content of the wheat straw and compost, which, when added to the treated area, corresponds to a mulch concentration of 50 - 60 gC × m ^-2 for compost and 160 - 180 gC × m ^-2 for wheat straw, and a subsequent assessment of the characteristics of the harvested grain is carried out.

The achievement of the technical result is also facilitated by the fact that dry wheat straw 15-25 cm long, with a moisture content of 7-15 wt.%, a carbon content in dry mass of 40-45 wt.% and compost based on cattle manure or based on bird droppings and waste from the production of champignons, with a moisture content of 53-69 wt.%, a carbon content in dry mass of 17-30 wt.% are used for mulching.

The implementation of the claimed invention is confirmed by field experiments conducted in the fields of various organizations.

Description of the six field experiments conducted

1. Production experiment 2020

The 2020 field experiment was conducted on the fields of the Savinskaya Niva organization (Kaluga Region). The organization produces grain in compliance with organic technology standards, without using chemical fertilizers and plant protection products. The experiment was conducted on two halves of a large field (54.52 N, 34.95 E). On one half, the soil was cultivated before sowing wheat by standard plowing, on the other by disking. Preceding crop: vetch. Winter wheat variety: Moskovskaya - 40. The Moskovskaya - 40 variety is moderately resistant to fusarium head blight. In April 2020, four sites (two control, two experimental) were laid out on each half of the field. Thus, a total of eight sites were examined. The size of each site was 5 m wide and 50 m long. Last year's dry wheat straw, chopped in a chopper (Highbuster H-800) to an average chop length of 15 cm, was used to prepare the mulch. Before preparing the mixture, the straw had a moisture content of 7 wt. %, the carbon content in dry mass was 43 wt. %. The compost used to prepare the mulch was produced on the basis of cattle manure, was taken from a compost pit located in this organization, and had a moisture content of 60 wt. %, the carbon content in dry mass was 28 wt. %. The mulch was mixed on industrial agricultural scales in a trailer of an organic fertilizer spreader. First, compost was placed on the bottom of the trailer in such an amount that its concentration when added to the experimental site was equal to 50 gC × m ^-2 . Then, wheat straw was added to the trailer using a tractor-loader so that its concentration when added to the experimental site was equal to 180 gC × m ^-2 . After that, the mulch, consisting of two layers (the lower layer is compost, the upper layer is straw) was introduced to the experimental site using a tractor connected to a trailer of an organic fertilizer spreader.

Mulch was applied to the plots on April 27, 2020, when the wheat was at ontogenesis stage 31 according to the BBCH classification, i.e. at the initial stage of the "stem elongation" stage, and could not yet be significantly damaged by the passage of wheeled vehicles across the field. The harvest was carried out on July 27, 2020. The harvest was recorded by driving an industrial combine separately through each plot and weighing the grain collected at each plot.

2. Plot experiment 2021

The field experiment in 2021 was conducted in the fields of the Federal State Budgetary Scientific Institution "Federal Rice Research Center" (Krasnodar Krai). When growing grain, this organization uses standard production techniques: plowing the soil, standard application of chemical fertilizers and chemical plant protection products. The experiment was conducted in two fields (the first field: 45.08 N, 38.72 E; the second field: 45.06 N, 38.81 E). In the first field, the preceding crop was wheat, in the second - corn. In the first field, in the year of our experiment, the winter wheat variety "Tanya" was sown, in the second - the variety "Bezostaya - 100". The variety "Tanya" is moderately resistant to fusarium head blight. The variety "Bezostaya - 100" is moderately resistant to fusarium head blight. In April 2021, four plots (two control, two experimental) were laid out in each field. Thus, a total of eight plots were examined. The size of each plot was 5 m in width and 5 m in length. Last year's fine fraction of dry wheat straw 15-25 cm long was used to prepare mulch. Before preparing the mixture, the straw had a moisture content of 70 wt.%, and a carbon content in dry matter of 43 wt.%. The compost used to prepare the mulch was produced on the basis of bird droppings and waste from champignon production. Before the start of the experiment, the compost had a moisture content of 53 wt.% and a carbon content in dry matter of 17 wt.%. Straw and compost were purchased from the organization "OOO Yuzhnaya Mushroom Company", which delivered these materials to the edge of the experimental fields on the day of the start of the experiment. Before application, based on moisture and carbon content, the amount of wheat straw and compost was calculated, which, when added to the plot, corresponds to a mulch concentration of 180 gC m ^-2 for straw and 50 gC m ^-2 for compost. Compost was applied to the plots manually first, then straw.

