RU2602447C1 - Composition for protection of potatoes during storage and vegetation and preparation method thereof - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: group of inventions relates to agriculture. For preparing a composition for protection of potatoes in periods of storage and vegetation, carbendazim is mixed with polysaccharides in ratio (pts.wt): carbendazim: polysaccharides - 1:2-1:10, grinding elements are added to obtained mixture in ratio (pts.wt): mixture of carbendazim and polysaccharides: grinding elements - 1:30-1:50, followed by mechanical processing of mixture of carbendazim and polysaccharides for 3-5 hours at 60-120 rpm to produce fine powder, wherein polysaccharides are selected from: arabinogalactan, hydroxyethyl starch, sodium salt of carboxymethyl cellulose.

EFFECT: group of inventions provides effective protection of potatoes from diseases during growing and during storage thereof.

2 cl, 6 tbl, 7 ex

Description

The group of inventions relates to agriculture and can be used to increase potato productivity and the quality of the resulting products.

Uninterrupted supply of foodstuffs to the population and raw materials to industry is the primary task of the government of any state. A significant portion of the harvest must be preserved as a seed fund. Since potatoes are one of the most important food products for the population of various regions of the world and are related to products of significant social, economic and even political importance, the prevention of losses due to damage to potatoes during cultivation, storage and transportation is a matter of primary importance.

To control the spread and development of infections of various etiologies in potato seedlings, as well as during its storage, it is necessary to rationally use chemical and biological methods of protection (K. Pshenchenkov et al. Potato storage technologies.- M., Potato grower, 2007, 192 pp. )

A known method of processing potato tubers before storing the biological product phytosporin-M in liquid form. The consumption rate of the phytosporin-M biological product is 100 ml / l of water with a working fluid consumption rate of 1.0 l / 10 kg of tubers (List of pesticides and agrochemicals approved for use in the Russian Federation. M., 2012, p. 134).

Also known is a method that involves treating potato tubers before storing them with a biological product containing biomass of Bacillus amyloliquefaciens VKPM B-11008 with a titer of vegetative cells and spores 1.24 ÷ 1.30 × 10 ¹⁰ CFU / ml and humates. The content of the components of the biological product is respectively 99 vol. % and 1.0 vol. %

The invention provides inhibition of the development of fungal and bacterial diseases of potato tubers during storage (see RU 2534561 C2, 11.27.2014).

Unfortunately, biological products are not able to deal with pathogens inside tubers, which become a source of infection. The infection preserved in the tubers is not only transmitted to young plants and tubers of a new crop, but also infects the soil, which can lead to the loss of almost half of the grown products. Therefore, it is preferable to process seed potatoes with chemical preparations (see, for example, Potato Storage, 03.20.2008, Internet address: http://prihoz.ru/ogorod/full.php?aid=271.

The following drugs are known to protect potato tubers before laying them for long-term storage: on the basis of carbendazim (Super Colfugo, Super Colfugo color); based on fludioxonil (Maxim) (see, Zeyruk V.N. et al. Ways to reduce potato losses during storage. Plant protection and quarantine, 2001, No. 9, pp. 40-41) and based on thiabendazole (fumigation fungicide Whist) ( see Zeyruk VN et al. Whist will protect potato tubers during storage. Plant Protection and Quarantine, 2006, No. 2, pp. 61-62).

The restriction of the use of toxic and highly toxic chemical fungicides in the processing of stored food products is due to environmental requirements related to the ability of pesticides to accumulate in stored products in quantities exceeding sanitary standards.

The least toxic of the fungicides listed above is carbendazim (BMK). Carbendazim is an active ingredient in such suspension preparations as Kulfugo Super, KS; Kulfugo Super Color, KS, etc. These fungicides are recommended for use on seed potatoes to combat fusarium-fomose dry rot and rhizoctonia (State catalog of pesticides and agrochemicals approved for use in the Russian Federation. M., 2010, 840 pp. ) The fungicides mentioned above are contact fungicides and do not inhibit plants at recommended concentrations, but rather stimulate the germination and development of seeds and tubers (Pshenchenkov et al. Potato storage technologies M., Kartofelevod, 2007, 192 pp.).

The closest analogue is the drug Kulfugo-Super, which is a suspension concentrate based on carbendazim. Kungugo Super fungicide is a universal systemic, preventive, and kurtative drug. The drug was created for the treatment of vegetative plants and planting material, including and to protect potato tubers before planting (see Kulfugo Super, 12/04/2013 - Internet address: http://www.pesticidy.ru/pesticide/kolfugo_super).

