RU2492627C1 - Method of forest belt regeneration following fire - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method includes sowing seeds, fruits or seedlings. A mixture of nanopowder of charcoal and soil from fire refugium is prepared at a ratio of 1:10. This mixture is brought to a creamy-consistency suspension, which is used for treating seeds, fruits or seedlings prior to planting.

EFFECT: method enables to provide 100% germination of seeds, fruits and survival ability of seedlings in the territory after the catastrophic forest fires, as well as to reproduce the forest and complete forest ecological environment with improved performance in terms of species composition, the value of timber and non-timber forest products.

Description

The invention relates to the field of forestry, and more specifically to the field of forest crops for reproduction of forests after catastrophic forest fires.

The invention can be used in any region of forestry, since the areas affected by catastrophic forest fires remain devastated for tens and hundreds of years. This is because the entire litter, mycorrhizal fungal component of the soil and seeds burn out. Without the mycorrhizal fungal component of the soil, forest tree seeds do not germinate well.

The proposed method is advisable to use in light forests with arid soil and climatic conditions, where there is no or extremely weak natural forest reproduction after catastrophic forest fires. Practically all world deserts and semi-deserts formed in the past arid regions after burning forests for arable land and other farmland are a convincing graphic example or proof. At present, it is extremely difficult to create artificial forests in these territories due to the disappearance of the mycorrhizal fungal component of the soil from these territories.

It is known that forest reproduction, for example, after clear-cutting, is carried out by sowing seeds, fruits, or planting seedlings and no problems of their germination and survival occur because the necessary biological and soil components are preserved in such areas: humus, seeds, mycorrhizal fungal soil component, those. hundreds and thousands of species of soil fungi, forming symbiosis (mycorrhiza) with the roots of woody plants. [1-3]

The disadvantage of all known methods is that in catastrophic terrestrial forest fires, along with trees, shrubs, all litter, seeds, mycorrhizal fungal component of the soil burns down, i.e. spores of hundreds and thousands of species of soil fungi, partially humus. Therefore, forest management in a known manner fails or is difficult, the seeds and fruits do not germinate well, seedlings do not take root, and those who have taken root “sit”, that is, grow poorly due to the lack of mycorrhizal fungal component of the soil.

It is also known that the introduction of manure, mineral fertilizers, etc. to solve this problem also does not have a positive effect. On the contrary, forest crops in such an environment are depressed and do not pay back the costs.

The closest in technical essence is the well-known method of sowing seeds, fruits or planting seedlings without any additional treatments. [4, 5]

The disadvantage of this method of planting a forest is that it does not give a positive result when the mycorrhizal fungal component of the soil dies after catastrophic forest fires, which results in a sharp decrease in seed germination, fruit and seedling survival rate. Therefore, the territories after catastrophic forest fires remain devastated for tens and hundreds of years.

Other disadvantages of this method is that without the mycorrhizal fungal component of the soil, the nutrition and water availability of woody plants in the territories after forest fires sharply worsens.

The present invention is the reproduction of forests in the area after catastrophic forest fires.

The technical result is associated with the return of the burnt mycorrhizal fungal component of the soil, so that the sown seeds, fruits or planted seedlings take root and grow successfully.

The inventive method is not known from the prior art, i.e. is new.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention.

The essence of the method for recovering a forest belt after fires involves sowing seeds, fruits or seedlings, and a mixture of charcoal nanopowders and soil is prepared from fire refugium in a ratio of 1:10, adjusted to a cream-forming suspension, which is used to treat seeds, fruits or seedlings before planting.

This creates nanopowders from charcoal by grinding it. Charcoal is harvested in the same burnt area. Then the soil is harvested from fire refugia, i.e. in the territory where there was no fire and the mycorrhizal fungal component of the soil was preserved. Charcoal nanopowders and soil in a ratio of 1:10 are thoroughly mixed and soaked until a creamy consistency is formed. This carbon-soil mixture is used to treat seeds, fruits and (or) roots of seedlings before sowing or planting, which ensures the delivery of spores of mushrooms and initial nutrition for them (carbon) to the required depth of sowing and planting.

Water and mineral nutrition elements enter the plants through the tubular network of hyphae of soil fungi: nitrogen, phosphorus, potassium, microelements, and fungi as heterotrophic organisms extract carbon (sugar) from plant cells as a building and energy material for the further development of fungi, their tubular network, dispute etc. Such a mutually beneficial relationship (symbiosis) - mycorrhiza is characteristic of more than 90% of woody plants.

Such work on assembly and adhesion is carried out directly on the burns before sowing seeds, fruits or planting seedlings, which ensures 100% germination of seeds, fruits and the survival of seedlings. This is achieved by direct contact (adhesion) of the spores of fungi with seeds, fruits, or active roots of seedlings. Thus, the assembly and "inclusion in the work" of the biological and soil nanosystem are ensured. This nanosystem subsequently operates continuously until the next catastrophic forest fire. The role of coal nanopowders is to provide a "commissioning mechanism" of the nanosized mixture. Since it is known that the first living organisms in the territory after catastrophic forest fires are pyrogenic mushrooms on charred wood, feeding on the most accessible carbon. These natural nanomaterials: fungal spores and charcoal actively interact in the forest, but a catastrophic forest fire destroys this connection, spatially isolating them from each other. The purpose of our invention is to bring them together again, to collect and put into operation the natural biological and soil nanosystem - so that the burns are not empty for tens and hundreds of years, but accelerated reproduction of the forest is ensured.

An example of a specific implementation. A method of assembling a biological soil mixture for forest reproduction in the area after catastrophic forest fires consists of charcoal nanopowder, which is prepared on the basis of charcoal collected directly on the burned area of the forest by grinding it. The second component of the nanomix is soil containing spores of the mycorrhizal fungal component from a nearby fire refugium, which is also crushed. Then both components are mixed in a ratio of 1: 7-10 depending on the content of humus (Plots in poor soils, 10 parts in rich soils). After assembly, by thoroughly mixing the biological and soil nanomixes, they are soaked with water, the resulting suspension is brought to a creamy consistency. The resulting suspension is repeatedly mixed before processing the seeds, fruits or seedlings prepared for planting. In this way (method), along with seeds, fruits or seedlings, when sowing and planting to the required depth, a biological-soil mixture is introduced, ensuring their 100% germination and survival. No fertilizers or other chemicals are required. The territory is kept in an ecologically clean state.

The proposed method for assembling a biological-soil nanosystem for forest reproduction in the area after catastrophic forest fires, in comparison with the best analogues of forest crops, allows for 100% germination of seeds, fruits and survival of seedlings in the territory after catastrophic forest fires. The method also allows you to reproduce the forest and the full forest ecological environment with the same or improved indicators in terms of species composition, value of wood and non-timber forest products. As a result, it becomes possible to increase forest areas. Tests of the proposed method showed that 100% germination of seeds, fruits or the survival of seedlings, ensuring the reproduction of forests, solve the problem of deforestation due to fires.

The developed method of forest reproduction is envisaged to be implemented annually using Student Forestry at Dagestan State University. We are going to gradually reproduce the forest on burned areas, more than 400 trees have already been introduced, on an area of about 1 ha.

Claims (1)

A method of recovering a forest belt after fires, including sowing seeds, fruits or seedlings, characterized in that a mixture of charcoal nanopowders and soil is prepared from fire refugium in a ratio of 1:10, adjusted to a creamy suspension, which is used to treat seeds, fruits or seedlings before planting.