Mulch was applied to the plots on April 14, 2021, when the wheat was at ontogenesis stage 31 according to the BBCH classification, i.e. at the initial stage of the "stem elongation" stage, and was not yet heavily susceptible to trampling. The yield was recorded on June 30, 2021. The yield was recorded manually by selecting sheaves from two 0.5 m by 0.5 m counting squares, randomly selected within each plot, in each plot. The collected sheaves were threshed on a manual automatic thresher (MPS-1M). The weight of the grain collected in each counting square was averaged to obtain a yield estimate for each plot.

3. Plot experiment 2022

The field experiment in 2022 was conducted in the fields of the Federal State Budgetary Scientific Institution "Federal Rice Research Center" (Krasnodar Krai). In its fields, this organization uses standard production techniques: soil plowing, standard application of fertilizers and chemical plant protection products. The experiment was conducted in two fields (the first field: 45.08 N, 38.71 E, the second field: 45.08 N, 38.74 E). In the first field, the preceding crop was peas, in the second - rapeseed. In both fields, in the year of the experiment, the winter wheat variety "Gomer" was sown. The "Gomer" variety is susceptible to fusarium head blight. In April 2022, four plots were laid out in each field (two control, two experimental). Thus, a total of eight plots were studied. The size of each plot was 7 m in width and 7 m in length. Last year's fine fraction of dry wheat straw 15-25 cm long was used to prepare mulch. Before preparing the mixture, the straw had a moisture content of 15 wt. %, and a carbon content in dry mass of 43 wt. %. The compost used to prepare the mulch was produced on the basis of bird droppings and waste from champignon production. Before the start of the experiment, the compost had a moisture content of 53 wt. % and a carbon content in dry mass of 27 wt. %. Straw and compost were purchased by the organization "OOO "Yuzhnaya Mushroom Company", which delivered these materials to the edge of the experimental fields on the day of the start of the experiment. Before application, based on moisture and carbon content, the amount of wheat straw and compost was calculated, which, when added to the plot, corresponds to a mulch concentration of 170 gC m ^-2 for straw and 60 gC m ^-2 for compost. Compost was applied to the plots manually first, then straw.

Mulch was applied to the plots on April 6, 2022, when the wheat was at ontogenesis stage 31 according to the BBCH classification, i.e. at the initial stage of the "stem elongation" stage, and was not yet heavily susceptible to trampling. The harvest was collected on July 2, 2022. The yield was recorded manually by selecting sheaves from three 0.5 m by 0.5 m accounting squares randomly selected within each plot. The collected sheaves were threshed on a manual automatic thresher (MPS-1M). The weight of grain collected in each accounting square was averaged to obtain a yield estimate.

