RU2694500C1 - Method for blue-hybrid alfalfa cultivation on saline rice fields of kalmykia - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to reclamation. Method involves covering and unprotected planting of alfalfa in irrigation by forcing on checks and its two-year growing. Alfalfa is sown in April according to the predecessor of rice under cover of spring barley with wide row with spacing of 30 cm; the crops are rolled. Pre-irrigation humidity in meter soil layer is maintained at level of 70–75 % of HB with irrigation during the first year with standard of 800 m³/ha and norm of 1,000 m³/ha on crops of alfalfa of the second year after the first mowing. Watering is carried out by short flooding method.

EFFECT: method improves meliorative state of rice fields by improving soil aeration and accelerating the onset of its physical ripeness in spring.

1 cl, 1 tbl

Description

The invention can be used in the field of agriculture, in particular for the cultivation of rice and tilled crops on rice ameliorative systems.

There is a method of growing alfalfa, described by G.Gasanov. (RU), I.A. Musaev (RU), Musayev M.R. (RU), Kurbanov S.A. (RU) (patent No. 2265978, 2005). This method includes planting phytomeliorants - salt-tolerant plants, collecting - mowing the economically valuable part of their biological crop during the stipulated operational period of grass (s) field (s) of crop rotation. After collecting - mowing and removal of crop residues, the harvesting of crop and root phytomeliorants remains.

The disadvantages of this method are the very high cost and the long duration of work on soil desalinization, during which these lands are not put into agricultural use.

The task to which the claimed invention is directed is to increase the ameliorative effect of growing a salt-tolerant crop.

The technical result is the improvement of the ameliorative condition of the rice fields - the improvement of soil aeration and the acceleration of the onset of its physical ripeness in the spring; plowing of plant remains of alfalfa blue hydride.

Experiments to improve the ameliorative condition of the rice fields and prevent their degradation were conducted at the FSUE OGK VNIIGiM Kharada testing ground of the Oktyabrsky district of the Republic of Kalmykia in 2011-2015.

The zone of rice growing on the territory of the Republic of Kalmykia is located within the Sarpinsky lowland and is the northernmost region of the commodity rice growing in Russia. Long-term cultivation of rice with flooding is accompanied by the development of soil transformation processes, a decrease in the content of humus and nutrients in an accessible form, the transformation of the composition of a soil absorbing complex, the destruction of soil aggregates. In the soil of flooded fields, owing to a weak oxygen supply, humification of organic matter occurs at a slower rate and less completely. The inclusion in the rice crop rotations of the agromeliorative field (along with the methods of ameliorative nature - layout of checks, cleaning of canals, repair of hydraulic structures combined with phytomeliorative) contributes to a more active formation of humus.

Soil structuring is possible only on the basis of the introduction of a proper crop rotation with a sufficiently high proportion of the crop-forming formers. The positive effect of crop rotation on rice yield is explained by the complex favorable effect of crop alternation on the factors of plant life and the processes occurring in the soil, determining its fertility. The best precursors of rice in all zones of rice sowing are perennial grasses, as well as single-cut cereals, legumes, oilseeds harvested for seeds, green fodder, haylage and hay. All of these predecessors, in combination with their inherent agrotechnics, restore soil fertility, increase rice yield, provide fodder products, and thus determine the productivity of the entire rotation of a crop rotation. Due to the combination of factors of their impact on the soil, all these cultures fully deserve the names of active ameliorants.

Kevsal varietal alfalfa, uncovered and under cover of spring barley, was sown in the fourth decade of April, according to its predecessor rice, a wide-row sowing method with a 30 cm row spacing. pre-sowing cultivation to a depth of 3-4 cm. Sowing was carried out by plowing to a plowing ground after harvesting rice in early spring with an NWT-3.6 planter. After sowing, rollers were rolled on the rollers.

