RU2620829C1 - Method for reclaiming degraded lands in permafrost zone - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for reclaiming degraded lands in the permafrost zone consists in processing and forming a soil layer with the subsequent fertilization and sowing the grass mixture of a special species composition based on local wild herbs on the topsoil. As a fertiliser, an organic-mineral fertiliser based on fermented food waste is used, in the production of which the microbiological preparations are applied, the strains species composition of which is set for the maximum coverage of substrates that make up the food waste, and natural inhabitants of the soils to be reclaimed. The organic-mineral fertiliser is introduced in the soil in an amount of 20÷25 wt % in terms of the dry substance of the fertile layer to be produced.

EFFECT: invention provides the maximum gain of herb mass for all soils in the permafrost zone in one growing season, simplifying the method of reclamation.

6 cl, 4 tbl

Description

The invention relates to agriculture and can be used in the field of ecology for land reclamation in the permafrost zone when developing new hydrocarbon deposits, laying pipelines, building underground gas storages.

One of the main stages in restoring the ecological balance after the completion of the construction of gas production, transportation and storage facilities is land reclamation.

The biological stage of land reclamation is aimed at intensive restoration of the fertility of the destroyed lands with the help of a system of agricultural and land reclamation measures.

In the permafrost zone, even additional fertilizer application does not always allow restoration of the vegetation cover. This leads to the development of various erosion processes.

Quick (during one vegetative period) restoration of the vegetative-sod cover is an urgent task.

The way to solve this problem is to introduce effective organomineral compositions and optimal compositions of mixtures of perennial herbs adapted to the natural conditions of disturbed territories.

A known method of land reclamation in the permafrost zone, including preliminary harrowing of the soil layer, the introduction of complex grass mixtures into the soil, consisting of three groups of 30 plant species (RF patent No. 2101901, class AB 79/02, 1998).

The disadvantages of this analogue method are the large material costs associated with the use for land reclamation of complex mixtures of plant species that are undemanding to the content of nutrients in the soil. Many of the 30 plants used in the analogue in herb mixtures are rare.

The closest analogue to the proposed method is a method of reclamation of destroyed lands in the permafrost zone, which consists in processing and forming the soil layer with subsequent fertilizing and sowing grass mixtures of local wild grasses on the soil layer (RF patent No. 2286036, class A01B 79/02, 2006 )

The disadvantages of this method are the use as a mixture of seeds of local fodder cereals of rare herbs, harvesting grass mixtures for 10-15 years, as well as fertilizing with mineral fertilizers once every 2-3 years, which leads to difficulties in implementing the method, delaying the timing of restoration and the cost of its implementation, as well as to a slight increase in the mass of herbs on various soils in the permafrost zone.

The task to which the invention is directed is the development of a simple and cheap method for the restoration of destroyed lands in the permafrost zone.

The technical result achieved by the implementation of the invention is to obtain the maximum increase in grass mass for all soils in the permafrost zone during one vegetative period, as well as simplifying the method of reclamation.

The technical result of the invention is achieved due to the fact that in the method of reclamation of destroyed lands in the permafrost zone, which consists in processing and forming the soil layer with the subsequent application of fertilizer and sowing the grass mixture based on local wild grasses on the soil layer, as a grass mixture on the basis of local wild grasses use a mixture of herbs: red fescue - 49 ÷ 51 wt. %, pasture ryegrass - 34 ÷ 36 wt. %, meadow bluegrass - 9 ÷ 11 wt. %, sheep fescue - 4 ÷ 6 wt. %, organomineral fertilizer based on fermented food waste is used as fertilizer, in the manufacture of which microbiological preparations are used, the species composition of the strains of which is set according to the maximum coverage of the substrates that make up the food waste, and the natural inhabitants of the cultivated soil, and the organomineral fertilizer is introduced into the soil layer in an amount of 20 ÷ 25 wt. % in terms of dry matter from the created fertile layer.

Organomineral fertilizer is applied to the soil layer in the spring-summer period of the year to a depth of 10-20 cm, and then digging the soil layer is carried out.

Sowing grass mixtures is carried out after the beginning of the vegetation of native vegetation, after which the soil layer is watered and covered with covering material until emergence of plants.

As a covering material, a plastic film is used.

Organomineral fertilizer contains a mineral component in an amount of 5 ÷ 8 wt. % of the initial mass of food waste, consisting of calcium carbonate and medium loam with a physical clay content of at least 30 wt. %

Organomineral fertilizer is applied to the soil layer in an amount of 4 ÷ 6 kg / m ² in terms of dry matter.

The advantage of the proposed method is the use of organomineral fertilizer based on fermented food waste for the maximum increase in grass mass during the restoration of any soil in the permafrost zone, in the manufacture of which microbiological preparations are used, the species composition of the strains of which is set according to the maximum coverage of the substrates included in the food waste, and natural inhabitants of reclaimed soils, which contribute to the soil layer in an amount of 20 ÷ 25 wt. % in terms of dry matter from the created fertile layer.