4. Plot experiment 2023

The field experiment in 2023 was conducted in the fields of the Federal State Budgetary Scientific Institution "Federal Rice Research Center" (Krasnodar Krai). In its fields, this organization uses standard production techniques: soil plowing, standard application of fertilizers and chemical plant protection products. The experiment was conducted in two fields (the first field: 45.07 N, 38.73 E; the second field: 45.08 N, 38.72 E). In the first field, the preceding crop was rapeseed, in the second - sunflower. In both fields, in the year of the experiment, the winter wheat variety "Gomer" was sown. The "Gomer" variety is susceptible to fusarium head blight. In April 2023, four plots were laid out in each field (two control, two experimental). Thus, a total of eight plots were studied. The size of each plot was 7 m in width and 7 m in length. Last year's fine fraction of dry wheat straw 15-25 cm long was used to prepare mulch. Before preparing the mixture, the straw had a moisture content of 10 wt. %, and a carbon content in dry mass of 45 wt. %. The compost used to prepare the mulch was produced on the basis of bird droppings and waste from champignon production. Before the start of the experiment, the compost had a moisture content of 40 wt. % and a carbon content in dry mass of 30 wt. %. Wheat straw and compost were purchased from the organization OOO "Yuzhnaya Gribnaya Kompaniya", which delivered these materials to the edge of the experimental fields on the day of the start of the experiment. Before application, based on moisture and carbon content, the amount of straw and compost was calculated, which, when added to the plot, corresponds to a mulch concentration of 180 gC × m ^-2 for wheat straw and 50 gC × m ^-2 for compost. Compost was first applied manually to the plots, then straw.

Mulch was applied to the plots on 11 April 2023, when the wheat was at ontogenesis stage 31 according to the BBCH classification, i.e. at the initial stage of the "stem elongation" stage, and was not yet heavily susceptible to trampling. The yield was censused on 28 June 2023. The yield was censused manually by selecting three sheaves from three 0.5 m by 0.5 m counting squares randomly selected within each plot. The collected sheaves were threshed on a spikelet thresher (MK-1). The weight of the grain collected from each counting square was averaged to obtain a yield estimate for each plot.

5. Small-scale experiment 2023

A small-plot field experiment was conducted in 2023 in the fields of the Federal State Budgetary Institution "Federal Scientific Center for Biological Plant Protection" (Krasnodar Krai). This organization uses standard production techniques: soil plowing, standard application of fertilizers and chemical plant protection products. The experiment was conducted on the organization's main experimental field (45.05 N, 38.87 E). The sites were divided into two blocks, 150 m apart. The preceding crop was black fallow. Winter wheat varieties "Gomer" and "Alekseich" were sown in the experimental small plots. The "Gomer" variety is susceptible to fusarium head blight. The "Alekseich" variety is moderately susceptible to fusarium head blight. The plots were laid out in October 2022. Four plots were laid out in each block (two control, two experimental). Thus, a total of eight plots were studied. The size of each plot was 1 m in width and 1 m in length. Last year's fine fraction of dry wheat straw 15-25 cm long was used to prepare mulch. Before preparing the mixture, the straw had a moisture content of 10 wt. %, the carbon content in dry matter was 45 wt. %. The compost used to prepare the mulch was produced on the basis of bird droppings and waste from champignon production. Before the start of the experiment, the compost had a moisture content of 40 wt. % and a carbon content in dry matter of 30 wt. %. Straw and compost were purchased from the organization OOO Yuzhnaya Gribnaya Kompaniya, which delivered these materials to the edge of the experimental fields on the day of the start of the experiment. Before application, based on moisture and carbon content, the amount of straw and compost was calculated, which, when added to the plot, corresponds to a mulch concentration of 180 gC × m ^-2 for straw and 60 gC × m ^-2 for compost. First, compost was added to the plots manually, then straw.

Mulch was applied to the plots on April 12, 2023, when the wheat was at ontogenesis stage 31 according to the BBCH classification, i.e. at the initial stage of the "stem elongation" stage, and was not yet heavily susceptible to trampling. The harvest was counted on June 28, 2023. The harvest was counted manually, by selecting all the wheat ears from each plot. The collected sheaves were threshed on a spikelet thresher (MK-1).

