RU2811678C1 - Soybean yield improvement method - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method includes plowing after harvesting the predecessor, cultivation, application of mineral fertilizers, row sowing, rolling, periodic mowing of the grass stand and fertilizing. After harvesting the predecessor, double disking is carried out to a depth of 0.13–0.15 m, one cultivation to a depth of 0.07–0.09 m, a second cultivation to a depth of 0.04–0.05 m, row sowing of sainfoin to a depth of 0. 02–0.035 m with sainfoin seeding rate of 6.0⋅ 10⁶ pieces of viable seeds per hectare under oat cover with a seeding rate of 3.0⋅10⁶ pieces of viable seeds per hectare. The mineral nutrition regime is maintained with phosphorus-potassium fertilizers for the main treatment in reserve for three years of using the grass stand. Nitrogen fertilizers are applied fractionally to the cuttings in differentiated doses. The irrigation regime is maintained within 70–75% NV. On the crops in the first year of life, one to three waterings are carried out, and cover oats are harvested for green fodder. Crops of sainfoin in the first year of life are formed in one mowing, for the next three years, three full mowings per year during the flowering phase, and the mineral nutrition regime is carried out with N₁₂₀P₁₂₀K₇₅. Watering is carried out in the first year of life with an irrigation rate of 400 m³/ha. Cover oats are mowed at a height of 0.09–0.11 m. For sainfoin crops for the next three years, watering is carried out at an irrigation rate of 600 m³/ha and three full-fledged mowings are formed per year in the budding phase with a mowing height of 0.11–0.16 m in the first and second mowing, and in the last of 0.15–0.17 m. On the crops of the second year of life during the growing season, the number of irrigations is eight with a minimum inter-irrigation period of 5–25 days, with a total irrigation rate of 4,800 m³/ha. On the crops of the third year of life, six irrigations are carried out with a minimum inter-irrigation period of 12–34 days, with a total irrigation rate of 3,600 m³/ha. On the crops of the fourth year of life, five irrigations are carried out with a minimum inter-irrigation period of 10–24 days, with a total irrigation rate of 3,000 m³/ha.

EFFECT: method ensures productive longevity of grass stands, obtaining high productivity of sainfoin crops when mowing it for hay during four years of life due to the required water and nutritional regimes and obtaining a yield of 10.5–11.0 t/ha of sainfoin hay.

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Description

The invention relates to feed production in irrigated agricultural areas.

There is also a known method of cultivating agricultural crops, including sowing, cultivating row spacing, harvesting along the rows, in which, in order to increase productivity and product quality, seeds of annual forage crops, similar in cultivation technology and differing in nutrient content, are sown in parallel in alternating rows in clean form; sowing is carried out sequentially in each row of the following crops: silage corn, sweet sorghum, silage sunflower, grain corn, oilseed sunflower, grain sorghum; the field is carried out with row spacing of 45-70 cm (SU, author's certificate No. 1604194, IPC ⁵ A01S 7/00. Method of cultivating agricultural crops / V.M. Kononov, L.E. Dorofeev, I.A. Pimenov, V.N. Pavlenko (USSR). - Application No. 4460013/30-15; Declared 07/13/1988; Published 11/07/1990, Bulletin No. 41 // Discoveries. Inventions. - 1990. - No. 41).

Despite the fact that the described feed mixture is intended for milking cattle and is sold in production in the Lower Volga region, it has low and only one-time productivity, used in a very short period.