The maximum effectiveness of organomineral fertilizer is achieved by individual selection of effective microorganisms with known beneficial properties. The species composition of the microbiological preparation was chosen based on the fact that the main microorganisms - destructors that provide the processing of municipal solid waste (MSW), are the natural inhabitants of waste and reclaimed soil.

When introducing organic fertilizer in the soil layer in an amount of 20 ÷ 25 wt. % in terms of dry matter from the created fertile layer there is a maximum increase in plant mass. An increase in the dose of organic fertilizer leads to drying and darkening of the ends of the leaves, which indicates the redundancy of nutrients, which leads to inhibition of the growth of green mass.

The recommended rate of organic fertilizer application (from 4 to 6 kg / m ² in terms of dry matter) allows you to create a fertile soil layer that meets the regulatory requirements for their suitability for biological reclamation, depending on the indicators of chemical and granulometric composition and engineering-geological characteristics according to GOST 17.5.1.03.7.6.

When using organic mineral fertilizer in the reclamation method, there is no need to additionally add mineral fertilizers to achieve the optimal level of nutrient content. The mineral component of the organic fertilizer gives a quick and visible effect, accelerating plant growth due to easy digestibility, and the organic component due to the prolonged action extends this effect up to three years.

The duration of the action of organomineral fertilizer with the obtained characteristics remains for several years. Thus, there is no need to fertilize the soil annually.

In addition, organic fertilizer is environmentally friendly and does not harm the soil.

The used composition of the grass mixture is resistant to the negative factors of the permafrost zone: frost resistance, moisture resistance, drought resistance, and is able to give the maximum increase in the green mass of herbs on such lands. The criterion for choosing herbs was also their responsiveness to organomineral fertilizer based on fermented food waste.

Red fescue - cereal, characterized by high winter hardiness, grows in permafrost and tolerates severe winters. In herbal mixtures, under favorable conditions, she owns the greatest competitive power, plasticity and resistance, starting from the second year of life. It grows well on drained and cultivated peaty and bog soils and is successfully used to create peat soils.

Pasture ryegrass is used as an auxiliary crop and is among the fast-growing cereals. Pasture ryegrass contributes to soil stabilization (erosion control).

Polebosnaya shoot-bearing (shoot-forming) is winter-hardy, but most of its shoots die off during the winter, are unpretentious, with a well-developed root system.

Meadowgrass meadow grows in conditions of COP, withstands prolonged flooding by meltwater. It is not demanding on temperature conditions, it perfectly withstands harsh winters and late frosts, is responsive to fertilizers.

The optimal content of selected herbs is: red fescue - 46 ÷ 48 wt. %, pasture ryegrass - 24 ÷ 26 wt. %, Polevosnaya shoot - 14 ÷ 15 wt. %, meadow bluegrass - 12 ÷ 14 wt. %

The introduction of these herbs in smaller quantities does not allow to obtain the maximum increase in the mass of herbs, and the introduction of a mixture of herbs in larger quantities does not improve the germination of herbs, while leading to an increase in the cost of the reclamation method.

The advantages of the proposed method are shown in an example that illustrates, but does not limit, the claimed method.

Example

The reclamation method is implemented as follows.

At the beginning of the reclamation of the destroyed lands of the Far North, land is cultivated, as a result of which a soil layer is formed.

Then, in the spring-summer period of the year after the start of vegetation of native vegetation, organic-mineral fertilizer is introduced into the soil layer, for example, in an amount of 24 wt. % in terms of dry matter from the created fertile layer, for example, normally 5 kg / m ² in terms of dry matter to a depth of 15 cm

As a fertilizer, organomineral fertilizer based on fermented food waste is used, in the manufacture of which microbiological preparations are used.

Organomineral fertilizer can be obtained as follows.

Microbiological preparations for organomineral fertilizer are selected. The species composition of the strains of the microbiological preparation is selected according to the maximum coverage of the substrates included in the composition of the used food waste, and the cultivated soil.

An approximate average fractional composition, average morphological composition and average composition of food waste used for the manufacture of such organic fertilizers are presented in tables 1-3. Table 1 shows the average fractional composition of food waste, Table 2 shows the average morphological composition of food waste, and Table 3 shows the average composition of food waste.

The selected microbiological preparation contains natural strains-destructors of organic waste, isolated from soil samples of the regions where it is planned to be directly used, and covering as much as possible the substrates that make up food waste.

An example of an effective microbiological formulation used is shown in Table 4.

The microbiological preparation contains living cells and spores of non-pathogenic strains of natural bacteria belonging to different families and genera, which have an enhanced and accelerated ability to biodegradation of plant and animal waste, destruction of uric acid and utilization of ammonia, ligno and cellulolytic activities, and the ability to suppress pathogenic microorganisms due to the synthesis of antibiotic and other biologically active substances, as well as agronomically valuable bacteria (nitrogen fixing x, fosfatrazlagayuschih producing growth substances).