6. Large-plot experiment 2023

A large-plot field experiment was conducted in 2023 in the field of the North Caucasus Federal Scientific Agrarian Center (Stavropol Krai). The experiment was conducted in a field (45.14 N, 42.09 E) using standard production techniques: tillage, standard application of fertilizers and plant protection products. Peas were the preceding crop. The Victoria Odesskaya winter wheat variety was sown in the year of the experiment. The Victoria Odesskaya variety is moderately resistant to fusarium head blight. Eight plots (four control and four experimental) were laid out in the field in April 2023. Each plot was 7 m wide and 25 m long. To prepare the mulch, last year's fine fraction of dry wheat straw 15-25 cm long was used. Before preparing the mixture, the straw had a moisture content of 10 wt. %, the carbon content in dry mass of 40 wt. %. The compost used to prepare the mulch was produced on the basis of bird droppings and waste from the production of champignons. Before the experiment, the compost had a moisture content of 69 wt. % and a carbon content in dry mass of 30 wt. %. Straw and compost were purchased from the organization "IP Bryanceva M.A." Before application, based on the moisture content and carbon content, the amount of straw and compost was calculated, which, when added to the site, corresponds to a mulch concentration of 180 gC × m ^-2 for straw and 60 gC × m ^-2 for compost. First, compost was manually added to the plots, then straw.

Mulch was applied to the plots on April 19, 2023, when the wheat was at ontogenesis stage 31 according to the BBCH classification, i.e. at the initial stage of the "stem elongation" stage, and was not yet heavily susceptible to trampling. The harvest was counted on July 8, 2023. The harvest was counted by driving a specialized small-sized combine (Sampo-130) separately through each plot and weighing the harvested crop at each plot.

To evaluate the effectiveness of the patented method for combating fusarium head blight, the following grain characteristics were used.

1. Nitrogen content.

2. Productivity.

3. The proportion of grains infected with fusarium.

4. Content of mycotoxin DON.

5. Content of mycotoxin T-2.

These parameters were measured during six field experiments conducted in winter wheat fields in 2020, 2021, 2022 and 2023 in three regions of Russia (Kaluga Region, Krasnodar Region, Stavropol Region). The experiment and control replicates in each experiment were four.

Description of the methods used to evaluate the effectiveness of the patented method of combating fusarium head blight

1. Nitrogen content.

The nitrogen content in grain samples was determined using a Flash 1112 elemental analyzer (Thermo, USA) at the Center for Collective Use "Instrumental Methods in Ecology" of the A.N. Severtsov Institute of Problems of Ecology and Evolution of the Russian Academy of Sciences, Moscow. The nitrogen content was estimated as the mass of nitrogen contained in 100 g of dry matter of grain (g 100 g ^-1 ).

2. Productivity.

The methods for calculating the yield are described in the description of the experiments. The grain moisture content during harvesting was 14% by weight. The yield was estimated as the grain mass per hectare and expressed in centners per hectare (c ha ^-1 ).

3. The proportion of grains infected with fusarium.

The proportion of wheat grains infected with fusarium was determined by the method of seed analysis in a humid chamber according to GOST 12044-93. The proportion of grains infected with fusarium was estimated as the percentage of grain with visible signs of fusarium infection (%).

4. Content of mycotoxin DON.

The content of mycotoxin DON was determined using the method of measuring the mass fraction of deoxynivalenol in samples of grain crops, feed and nuts by enzyme immunoassay using the reagent kit "DEOXYNIVALENOL-IFA" (HEMA, Russia; number and date of the certification certificate: 241.0196 / RA. RU 311866 / 2017 dated 03.07.2017). The content of mycotoxin DON was estimated as the mass of mycotoxin DON contained in a kilogram of dry matter of grain (μg kg ^-1 ).

5. Content of mycotoxin T-2.

The content of mycotoxin T-2 was determined using the method of measuring the mass fraction of T-2 toxin in samples of grain crops and feed by enzyme immunoassay using the T-2 TOXIN-IFA reagent kit (HEMA, Russia; number and date of the certification certificate: 241.0194 / RA. RU 311866 / 2017 dated 03.07.2017). The content of mycotoxin T-2 was estimated as the mass of mycotoxin T-2 contained in a kilogram of dry matter of grain (μg kg ^-1 ).

The results of field studies of the effectiveness of the claimed method are presented in the table. Based on the obtained results, the claimed method (mean ± standard error):

- reduces the content of mycotoxin DON in grain by 42.1±5.3%,

- reduces the proportion of grains infected with fusarium by 46.2±14.3%,

- increases yield by 8.8±5.1%,

- does not affect the content of mycotoxin T-2 and the nitrogen content in grain .

