RU2823526C1 - Soil from compost with acid reaction - Google Patents

Abstract

FIELD: agriculture; biotechnology; ecology.

SUBSTANCE: invention can be used to produce soil from composts based on organic wastes. Soil from compost with acid reaction contains compost, peat and sand. Compost having pH 5±0.5, is obtained by composting under a membrane cloth in a climatic chamber of coniferous wastes and food wastes of plant origin, wherein the produced compost contains up to 60% of humus organic substance with fraction of up to 0.3 cm and 40% of fine fraction of wood chips and coniferous needles of 0.3–2 cm. Ratio of soil components, wt.%: compost – 70, sand – 15, moor peat, pH 3–5 – 15.

EFFECT: obtaining specialized soil for berry nurseries, decorative floriculture and reforestation of coniferous trees, which has shown its effectiveness in growing acidophilous plants.

1 cl, 2 tbl

Description

The invention relates to agricultural biotechnology and ecology and can be used to obtain soils from composts based on organic waste.

Most methods aimed at obtaining substrates (soils) that have an acidic reaction focus on the use of acidic high-moor peat, the introduction of sulfur-containing additives, and the use of mixtures of pine and spruce needles or sawdust from coniferous trees. The peculiarity of these substrates is the ability to stably maintain an acidic reaction; they have a loose structure, which ensures effective humidity conditions and air exchange. Such substrates are used for growing acidophilic plants. These are various conifers, berries - blueberries, lingonberries and others, ornamental plants - rhododendrons, azaleas, ferns. For a plant such as blueberry, the presence of an acidic, loose substrate is important, since it develops and is provided with nutrition in symbiosis with fungal mycorrhiza, which is formed precisely in such substrates. Most often, a mixture of litter of pine needles with the soil underneath, collected in nature, is used, but this resource is limited, so it is usually used as an additive, and the base is acidic high-moor peat. At the same time, there is a regular source of coniferous tree waste - thinning in forestry areas, forest cutting for wood production, coniferous trees after the New Year holidays. Such waste can be used for processing (fermentation) to produce composts. Composting a mixture of coniferous waste and food waste under a membrane sheet in climatic chambers allows, over a period of two and a half months, to obtain compost in which the food fraction is humified, accumulating nutritional macro- and microelements, and sawdust, wood chips and pine needles undergo fermentation, similar to their long-term presence as litter on the soil under natural conditions.

There is a known method for producing sawdust-soil substrate to optimize soil fertility (RF patent No. 2681572), which contains pure pine sawdust and the top fertile layer of forest soil, mixed in a ratio of 50:50, a fertilizer composition based on diammofoska, or ammonium nitrate, or ammonium sulfate and mycocompost, which is a product of bioconversion of sawdust by the wood-destroying fungus Trametes versicolor at a given ratio of components.

The disadvantage of this method is that the sawdust-soil mixture is prepared using the top fertile layer of forest soil, and this is a limited resource, and the process of making mycocompost is also lengthy.

There is a known method for preparing a peat nutrient mixture (RF patent application No. 2002106256), containing peat (75.0-85.0%), mineral components and microelements and characterized in that it additionally contains sand (8.0-25.0% ), as mineral components it contains limestone and/or dolomite flour, simple or double superphosphate, ammonium nitrate, potassium sulfate, magnesium sulfate, as microelements it contains copper sulfate, zinc sulfate, iron citric ammonium, ammonium molybdic acid, borax or boric acid, manganese sulfate.

The disadvantage of this method is that it requires a large amount of chemicals, dosing into the volume of the mixture and uniform mixing.

There is a known method for preparing artificial soil (RF patent No. 2345518), which contains a water-absorbing spatial polymer in an amount of 0.5-1.0 wt. % and fractional composition 0.7-2.5 mm; biological insecticides and/or fungicides 0.001-0.01 wt. %. The artificial soil additionally contains sodium benzoate 0.1-1.0 wt. % as a preservative and ascorbic acid in an amount of 0.5-1.0 wt. % as an antioxidant. A natural porous mineral selected from the group: perlite and/or vermiculite and/or zeolite constitutes the remainder of the mixture.

The disadvantage of this method is that the mixture is a completely artificial substrate; there are no natural processes when using it.

The objective of the present invention is to create a soil based on composted organic waste for plants growing in acidified soils.

The technical result of the invention is to obtain, based on compost having a pH of 5±0.5, a specialized soil for berry nurseries, decorative floriculture and reforestation of coniferous trees.

The stated task and the specified technical result are achieved due to the fact that in the soil from compost with an acidic reaction containing compost, peat and sand, according to the invention, compost having a pH of 5±0.5 is obtained by composting under a membrane sheet in a climatic chamber of coniferous waste and food waste of plant origin, while the resulting compost contains up to 60% humified organic matter with a fraction of up to 0.3 cm and 40% of a fine fraction of wood chips and pine needles of 0.3-2 cm, with the following ratio of components, wt. %: compost - 70, sand - 15, high acidic peat, pH 3-5 - 15.

Compost is a loose, earthy-smelling product that contains at least 0.5% nitrogen, 0.3% phosphorus, 0.2% potassium and up to 60% organic matter.

