SU957794A1 - Method of protecting plants against high frosts - Google Patents

Description

The invention relates to methods for protecting plants from severe frosts and can be used in agriculture.

A known method of protecting plants 5 from frost, including coating the plant and the entire interlobular space with foam from a water-containing composition with surfactants at -15-30 ° C [1]. 10

However, this method is characterized by insufficient effectiveness of plant protection at temperatures below 30 ° C.

The aim of the invention is to increase the efficiency of plant protection from severe frosts.

The goal is achieved in that the surface of the foam after freezing is irrigated with a water-containing composition with surfactants without foaming until a continuous ice film forms.

The method is carried out as follows.

In anticipation of a drop in temperature under steady-state winter conditions to temperatures hazardous to plants, for example fruit trees, to the plant protection area on a mobile chassis 30. With heat-insulated tank protection ₍ with a water composition containing surfactants, a foam generator (pump) is removed, for example a regular fire truck or irrigation systems adapted to winter conditions with foaming nozzles.The foam generator (pump) picks up the aqueous solution, foams it and throws it in the form of foam onto the plant; due to the low atmospheric temperature in the spongy state, the foam freezes. Gradually, in several passes around the trunk, the plant completely freezes into a foam volume in the form of a pupa. Moreover, foam freezing is possible not only on the branch of the plant, but also on the stem and ground root systems After the plant has been completely frozen into the foamy volume, the same solution is gradually irrigated with spray guns from top to bottom and around it with several passages to gradually irrigate the surface of the foam on which a continuous ice film freezes and gradually forms.

Thus, the plant finds itself in a reliable, light, spongy shelter, of foam having high heat and heat-shielding properties both from lowering the temperature and from the wind, and the foam itself is exposed to an ice protective film, which prevents freezing and weathering of the water composition from the foam, providing vaya its long life. In such a shelter, the plant hibernates without damage until the first spring thaws, when the shelter melts and the water composition goes into flood waters. If necessary, | Q it is necessary to artificially remove this protective device, it is enough to partially destroy the ice sheet, which causes freezing and weathering of the water composition from the foam, and, consequently, the complete destruction of the entire shelter.

Example. Normal winter temperature conditions for the South Ural region of our country in January 20 var - 15-30 ° C, which does not threaten fruit trees. The weather service gives a warning about a drop in temperature to -50 - -56 ° C, which clearly threatens the freezing of the stem system of apple trees, and with insufficient snow cover, freezing of the root system as well. Existing fire engines or sprinklers adapted for these purposes fill the water with surfactants, for example, based on a mixture of alkyldimethylamine oxide (CC ^ ₈ ) with edalatin alkyl sulfate, bone glue and technical blood, which can form a stable foam in the amount of 1: 250. At ⁵³ atmospheric temperatures of -15 --30 ° C, a foam of water composition is fed onto the stem system of the apple tree and frozen in the interlobular space until the plant pupates, and, if necessary, its entire trunk and to the earthly part above its root system ι my. Then, with the same solution, without foaming, the surface of the foam is irrigated and an ice film is frozen over its entire surface.

When the temperature is subsequently lowered to -50 - -56 ° C, the frozen foam composition protected by an ice jacket, possessing high heat-insulating properties, prevents the stem system of the plant from freezing to dangerous negative temperatures, and also protects its trunk and root system for tens of hours or days. Periodically, such frosts are short-lived. Further wintering of plants treated in this way continues until the first spring thaws, which appear in early March, when the frozen foamy water composition and ice film melt and flow from the plant to the snow cover.

Claims (1)

both with a decrease in temperature and wind, and the foam itself is under the ice protective film, which prevents freezing and weathering of the water composition from the foam, ensuring its long life. In such a shelter, the plant winters without any damage until the first spring thaws, when the shelter is melted and the water composition goes to flood waters. When not specified. To artificially remove this protective device, it suffices to make a partial destruction of the ice film, which causes freezing and winding of the water composition from the foam, and consequently, the complete destruction of the entire shelter. Example. Normal winter temperature conditions for the South Ural region of our country in Nvar are 15–30 ° C, which does not threaten fruit trees. The weather service gives a warning of a temperature drop of –5 ° C, which is clearly threatened by freezing of the stem sietema blon, and at insufficient snow cover - freezing and root. howl system. Fire trucks or adapted irrigation machines available in households are water-based with surfactants, for example, based on a mixture of alkyldimethylamine oxide () with edalatin alkyl sulfate, bone glue and technical blood, capable of forming a stable foam in a volume of 1 : 250. At an atmospheric temperature of -153 O from the foam of the aqueous composition, the blond system is fed to the stem system and frozen in the intestinal space until the plant is fully pupated, and if necessary, its entire trunk and ground part above its root system. Then, with the same solution, without foaming, they irrigate the surface of the foam and freeze the ice film over its entire surface. With a subsequent decrease in temperature to -50 - -56 ° C, the frozen froth composition, protected by an ice jacket, has high thermal insulation properties, prevents the plant stem system from freezing to dangerous negative temperatures, and also protects its trunk and root system for ten hours or days. Periods of such frosts are non-durable. The further wintering of plants treated in this way continues until the first spring thaws, which are in early March, when frothed frothy water and ice melt onto the film and drain from the plant to the snow cover. Claims method for protecting plants from severe frosts, including covering the plant and the entire interweave space with foam from an aqueous composition with surfactants at a temperature of -15 -, characterized in that, in order to increase efficiency, the entire surface of the foam after freezing is crushed with an aqueous composition with surfactants without foaming to form a continuous ice film. Sources of information taken into account in the examination 1. US patent 3669898, cl. A 01 G 13/00, 1972.