CS255088B1 - Method of desifection of soil and soil substrate - Google Patents

Abstract

The solution relates to a method of disinfection soil and soil substrate. Its essence It is that this disinfection takes place with sodium allyl isothiocyanate; potassium, respectively. preparations for them basis.

Description

The invention also relates to a method of disinfecting soil and soil substrate, in particular in the preparation of soil in forest nurseries and in the preparation of soil substrate based on peat and ground tree bark.

Various methods of soil disinfection have been reported in the literature. Generally, the most widespread, though costly, is steaming the substrate and heating it to temperatures close to 100 ° C. Other methods are chemical using imported formulations of KS, such as Basamide (granulate) or Ditrapex (liquid). The steaming of the soil substrate is associated with high investment costs for the construction of the steaming units and at the same time a very high consumption of light fuel oils as a source of thermal energy. In addition, this technology is only applicable to substrate preparation and cannot be applied to direct soil disinfection. The cost of seedlings is also affected by high acquisition costs. Chemical treatment with Basamid or Ditrapex is costly because both products are imported from KS. In addition, it is necessary to use special dispensers in Czechoslovakia hardly accessible.

The above-mentioned disadvantages are eliminated by the method of disinfecting the soil and the soil substrate according to the invention, which consists in using sodium or potassium allyl isothiocyanate, respectively. preparations based thereon, such as Allyspol EC 75, in an amount of 0.3 to 1.1 kg of allyl isothiocyanate per 10 m ^J in the preparation of soil substrate, peat, crushed bark and the like, or in an amount of 60 to 420 kg of allylisothiocyanate per hectare in preparation soil areas, for example in forest nurseries.

Allyl isothiocyanate and its preparations have a high herbicidal effect and destroy the vast majority of weed seeds. They are also highly effective fumigants. The indisputable advantage of the method according to the invention is also the elimination of investment costs for the construction of steaming stations and also the saving of fuel oils.

Example 1

The soil substrate was piled up to 0.5 to 3 m and disinfected with Allyspol EC 75 (with a minimum allyl isothiocyanate content of 66% by weight), such as puncture injections with a metering pump at a distance of 0.25 to 0.75 m. squares so that the treated mass contained 0.5 to 1.5 l of preparation per 10 m. After application, the laminate was covered with a black polyethylene film for 14 to 35 days. Then the foil was removed, the mass was mixed thoroughly and after a further 14 days a watercress test was performed. It was positive, so it was possible to use the treated mass for given purposes. The principle of the cress test is to compare the germination of cress seeds, which are very sensitive to soil composition, in treated soil with the germination of those seeds in soil of the same composition but untreated under the same conditions. The test is positive if the number of emerging plants is the same.

Example 2

Procedure as in Example 1, except that the layered mass is surface-sprayed with allyl isothiocyanate in an amount of 1 kg per 10 masses.

Example 3

When storing the soil substrate, 0.5 to 1.5 liters of Allyspol EC 75 (with a minimum content of 66% by weight of allyl isothiocyanate) were continuously dosed per 10% by weight. After laminating, the mass is covered with a black polyethylene film and the procedure is as in Example 1,

Example 4

The handling frame with prepared disinfectant solution and dosing pump were attached to the plow supporting frame. The dosing nozzles were attached to the individual coulters and the pump control regulator was mounted in the driver's cab. During plowing, 100 to 600 liters of Allyspol EC 75 (with a minimum of 66% allyl isothiocyanate) per hectare were continuously metered. The application was carried out at temperatures above 0 ° C and on non-frozen soil. After 14 days it was possible to start sowing and planting after a positive result of the watercress test.

Example 5

Procedure as in Example 4 except that the disinfectant was dosed with a Fumitrac machine. In this case, a higher dosing accuracy was ensured, so the concentrate was worked to prevent possible corrosion. 240 kg of allyl isothiocyanate per hectare were dosed.

Claims (2)

Method of disinfection of soil and soil substrate characterized in that the soil is treated with sodium or potassium allylisothio cyanate or preparations based thereon in an amount of 0.3 to 1.1 kg 3 _from allyl isothiocyanate per 10 m in the preparation of soil substrate, peat or crushed bark, or in quantities of 60 to 420 kg of allyl isothiocyanate per hectare in the preparation of soil areas, such as forest nurseries.