The mineral component is sand, a mixture of fine fractions - 0.7-1 mm to medium - 2-2.5 mm. Optimally, it is of river origin, but others produced industrially can also be used.

High peat is acidic, pH 3-5.

Advantages of the declared soil: The compost used in the soil is produced using domestic technology under a membrane sheet; in its preparation, coniferous waste and food waste of plant origin are used, thereby ensuring the return of organic matter and microelements into geochemical circulation. The difference from natural processes in the natural environment is the faster transformation of waste during composting into a fertile substrate that retains the main characteristics characteristic of acidified soils.

Acidified soil is used for planting and cultivating coniferous trees and shrubs, forest berries (blueberries, lingonberries, as well as medicinal blueberries and cranberries), azaleas, rhododendrons, and ferns. Provides optimal mechanical composition of the soil. The soil contains at least 60% organic matter, which has an acidified reaction, pH 5±0.5, which provides long-term, prolonged action for grown plants. The presence of up to 40% of the fine fraction of wood chips and pine needles ensures prolonged acidification of the soil and ensures the formation of a mulch layer on the surface, which, in combination with the acidic reaction, prevents the growth of weeds. The increased organic matter content ensures good water-holding capacity of the soil, reducing the need for watering. The coniferous component (needles and bark) makes the soil more loose and structural, the granulometric composition of the soil is light and structural, improving air permeability and moisture holding capacity. The increased content of organic matter and the mulching effect on the surface maintains a stable temperature in the soil, compensating for temperature changes day/night, as well as during sudden changes in weather conditions.

The humified fraction of compost contains macro- and microelements, which provide plant nutrition for a long period without the need to use chemical fertilizers. Obtaining soil.

1. Compost is used, in the preparation of which coniferous waste and food waste of plant origin are composted under a membrane sheet in climatic chambers for 2 months and ripening for one month. As a result, humification of the organic part of food waste occurs. The material is screened using a screen. The under-sieve fraction separated on a screen sieve with a mesh size of 10-20 mm is compost, which consists of up to 60% humified organic matter with a fraction of up to 0.3 cm and 40% of a fine fraction of wood chips and pine needles of 0.3-2 cm.

3. Mineral component - sand, a mixture of fine fractions - 0.7-1 mm to medium - 2-2.5 mm. Optimally of river origin, but others obtained as waste during the extraction of construction materials and/or during organized mining can also be used.

4. High peat is acidic, pH 3-5.

5. Mixing is carried out in a soil mixing plant or similar commercially produced equipment that ensures effective mixing of the components. The ratio of soil components is: compost 70 wt. %, sand 15 wt. %, high-moor peat - acidic 15%, dosing is carried out from loading bins.

To improve the quality of the soil, separation is carried out through a drum sieve (screen), which ensures better mixing.

The finished soil is shipped in bulk to dump trucks or packaged in plastic packaging with perforations for air exchange.

Example 1.

We tested it on watercress seedlings. Watercress is a recognized crop for biotesting (Fomin G.S., Fomin A.G. Soil. Quality control and environmental safety according to international standards: Handbook. M.: Protector, 2001. 304 p.) At the same time, watercress is good grows on a wide variety of soils (Soldatenko A.V., Ivanova M.I., Bondareva L.L., Tareeva M.M. Cabbage green vegetables / M.: Publishing house of the Federal State Budgetary Scientific Institution FNTSO, 2022. p. 58.).

We tested the resulting soil with an acidic reaction; for comparison, we used soil based on biocompost “Uncle Humus”, produced by Grunt Eco LLC (Composition: compost “Uncle Humus” mixed with peat, contains potassium K ₂ O (2-3%), Phosphorus P ₂ O ₅ (1-2%), pH (6.5-8%), Nitrogen N (2-3%), Humus (1-2%)), and control - gray forest soil, each option was tested in three replicates of 30 watercress seeds each. As a result of testing, the length of the shoots was determined on the 5th day after germination, and their statistical processing was carried out (Table 1).

The results show the absence of phytotoxicity for all substrate options; there is an increase in the indicator relative to the control gray forest soil.

Example 2.

We planted Polaris blueberries, the first year of growing seedlings. Seedlings of the same height 17±0.5 cm were sorted, 5 pieces each.

The peat substrate was prepared according to literary sources in the following composition: high-moor peat was mixed with spruce litter in a 1:1 ratio, 20% sand was added, mixed thoroughly, moistened to 70% of the full field moisture capacity. The pH of the salt suspension is 4.5.

As a result of testing, the length of the shoots after germination was determined and their statistical processing was carried out (Table 2).

The proposed soil made from acidic compost has shown its effectiveness in growing acidophilic plants.

Claims (2)

Soil from compost with an acidic reaction, containing compost, peat and sand, characterized in that the compost having a pH of 5±0.5 is obtained by composting under a membrane sheet in a climatic chamber of coniferous waste and food waste of plant origin, and the resulting compost contains up to 60% of humified organic matter with a fraction of up to 0.3 cm and 40% of a small fraction of wood chips and pine needles of 0.3-2 cm with the following ratio of components, wt.%: compost 70 sand 15 high-moor peat, acidic, pH 3-5 15