The mass of food waste planned for fermentation, take 87.15 wt. % of the planned mass of the substrate.

Grind food waste. Add a mineral component, which is used as calcium carbonate and medium loam with a physical clay content of at least 30 wt. %, for example 20 wt. % The mineral component of the organic fertilizer is taken in the amount of 6 wt. % of the initial mass of food waste. The mineral component contributes to the structuring of the substrate and the process of solid waste fermentation. The mineral component is added in an amount of 7.5% by weight of the substrate.

A microbiological preparation is diluted with water - at the rate of 2.85% by weight of the substrate.

The dose of the microbiological preparation is calculated - at the rate of 35 g per 1 ton of substrate.

They carry out the unloading of food waste and the formation of a stack, irrigate the substrate with a calculated dose of a microbiological preparation and cover it with a plastic film. The substrate can withstand 14 days. Transfer to the aerobic stage is carried out by removing the plastic film and tedding the stack. To resume the activity of aerobic bacteria, after the transition to the aerobic stage, re-treatment with a microbiological preparation is carried out.

In the manufacture of organic fertilizers, pH, humidity and temperature are controlled. Stirring of the substrate is carried out every 14 days. When the temperature rises above + 50 ° C or with a sharp decrease in pH below 5.5, the substrate is additionally mixed. If the temperature does not rise above + 50 ° C, the exposure time is extended by measuring the temperature every three days.

The manufacturing mode of organic fertilizer is periodic. Mixing provides an increase in the gas permeability of the substrate by 1.2-1.5 times. The minimum composting period for chopped food waste is 10 weeks.

Mature compost should have a pH in the range close to neutral or alkalized pH values, and have a brown or brownish-red color, a loose structure and have flowability.

After introducing organic fertilizer into the soil layer, they dig and sow the selected mixture of perennial herbs, containing, for example, red fescue - 47 wt. %, pasture ryegrass - 26 wt. %, Polevoshnaya shoot - 14 wt. %, meadow bluegrass - 13 wt. %

Then, the soil layer is irrigated and the soil layer is covered with a covering material - polyethylene, before plant emergence.

The restoration of the vegetation-sod cover of the disturbed lands of the Far North is carried out during one vegetative period.

The use for the implementation of the method of reclamation of disturbed land mixtures based on local wild grasses (red fescue, pasture ryegrass, shoot woodgrass, meadow bluegrass) in a certain ratio, and as a fertilizer - organic fertilizer based on fermented food waste, in the manufacture of which microbiological preparations are used, the species composition of the strains which are set by the maximum coverage of the substrates included in the composition of food waste, and the natural inhabitants of the reclaimed soil, which is introduced into the soil layer in an amount of 20-25 wt. % in terms of dry matter from the created fertile layer, provides the maximum increase in grass mass for all soils in the permafrost zone during one vegetative period. This reclamation method is simple, because the duration of the action of organomineral fertilizer with the obtained characteristics remains for several years, while eliminating the need to fertilize the soil annually.

Thus, the invention allows to create a simple and cheap way of reclamation of destroyed lands in the permafrost zone.

Claims (6)

1. The method of reclamation of destroyed lands in the permafrost zone, which consists in processing and forming the soil layer with the subsequent application of fertilizer and sowing grass mixtures based on local wild grasses on the soil layer, characterized in that a mixture of herbs is used as grass mixtures based on local wild herbs: red fescue - 46 ÷ 48 wt. %, pasture ryegrass - 24 ÷ 26 wt. %, Polevosnaya shoot - 14 ÷ 15 wt. %, meadow bluegrass - 12 ÷ 14 wt. %, organomineral fertilizer based on fermented food waste is used as fertilizer, in the manufacture of which microbiological preparations are used, the species composition of the strains of which is set according to the maximum coverage of the substrates that make up the food waste, and the natural inhabitants of the cultivated soil, and the organomineral fertilizer is introduced into the soil layer in an amount of 20 ÷ 25 wt. % in terms of dry matter from the created fertile layer. 2. The method according to p. 1, characterized in that the organomineral fertilizer is applied to the soil layer in the spring-summer period of the year to a depth of 10-20 cm, and then digging the soil layer is carried out. 3. The method according to p. 2, characterized in that the sowing of the grass mixtures is carried out after the beginning of the vegetation of the native vegetation, after which the soil layer is watered and covered with covering material until emergence of the plants. 4. The method according to p. 3, characterized in that as a covering material using a plastic film. 5. The method according to p. 1, characterized in that the organomineral fertilizer contains a mineral component in an amount of 5 ÷ 8 wt. % of the initial mass of food waste, consisting of calcium carbonate and medium loam with a physical clay content of at least 30 wt. % 6. The method according to p. 1 or 5, characterized in that the organic fertilizer is applied to the soil layer in an amount of 4 ÷ 6 kg / m ² in terms of dry matter.