However, the Kulfugo-Super preparation is not intended for treating tubers during storage. In addition, the drug has a drawback of all suspension concentrates - insufficiently high frost resistance in harsh conditions of the Russian Federation, separability during long-term storage, and the difficulty of preparing precisely metered working solutions.

It should be noted that in the “State catalog of pesticides and agrochemicals approved for use in the Russian Federation” (Moscow, 2015, 735 p.), There are no chemicals based on carbendazim that are allowed for processing potato tubers during storage.

Moreover, from the prior art it follows that preparations based on carbendazim, being contact fungicides, do not affect the infection inside the tuber (Melnikov N.N. et al. Pesticides and plant growth regulators Handbook. M., Chemistry, 1995) .

The objective of the claimed group of inventions is to obtain an environmentally friendly composition suitable for protecting potatoes not only during its cultivation, but also during its storage, convenient to use and stable during storage, allowing accurate dosage of the consumption of active substances in the processing of potatoes.

The problem in terms of the method of obtaining a composition for protecting potatoes during periods of storage and vegetation is solved by the fact that according to the invention, carbendazim with polysaccharides are mixed in the ratio (in parts by weight): carbendazim: polysaccharides - 1: 2-1: 10, added to the resulting mixture of grinding elements in the ratio (in parts by weight): a mixture of carbendazim and polysaccharides: grinding elements - 1: 30-1: 50, after which a mixture of carbendazim and polysaccharides is machined at a speed of 60-120 rpm for 3 -5 hours until finely dispersed CABG, wherein the polysaccharides are selected from the group of arabinogalactan, hydroxyethyl starch, carboxymethyl cellulose sodium salt.

The object of the composition for protecting potatoes during its storage and growing season is solved by the fact that according to the invention, the composition obtained by the method described above contains carbendazim and polysaccharides selected from the group: arabinogalactan, hydroxyethyl starch, sodium salt of carboxymethyl cellulose, in the following ratio of ingredients ( in parts by weight): carbendazim: polysaccharides - 1: 2-1: 10.

The technical result of the claimed group of inventions is that:

- the resulting composition easily forms working solutions for pickling potato tubers and processing them before long-term storage by increasing the solubility of carbendazim;

- increases the efficiency of processing potatoes due to the complexation of carbendazim with natural water-soluble polysaccharides, which, due to the proximity of nature to plant objects, also contribute to the easy penetration of the drug through plant membranes;

- increases the environmental safety of the resulting composition due to the biodegradation of its natural components, as well as due to the quantitative reduction of carbendazim in its composition as a result of the synergism of the incoming ingredients;

- the resulting composition is suitable for protecting potatoes not only during its growing season, but also during storage, it allows to increase the yield of potatoes, accelerate the process of its growth and thereby improve product quality.

The claimed group of inventions is illustrated by the following examples, which, however, do not limit the scope of the claims of the applicant.

Example 1. Obtaining the composition of the drug 1.

3 g of carbendazim (BMK), 30 g of arabinogalactan (AG) and 1650 g of metal balls (ball diameter 15-22 mm) are loaded into a metal drum of a LE-101 ball mill and subjected to stirring and machining. Process Parameters:

- the module of the process (the mass ratio of "crushed substance / grinding bodies (balls)" is 1/50;

- drum loading volume 40%;

- drum rotation speed of 60 rpm;

- machining time - 5 hours.

Under the indicated conditions of machining, a beige fine-dispersed powder of the BMK composition was obtained: AG — 1:10.

Example 2. Obtaining the composition of the drug 2.

5 g of carbendazim (BMK), 25 g of hydroxyethyl starch (HES) and 900 g of metal balls (ball diameter 15-22 mm) are loaded into a metal drum of a LE-101 ball mill and subjected to stirring and machining at the following process parameters:

- the module of the process (the mass ratio of "crushed substance / grinding bodies (balls)" is 1/30;

- drum loading volume 40%;

- drum rotation speed of 100 rpm;

- machining time - 3 hours.

Under the indicated conditions of machining, a beige fine powder of the composition BMK: HES - 1: 5 was obtained.

Example 3. Obtaining the composition of the drug 3.

10 g of carbendazim (BMK), 20 g of sodium salt of carboxymethyl cellulose (Na-CMC) and 1200 g of metal balls (ball diameter 15-22 mm) are loaded into a metal drum of a LE-101 ball mill and subjected to preliminary mixing and machining at the following process parameters :

- the module of the process (the mass ratio of "crushed substance / grinding bodies (balls)" is 1/40;

- drum loading volume 40%;

- drum rotation speed of 120 rpm;

- machining time - 4 hours.

