RU2557618C2 - Method of reclamation of sandy soil in semi-desert zone and nutrient water-accumulating composition for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture and forestry, in particular to the field of reclamation of sandy soils in the semi-desert zone, and can be used to improve water-air and nutrient regimes of the root layer of sandy soils. The method of reclamation of sandy soils in the semi-desert zone comprises creation in a plough horizon of bioproductive layer by application of modifying additive into the soil, which is used as nutrient water-accumulating composition in the form of an aqueous mixture of the composition, wt %: water-accumulating sorbent - 5-30; organo-mineral nutrient filler - 10-40; water - the rest. The water-accumulating sorbent is used as either/and straw, and/or cereal peeling waste, and/or sawdust, and/or chips, and/or peat subjected to mechanical activation. The organo-mineral nutrient filler is used as either/and humus, and/or peat, and/or biocompost, and/or sapropel, and/or clay, if necessary, balanced in content with NPK fertilizers and micronutrients, and in the content of soluble humic substances with potassium and/or sodium humate.

EFFECT: method provides growing the vegetation on sandy soils in the semi-desert zone for sand fixation.

8 cl, 1 tbl

Description

The invention relates to the field of agriculture and forestry, in particular to the field of reclamation of sandy soils in the semi-desert zone, and can be used to improve the water-air and nutritional conditions of the root layer of sandy soils.

The features of the restoration of sandy soils in the desert and semi-desert zones in mountainous areas, for example, in the southern regions of the Altai Republic, western Mongolia, are due to the low average annual rainfall, a small thickness (10-20 cm) of the sandy soil layer, which is located on the basis of large stones, intensive wind erosion. These features preclude the use of traditional tillage methods, as their application leads to rapid thinning of the soil layer due to increased wind and water erosion, when water carries the soil between large foundation stones to deeper horizons. The development of these processes, ultimately, leads to irreversible degradation of the soil.

Known methods for the restoration of sandy soils are reduced mainly to the creation of a bioproductive layer in the arable horizon by introducing various modifying additives into the soil.

A known method of increasing the fertility of sandy soils, described in patent RU 2265980, publ. December 20, 2005, in which clay is plowed in a dose of 25-50 t / ha to increase the fertility of sandy soils. This method increases the content of physical clay in the soil, but is ineffective for improving soil properties and nutritional regime of the soil.

A known method of increasing the fertility of sandy soils, described in patent RU 2465761, publ. November 10, 2012, in which the soil is smelled into the soil. As a soil using a mixture of loesslike loam, organic mineral soil, peat and borofoski. The method allows to increase soil fertility and improve its nutritional regime. However, the method is applicable in limited areas, because It requires the extraction and transfer of large volumes of soils of various compositions and for this reason is unsuitable for the restoration of sandy soils in the desert and semi-deserts in large areas.

An object of the invention is the restoration of sandy soils in the semi-desert zone by a local increase in fertility and moisture supply in the sowing layer of the soil, as well as the development of a nutrient moisture-accumulating composition to solve the problem.

The technical result of the invention is the provision of conditions for growing on sandy soils in the desert and semi-desert vegetation for fixing sand, as well as creating a forage base for livestock.

To achieve the specified technical result in the method of reclamation of sandy soils, including the creation of a bioproductive layer in the arable horizon by introducing a modifying additive into the soil, a nutrient moisture-accumulating composition (PVC) is used as a modifying additive in the form of an aqueous mixture, including a moisture-accumulating sorbent from plant residues, and / or wood processing waste, and / or peat and an organo-mineral nutrient filler, while PVCs are applied directly to the depth of the seed layer directly and sowing seeds.

The specified technical result is also achieved by the fact that, depending on the size of the seeds, the PVCs are placed in a row to the depth of sowing seeds, and the seeds are sown, produced on the surface of the PVC layer or the PVCs are placed in a row over the seeds to be sown, followed by seeding.