Table

Results of field studies of the effectiveness of the patented method

Experimental variant Production experience 2020 Plot experience 2021 Plot experiment 2022 Plot experiment 2023 Small-scale experience 2023 Large-scale experience 2023 Average by years Change from control, % Nitrogen content in grain, g 100 g ^-1 Control ¹ 2.1±0.1 (4) 2.0±0.1 (4) 1.5±0.1 (4) 2.1±0.1 (4) 2.4±0.1 (4) 2.1±0.1 (4) 2.0±0.1 (6) 0 Mulch 2.0±0.1 (4) 1.9±0.1 (4) 1.6±0.1 (4) 2.1±0.1 (4) 2.4±0.1 (4) 2.2±0.1 (4) 2.0±0.1 (6) 0.0±3.1 (6) Productivity, c ha ^-1 Control 29.9±1.8 (4) 67.5±4.5 (4) 85.2±13.1 (4) 23.6±0.5 (4) 34.5±7.6 (4) 38.2±2.0 (4) 46.5±9.9 (6) 0 Mulch 29.6±1.5 (4) 73.3±5.0 (4) 90.0±11.6 (4) 32.5±5.5 (4) 38.4±6.9 (4) 39.6±1.0 (4) 50.6±10.2 (6) 8.8±5.1 (6) The proportion of grains infected with fusarium, % Control 7.5±3.2 (4) 9.3±2.1 (4) 5.0±2.5 (4) 0.0±0.0 (4) 1.5±1.5 (4) 0.0±0.0 (4) 3.9±1.6 (6) 0 Mulch 1.0±1.0 (4) 8.4±2.6 (4) 2.5±1.5 (4) 0.0±0.0 (4) 0.0±0.0 (4) 1.0±1.0 (4) 2.1±1.3 (6) -46.2±14.3 (6) Content of mycotoxin DON in grain, μg kg ^-1 Control 121.1±83.6 (4) 84.7±16.8 (4) < P.O. 87.4±18.4 (4) 701.1±257.0 (4) 442.5±225.0 (4) 287.4±123.3 (5) 0 Mulch 37.5±0.1 (4) 51.6±14.1 (4) < P.O. 51.9±14.4 (4) 415.2±142.7 (4) 275.8±45.4 (4) 166.4±76.4 (5) -42.1±5.3 (6) Content of mycotoxin T-2 in grain, μg kg ^-1 Control < P.O. 30.7±18.7 (4) 18.6±6.6 (4) < P.O. < P.O. 21.0±5.3 (4) 23.4±3.7 (3) 0 Mulch < P.O. 27.4±8.9 (4) 16.9±4.9 (4) < P.O. < P.O. 31.2±8.5 (4) 25.1±4.3 (3) 7.3±15.9 (3)

¹ Data are presented as mean ± standard error, the number of replicates is given in brackets. D.O. is the threshold of detection of mycotoxin in the sample.

Claims (3)

1. A method for combating fusarium head blight of wheat, which involves mulching arable soil with compost and wheat straw on wheat seedlings that are at ontogenesis stage 31 according to the BBCH classification, whereby compost is first applied to the treated area of the plot, then wheat straw in an amount calculated based on the moisture content and carbon content of the wheat straw and compost, which, when added to the treated area, corresponds to a mulch concentration of 50 - 60 gC × m ^-2 for compost and 160 - 180 gC × m ^-2 for wheat straw, and then conducting an assessment of the characteristics of the harvested grain. 2. The method according to paragraph 1, characterized in that dry wheat straw 15-25 cm long, with a moisture content of 7-15 mass.%, and a carbon content in dry matter of 40-45 mass.% is used for mulching. 3. The method according to item 1, characterized in that compost based on cattle manure or based on bird droppings and waste from the production of champignons, with a moisture content of 53-69 mass.%, and a carbon content in dry matter of 17-30 mass.%, is used for mulching.