Under the indicated conditions of machining, a beige fine powder of the composition BMK: Na-CMC - 1: 2 was obtained.

Below are the data of biological tests of compositions based on BMC and polysaccharides in laboratory experiments.

Example 4. Evaluation of the effectiveness of autumn dressing of potato tubers against fomose-fusarium rot and rhizoctoniasis obtained by examples 1-3 compositions.

We studied the effectiveness of the obtained compositions and standard fungicides-etchants based on carbendazim (BMK) during storage and their subsequent effect on rhizoctonia during the growing season. For the experiment, potatoes of the Lyubava variety were used. In the fall, within 48 hours after harvesting, potato tubers were processed with the preparations obtained in examples 1-3 and laid for winter storage. To simulate production conditions, tubers were selected from under a potato harvester. Among the selected tubers, a significant number of injured were found, which can lead to the settlement of injuries caused by pathogens of fomosis, fusarium and the development of dry rot during storage. The consumption rates of the preparations are presented in table 1, the flow rate of the working fluid is 10 l / t (Handbook of pesticides and agrochemicals approved for use on the territory of the Russian Federation. - M., 2013. - 633 p.).

Samples of tubers weighing 20 kg, processed in four replicates with fungicides before laying them for storage, were stored in potatoes in bins. In the spring they were analyzed for rot damage. Healthy tubers were planted in a field experiment to study the effects of the pesticide on rhizoctonia and yield. The size of the plots is 16.8 m ² , the repetition is three times.

Studies have shown that all the compositions obtained and the standard fungicide disinfectant showed high efficiency against pathogens of dry rot during storage. The weight percent of diseased tubers with dry storage rot was 3.0–14.5 times lower than in the control variant. Moreover, the resulting compositions exceeded the biological effectiveness of the standard preparation in relation to dry rot by an average of 25-26% (table. 1).

Example 5. The effectiveness of the obtained compositions for different periods of use for rhizoctoniosis of potatoes during the growing season

Studies were carried out on the fields of farms in the Novosibirsk region, the soil and climatic conditions of which are typical of the forest-steppe zone of Western Siberia. The peculiarities of the phytosanitary situation in the planting of early potatoes of the Lyubava variety were studied in the forest-steppe of the Ob region of the Novosibirsk Region. The main elements of the technology of potato cultivation corresponded to the generally accepted for this region (Burlaka VV Potato growing in Siberia and the Far East. M., Kolos, 1978, 208 pp.). Potato agricultural technology included autumn chisel plowing, early spring harrowing, cultivation (15-20 cm), cutting ridges. Landing was carried out in furrows followed by soil closure. Planting care included herbicidal and inter-row treatments, hilling, vegetation treatments against pests. Before harvesting, the KIR tops were mowed. Harvesting with a potato digger.

The experiment was laid in accordance with the methodology for conducting field studies (B. Armor, A. Field experiment methodology (with the basics of statistical processing of research results). M., Kolos, 1979, 416 pp.) And conducted on a natural infectious background of R. solani.

The potato plants affected by rhizoctoniosis were counted 4, 10 weeks after planting according to the method of Frank, J. Evaluation of potato clone reaction to Rhizoctonia solani I J. Frank, S.S. Leach, R.E. Webb // Plant dis. Reporter, 1976, V. 60, No. 11, p. 910-912).

Studies have shown that the resulting compositions were effective against the causative agent of potato rhizoctoniasis, namely, it was found that the compositions on average significantly reduced the development of the disease by 1.3-5.4 times and the plants were completely healthy. Also, the development of rhizoctonia in the spring use of fungicides was significantly lower (1.2 times). In the phase of full germination, preparations No. 1 and No. 2 most effectively reduced this indicator when used in the spring before planting tubers, while the effectiveness of drug No. 3 did not differ significantly depending on the period of use. All the preparations obtained, applied to tubers, both in autumn and spring, at the full germination phase significantly reduced the development of rhizoctonia in 1.5–8.0 and 1.3–8.0 times, respectively, and the plants were healthy (Table 2 )

The determination of the incidence of plants during the budding-flowering phase (Table 3) showed that the trends observed in the phase of full germination were preserved. The development of rhizoctoniosis on average is significantly lower in plants grown from pickled tubers by 1.3–5.1 times. The greatest effect in reducing the development of rhizoctoniasis on the stems had the preparation No. 1 when it was used in the spring before planting tubers, while the preparation No. 3 - before laying the tubers for storage. The effectiveness of the drug No. 2 was the highest and did not have a significant difference depending on the duration of use. All the compositions obtained, applied to tubers both in autumn and spring during the budding-flowering phase, significantly reduced the development of rhizoctonia in 1.3-5.6 times.