The technical result of the invention is also achieved by the fact that a nutritious moisture storage composition (PVC) is proposed, including a moisture storage sorbent from plant residues and / or peat wood processing waste and / or an organo-mineral nutritional filler in the following ratio, mass. %:

- moisture storage sorbent - 5-30

- organic-mineral filler 10-60

- the rest is water.

The specified result is also achieved by the fact that:

- the moisture-absorbing sorbent contains straw and / or grain peeling waste as plant residues, and it contains sawdust and / or shavings as wood waste;

- moisture-absorbing sorbent contains plant residues and / or wood processing wastes, and / or peat, previously subjected to mechanical activation in a dismembrator,

- the organo-mineral nutrient filler contains humus, and / or biocompost, and / or sapropel, and / or clay;

- the organo-mineral nutrient filler additionally contains mineral fertilizers and / or trace elements and / or potassium or sodium humate or humic

The introduction of PVC directly during sowing in a row to the depth of the seed layer with subsequent seeding allows for a long time to maintain high humidity in the seed sowing area, ensuring their swelling and germination, and also provides seedlings with nutrition and moisture. Moreover, the local introduction of PVC in the row directly into the seed layer allows maintaining the undisturbed soil structure in the row-spacing, which reduces its wind and water erosion

The inclusion of a moisture-accumulating sorbent in the PVC composition not only contributes to the preservation of moisture introduced into the composition, but also ensures the accumulation of water entering the soil with precipitation and moisture generated due to daily temperature drops.

The use of straw and / or waste peeling of grain, and / or wood chips, and / or shavings, and / or peat as a moisture-absorbing sorbent determines its availability and low cost, and their mechanical activation provides a multiple increase in their surface and, accordingly, water-accumulating abilities. In addition, the proposed moisture-absorbing sorbent with time, as it decomposes, turns into organic fertilizer, increasing the biological activity in the root layer of the soil.

The inclusion of organic-mineral nutrient filler in the composition of PVC, which is used as humus, and / or biocompost, and / or sapropel, and / or clay, and, if necessary, mineral fertilizers, and / or trace elements, and / or potassium or sodium humate or humic fertilizers for balancing the composition allows, on the one hand, to provide plants at an early stage of their development with available nutrients, and on the other, it promotes the development of soil biota, thus starting the process of restoring natural fertility and I.

The proposed ratio of the components in the composition of the PVC is optimal to achieve the above technical result and may vary within the stated limits depending on the composition and structure of soils, as well as the biological characteristics of the sown crops.

The inventive method of reclamation of sandy soils in the semi-desert zone and nutrient moisture-accumulating composition for its implementation were used when sowing oats on the "green" in the semi-desert zone (about 2000 meters above sea level) in the Kosh-Agach region of the Altai Republic.

The results of field tests are shown in table 1.

As a control, oats were sown in the irrigated area with the introduction of urea in a dose of 150 kg / ha (according to the technology adopted in this area).

On non-irrigated areas bordering these areas, the control was “dry” inoculated with oats without the introduction of urea and PVC and the three options were seeded with the introduction of PVC of various compositions.

The composition of PVC No. 1 includes a moisture-accumulating sorbent which uses peat, and as a nutritious organic-mineral filler — humus and clay with the addition of Phoenix liquid humic fertilizer, in the following ratio,%:

- moisture storage sorbent (peat) - 10.0

- nutritious organic-mineral filler - 34 (humus - 12, clay - 19, liquid humic fertilizer Phoenix - 2)

- water - the rest.

The composition of PVC No. 2 includes a moisture-accumulating sorbent, which is used as peat, and clay and sapropel with the addition of liquid humic fertilizer Phoenix, as the nutritious organic-mineral filler, in the following ratio,%:

- moisture storage sorbent (peat) - 15.0

- nutritious organic-mineral filler - 27 (sapropel - 15, clay - 10, liquid humic fertilizer Phoenix - 2)

- water - the rest.

