RU1821090C - Method of pest control of calcium chlorosis of flax plant - Google Patents

Abstract

The invention relates to agricultural production, in particular flax growing. The purpose of the invention is to create favorable processing conditions and protect the environment. Flax plants are treated with zinc sulfate in an amount of 0.2-1.1 kg / ha, from the seedlings of flax to the height of plants 3-4 cm. 1 table.

Description

The invention relates to agricultural production, in particular flax growing.

The aim of the invention is to create favorable processing conditions and protect the environment by reducing the consumption of reagent.

This goal is achieved due to the fact that in the method of growing flax, including preparing the soil, sowing and processing flax plants at a height of 3-4 cm by spraying zinc sulfate, the latter is treated in an amount of 0.9-1.1 kg / ha. in the period from seedlings of flax to the height of plants 3-4 cm.

According to the prototype, flax is treated with zinc sulfate at a plant height of 2 to 4 cm for 3-4 days. Short term

treating flax plants under adverse weather conditions (e.g. rainy weather) creates great difficulties for spraying the reagent during this period.

If flax plants grow to a height of more than 5 cm with untreated zinc sulfate, they are damaged by the disease, calcium chlorosis, and their further processing is ineffective.

In the proposed method, flax treatment is carried out in the period from seedlings to the plants reaching a height of 3-4 cm within 8 to 12 days.

A decrease in the dose of zinc sulfate by 4 times in comparison with the prototype and at the same time lengthening the processing time contributes to the quality of this technological process

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ABOUT

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Ki and provides maximum use of zinc sulfate and environmental protection.

PRI me R 1, On the experimental plot of the experimental base of Zhodino, Smolevichi district of Minsk region (Barsuki team) in 1990, field experiments were set up on the plots having a total area of 19.2 m2, Soil of sod-podzol, mid-podzol. light loamy soil with a pH of 6.3, the content of Pads and CaO in it was 18.0 and 20.0 mg / 100 g of soil, respectively. The predecessor - winter rye, was sown on a one-year clover. use. The tillage was as follows: in the fall - disking, plowing and 3 cultivations with harrowing (semi-steam cultivation), fertilizers P60K90 were applied under one of the cultivations; in spring, 3-fold cultivations with harrowing, rolling and sowing. A flax variety Mogilevsky-1 was used with a sowing rate of 20 million pieces of similar grains per 1 ha, seeds of the 1st class of the sowing standard.

Sowing was carried out on April 1.9, 1990, between rows of 7.5 cm to a depth of 1.5 cm, with soil temperature to a depth of 10 cm - 8 ° C and soil moisture 60% of the total moisture content.

The first seedlings of flax (the appearance of semilinear leaves) were recorded on April 29, and mass seedlings were on May 3, 1990. At the stage of the complete appearance of seedlings on 3 May 1990, flax was treated with a zinc sulfate solution.

Zinc sulfate was dissolved in hot water at a temperature of 25-30 ° С, a weighed portion of salt in the amount of 1.92 g was added to 0.5 L of water. This corresponds to 0.38% concentration of an aqueous ZnSO / i solution. This amount of zinc sulfate is taken from the calculation of its use of 1 kg per 1 ha of crops.

After dissolution of zinc sulfate in water, it was poured into a container of a PO brand knapsack sprayer and uniformly applied to seedlings of flax by spraying.

As the flax plants grew and developed, phenological observations and counts of seedlings and preserved plants were carried out. The incidence of flax plants by calcium chlorosis was determined during the budding phase - blooms in the period of June 15-18 (this is, as a rule, the period of maximum damage to flax plants by the disease).

In the phase of early yellow ripeness, on July 26-28, 1990, flax pulping was carried out, threshing was carried out on August 14, 1990.

According to the standard method VNI1 / Ш Methodological guidelines for conducting field experiments with flax flax. Torzhok. - 1978. - 72 p. yields of straw, seeds and fiber were determined.

The results of the experiment are summarized in the table. Examples 2-6 are performed similarly to the first one, they differ in the amount of reagent introduced and the time period for its application. The data for all examples are summarized in the table.

0 Example. Made in terms of the prototype,

PRI me R 8. Performed with the transcendental values of the proposed parameter - the time of application of the reagent - in the herringbone phase 5 at a height of flax plants 7 cm

The amount of zinc sulfate taken for treatment of plants was selected from this calculation: if zinc sulfate is taken less than in the claimed method (0.9 - 1.1), the incidence of flax plants with calcium chlorosis increases, which leads to a decrease in the yield of flax products.

If the amount of zinc sulfate is greater (0.9 - 1.1), the result of the incidence of races

0

the tendency of flax with calcium chlorosis is the same as

and in the claimed method, the results on the yield of flax products are the same, with an excess reagent consumption. The treatment of plants is carried out in a later period than that declared in the phase of Christmas trees, at a plant height of 7 cm, the vegetation period is extended by 7–9 days (flax cultivation was carried out on August 5, 1990). At the same time, the incidence of plants by calcium chlorosis increases (in Example 8, 54.8%), which contributes to a deterioration in the quality of fiber.

As a result of the analysis of the table data

it is seen that compared to. prototype in

The proposed method does not show an increase in the yield of straw, seeds and fiber and a decrease in the incidence of flax plants with calcium chlorosis, which is the 5 main advantage of the claimed method. In comparison with the prototype, it creates favorable conditions for the image. processing flax plants with a reagent by extending the treatment period by 5-8 days and protecting the environment by 4 times reducing the amount of zinc sulfate introduced into the plants, which then enters and accumulates in the soil.

5 The treatment of flax plants with zinc sulfate can be combined with the treatment of plants with appropriate insecticides against flax flea, the treatment can be carried out at the same time using a mixture of zinc sulfate and insecticide.

Compared with the prototype, the proposed method also provides savings (4 p.) Used for the treatment of zinc sulfate.

Claims (1)

SUMMARY OF THE INVENTION A method for controlling calcium chlorosis of flax plants, according to which flax plants at a height of 3-4 cm are sprayed with an aqueous solution of zinc sulfate, which requires that, in order to create favorable conditions for growing and preserving the environment, zinc sulfate is treated in the period from germination to plant height 3 - 4 cm at a flow rate of 0.9 - 1.1 kg / ha.