Example 6. The study of the effect of the obtained compositions on the biometric indicators of potatoes.

As follows from the data in table 4, the resulting preparations significantly increase the length of plants in the phase of full germination, and in the phase of budding-flowering - the most effective was the preparation No. 2. In addition, the resulting compositions significantly reduce this indicator in the phase of full germination, and in the phase of budding-flowering - preferred drug No. 3. On average, during the full germination period, the period of application of the preparations does not affect the height of the plants, and to budding-flowering plants grown from tubers cultivated in the fall were 1.3 cm higher. When the tubers were processed before planting, the plants grew in the full germination phase and budding-flowering increased drug No. 2.

The resulting compositions affect not only the length of plants, but also their mass (Table 5). On average, this indicator significantly increases the number of preparations No. 2 and No. 3, and all drugs in the budding-flowering phase. The spring use of the obtained preparations provides on average a substantial increase in the mass of plants during full germination, but by the budding-flowering phase this indicator was significantly higher when the preparations were applied to tubers in the fall.

In general, a significant increase in weight during both periods of use of the protective compounds gave drug No. 3. In the phase of full germination, this indicator also significantly increases in the variants with preparations No. 2 and No. 3 (autumn etching) and standard (spring etching). In the budding-flowering phase - with preparations No. 1, No. 2 and No. 3 (autumn etching) and preparations No. 1 and No. 2, as well as the standard (spring etching).

Example 7. The study of the effect of the obtained compositions on the yield of potatoes.

As follows from the studies, the complex effect of the obtained drugs on the development of the disease, development and growth of plants leads to a change in potato productivity (table. 6).

On average, all preparations obtained significantly increase potato yields in 1.2-1.5 (17.5-46.1%). Potato yields on average are the same when using the preparations obtained and the standard in the spring for pickling tubers before planting. The largest increase was provided by drug No. 3. However, in the autumn period, the obtained preparations No. 1 and No. 3 significantly exceeded the standard preparation Colfugo-Super in effectiveness. So, when processing the seed tubers with preparations No. 1 and No. 3 before planting, an increase in potato productivity by 1.2-1.6 times (by 24.5-57.2%) was reliably achieved. When processing the tubers with preparations No. 1 and No. 3 before laying them for storage, an increase in potato productivity is observed 1.3–1.5 times (28.2–51.8%)), and in other cases there is a tendency to increase this indicator.

Thus, the conducted biological tests confirmed that the obtained preparations allow achieving synergies in the manifestation of biological activity not previously observed for similar systems based on BMK:

- revealed high efficiency against storage rot, potato rhizoctoniosis;

- the greatest decrease in the development of rhizoctonia during the growing season was shown by preparations No. 2 and No. 3;

- drugs had unexpected results on plant biometrics and crop yields. The highest productivity in potato plants was observed when using drug No. 3, because the yield increase in comparison with the control was 35% during autumn dressing and 57% during spring treatment of tubers.

Based on the above examples of the method and test results of the obtained compositions, we can conclude that the problem is solved: the claimed method allows to obtain an environmentally friendly composition suitable for protecting potatoes not only during its cultivation, but also during storage, convenient in application and stable during storage, allowing accurate dosing of the consumption of active substances in the processing of potatoes, and the resulting composition is also highly effective in protecting potatoes in IRS its vegetation, as well as, most importantly, in the period of storage, which allows not only to increase the yield of the social importance of culture, but also to maintain it.

Claims (2)

1. A method of obtaining a composition for protecting potatoes during periods of its storage and growing season, characterized in that carbendazim with polysaccharides are mixed in the ratio (in parts by weight): carbendazim: polysaccharides - 1: 2-1: 10, grinding agents are added to the resulting mixture elements in the ratio (in parts by weight): a mixture of carbendazim and polysaccharides: grinding elements - 1: 30-1: 50, after which a mixture of carbendazim and polysaccharides is machined for 3-5 hours at a rotation speed of 60-120 rpm to obtain a fine powder, while the polysaccharides are selected from the group Py: arabinogalactan, hydroxyethyl starch, sodium carboxymethyl cellulose. 2. Composition for protecting potatoes during periods of storage and vegetation, obtained by the method according to claim 1, characterized in that it contains carbendazim and polysaccharides selected from the group: arabinogalactan, hydroxyethyl starch, sodium salt of carboxymethyl cellulose, in the following ratio of ingredients (in wt. hours): carbendazim: polysaccharides - 1: 2-1: 10.