An important factor affecting the productivity of seed alfalfa is the water regime of the soil. On spring crops, soil moisture reserves provide seedlings and their development in the first period of life. Pre-irrigation humidity in the meter-high soil layer was maintained at 70 ... 75% HB. To maintain a given moisture content of the soil in the first year of life for alfalfa seeds was conducted watering rate 800 m ³ / ha, lucerne second year after the first cutting was conducted watering rate of 1000 m ³ / ha.

The results of field experiments have shown that when watering by overflowing on checks, young plants with insufficiently hardened root systems somewhat oppress, and some of them die, seed yield in the 1st year of life was 2.58 ± 0.07 ... 3.27 ± 0.04 centners per hectare Alfalfa reaches its maximum productivity in the second year of life. In general, during the growing season of alfalfa of the second year of life, the yield of green mass ranged from 137.57 to 229.48 c / ha of green mass and 4.57 ... 4.95 t / ha of seeds.

Analysis of the results of water extraction of the soil shows that before the rice was flooded, the content of water-soluble salts in the meter-high soil layer of the Bolshoi Tsaryn estuary was 1.310%, and in the 0-40 cm layer it was 0.737%. After one year of rice cultivation, the salt content in the upper part of the soil profile, 0–40 cm, decreased by 0.038%, and in the 0–100 cm layer, by 0.011%. Cultivation of rice in the mode of shortened flooding contributes to the movement of salts to the underlying layers of soil and ground. In the second year of rice cultivation in a meter-thick layer of soil, the amount of salts decreased to 1.294%, which is 1.22% less compared to the original (before rice flooding) (Table 1).

The high yield of the above-ground mass indicates a good development of the alfalfa root system, and, consequently, an increase in the supply of fresh organic matter to the soil. For two years, alfalfa accumulates in the soil up to 20 ... 25 tons per hectare of root residues rich in proteins, being the main source of positive balance and synthesis of organic matter in it. In the first year of plowing, alfalfa roots decompose by 60 ... 70%, in the second - completely, which contributes to the accumulation of nutrients in the soil, especially nitrogen, to improve the structure and other water-physical properties. After plowing of perennial leguminous grasses under rice, a loose composition of the arable layer of the soil is created, its volume and specific gravity decrease, and the duty cycle increases. This is due to the fact that legumes, increasing the humus content of the soil and speeding up the process of aggregation of soil particles, contribute to the restoration of the structure of heavy, periodically flooded soils in the rice crop rotation. The improvement in alfalfa soil structure is due to a decrease in the number of large (> 10 mm) and small (<0.25 mm) fractions. For two years of alfalfa growing season, the content of economically valuable aggregates (0.25 mm ... 10 mm) in the arable layer of brown semi-desert soil increases from 45 to 64 ... 67%. This causes an increase in the coefficient of structure to 1.8.

Decomposing, alfalfa creates a vertical drainage of the soil, from which it can leach into the deeper layers of the plant-harmful salt. So alfalfa is a reliable tool in the fight against salinization. Penetrating the entire soil thickness to groundwater with its roots, alfalfa helps to lower the level of groundwater in the rice field (30-50 cm). In addition, when all agrotechnical measures are carried out at optimal times, alfalfa drowns out the development of weeds and is a good field cleaner.

The productivity of alfalfa in the rice crop rotation of the semi-desert zone of Kalmykia is greatly influenced by the water regime of the soil, cover and seeding rate, with the help of which you can control the growth and development of plants in sowing. Alfalfa is one of the best predecessors of rice, which, has phytomeliorating properties, helps to increase rice productivity and improve the ameliorative condition of rice fields.

Claims (1)

The method of cultivation of alfalfa sinehybrid in the saline rice fields of Kalmykia, including cover and undisturbed sowing of alfalfa during irrigation by overlap of checks and its two-year cultivation, characterized in that lucerne is sown in April, according to its predecessor, rice under the cover of spring barley, the mass of marrow was spread on the ground surface; , pre-irrigation moisture meter in the soil layer is maintained at 70-75% NV with irrigation rate during the first year of 800 ^m3 / ha and the rate of 1000 m ³ / h on lucerne second year after the first UCO a, watering is performed by a shortened flooding.