The composition of PVC No. 3 includes a moisture-accumulating sorbent, which is used as straw, and clay and humus with the addition of Tellurium-Bio liquid humic fertilizer as the nutrient organic-mineral filler, in the following ratio,%:

- moisture storage sorbent (straw) - 9.0

- nutritious organic and mineral filler - 25.5 (humus - 8, clay - 16, liquid humic fertilizer Tellurium-Bio - 1.5)

- water - the rest.

The composition of PVC No. 4 includes a moisture-accumulating sorbent, which is used as a mixture of straw with sawdust, and as a nutritious organo-mineral filler - biocompost and sapropel with the addition of urea, in the following ratio,%:

- Moisture-absorbing sorbent

(straw and sawdust in a ratio of 1: 1) - 15

- nutrient organic mineral filler - 30 (biocompost - 10, sapropel - 15, urea - 5)

- water - the rest

For the preparation of PVC, liquid humic fertilizers Phoenix and Tellura-Bio were used (state registration No. 0438-06-210-144-0-0-0-1 of 09.10.2006) produced by LLC NPP Tellura-bis, Biysk.

The moisture-accumulating sorbent was mechanically activated by treatment in a rotary dismembrator until a particle size of 50 to 900 microns was achieved. To do this, before starting the rotary dismembrator, a calculated amount of water was poured into its capacity, after starting, a water-accumulating sorbent was supplied to the water and the resulting mixture was processed until the required particle size of the water-accumulating sorbent was reached. Further preparation of the PVC was to add the components of the organo-mineral filler to the resulting aqueous mixture in an arbitrary order with constant stirring.

PVC was introduced in a row with a layer of width 3.5-4 cm, followed by sowing and seeding. The results of field tests are shown in table 1.

Field test results

The data confirm the effectiveness of the use of the proposed method and the PVC of the claimed composition on sandy soils of the semi-desert zone, even in comparison with the use of artificial irrigation in combination with high doses of nitrogen fertilizers.

The application of the proposed method of reclamation of sandy soils in the semi-desert zone and nutrient moisture-accumulating composition (PVC) contribute to the achievement of the task - provide vegetation on sandy soils in the semi-desert zone to fix the sands, as well as create a forage base for livestock.

The proposed method and nutritious moisture storage composition can be implemented on existing equipment using local raw materials.

Claims (8)

1. The method of reclamation of sandy soils in the semi-desert zone, including the creation of a bioproductive layer in the arable horizon by introducing modifying additives into the soil, characterized in that the nutrient moisture-accumulating composition (PVC) is used as a modifying additive in the form of an aqueous mixture, including a moisture-absorbing sorbent from plant residues and / or wood processing waste, and / or peat and an organomineral nutrient filler, and a nutritious moisture-accumulating composition are introduced to the depth of the seed myself when sowing seeds. 2. The method according to p. 1, characterized in that the moisture-accumulating composition (PVC) is placed in a row to the depth of sowing seeds, and sowing of seeds is carried out on the surface of the layer of PVC with their subsequent seeding. 3. The method according to p. 1, characterized in that the PVC is placed in a row on top of the sown seeds, followed by seeding. 4. Nutrient moisture storage composition (PVC), including a moisture storage sorbent from plant residues and / or wood processing waste and / or peat and an organo-mineral nutrient filler in the following ratio, wt.%:
- moisture storage sorbent - 5-30
- organic-mineral filler - 10-40
- the rest is water. 5. PVC according to claim 4, characterized in that the moisture-accumulating sorbent contains straw and / or grain peeling waste as plant residues, and it contains sawdust and / or shavings as wood waste. 6. PVC according to claim 4, characterized in that the moisture-accumulating sorbent contains plant residues and / or wood processing waste, and / or peat, previously subjected to mechanical activation in a dismembrator. 7. PVC according to claim 4, characterized in that, as an organo-mineral nutritional filler, it contains humus, and / or biocompost, and / or sapropel, and / or clay. 8. PVC according to claim 4, characterized in that the organo-mineral nutrient filler additionally contains mineral fertilizers and / or trace elements and / or potassium or sodium humate or humic.