There is a known method of reclamation and increasing soil fertility and a system for its implementation, which includes watering along furrows of beds with trenches permanently located in one place. The trenches are laid along the middle of the beds. The beds are filled with plant debris and manure. The irrigated area is divided into groups of irrigated plots. Each array contains groups of three beds. In the first bed, the main crops are grown. The second one contains perennial grasses or legumes, the third one is mulched with plant residues. When the humidity in the surface layer of the soil of the first beds in groups decreases to the lower threshold of optimal humidity, the beds are watered. Irrigation is carried out by finely dispersed sprinkling at the irrigation rate to moisten the surface layer of soil to a moisture content less than the minimum moisture capacity. In case of air drought, watering is carried out with a refreshing rate. Irrigation along the furrows of the beds in which the main agricultural crops are grown is carried out when the soil moisture in these groups of beds is reduced to the lower level of optimal humidity. The irrigation rate is chosen to ensure that the entire active layer of soil reaches a moisture content that is less than the minimum moisture capacity and does not destroy the soil structure. Water is supplied to the furrows in pulses with an erosively permissible flow rate of irrigation jets. The duration of the pulses ensures that the irrigation jets reach the end of the irrigation furrows. Water is supplied cyclically into the irrigation furrows of all the first beds that are part of the groups of beds in the irrigated area. The number of groups of beds is chosen such that the period between the supply of pulses, equal to the time of issuing irrigation pulses in the irrigation furrows of the remaining first beds in the groups, ensures gradual absorption of water into the soil. Moistening of the second and third beds in groups is carried out by intrasoil irrigation with water that entered the lower horizon of the active soil layer when watering along the furrows of the first beds in groups. The system includes an irrigation source, a furrow irrigation system for the beds, a fine sprinkler system, a drainage system, and soil moisture sensors. Screens are laid below the surface of the irrigation furrows. The screens are made in the form of a tray made of polyethylene film. The irrigation source is connected through a controlled valve with an electric drive to the input of the low-pressure pump and through a controlled valve with an electric drive to the input of the high-pressure pump. The pump outlets are connected to the main pipeline. The outlet of the main pipeline is connected to the transport pipeline. The transport pipeline is connected through controllable valves to irrigation pipelines with fine sprinklers and through controllable valves to water outlets into pairs of irrigation furrows laid along the edges of the beds. The drainage system has vertical wells with water filters that do not allow salt to pass through for subsoil moistening of the active soil layer. This technology will preserve and increase the fertility of irrigated lands (RU, patent No. 2402197, published on October 27, 2010. Bulletin No. 30).

The disadvantage of the described method is the labor intensity of harvesting perennial grasses when mowing them for hay.

There is a known method of cultivating perennial forage grasses, which includes periodic mowing of biomass, watering and applying mineral fertilizers in the spring during the period when the grasses begin to grow and feeding after each mowing. After harvesting the predecessor, pre-plow irrigation is carried out at a rate of 300...400 m ³ /ha, and then reclamation loosening to a depth of 0.4...0.6 m. Plowing to a depth of 0.25...0.27 m is carried out with rotation of the formation. Loosening of the top layer is carried out with cultivators to a depth of 0.08...0.12 m. Planners level the macrorelief of the irrigated field. Specially equipped seeders are used to sow legumes and bluegrass through rows. Grass mixtures can be composed of either two or four crops. Alfalfa and clover are sown as legume crops. Meadow fescue and cocksfoot are used as bluegrass crops. The seeding rates for alfalfa, clover, fescue and hedgehog, respectively, are 4.8⋅10 ⁶ , 5.4⋅10 ⁶ , 5.5⋅10 ⁶ and 8.1⋅10 ⁶ viable seeds per hectare. The sowing depth is maintained in the ranges of 0.02...0.03 and 0.05...0.06 m. The mineral nutrition regime is maintained with phosphorus-potassium fertilizers with calculated doses for plowing in reserve for three to four years of using the grass stand. Nitrogen fertilizers are applied fractionally to the cuttings in differentiated doses. The reserves of mineral nutrition after harvesting the predecessor and nitrogen-fixing bacteria of legumes in the legume-bluegrass herbage provide a stable yield of green mass in cuttings of 8, 12, 10 t to 30 t/ha, respectively. Nitrogen up to 60 kg/ha is applied during the growing season with a maximum application dose for the first cutting, 40 kg a.i./ha to ensure a guaranteed yield of up to 50 t/ha of green mass. Nitrogen up to 80 kg/ha is applied during the growing season with a maximum application dose for the first cutting of 60 kg a.i./ha to ensure a grass yield of up to 70 t/ha of green mass. Nitrogen up to 100 kg/ha is applied during the growing season with a maximum application dose for the first cutting, 70 kg a.i./ha to ensure a guaranteed grass mixture yield of up to 90 t/ha of green mass. The irrigation regime is maintained within 60...80% NV. A yield of 30 t/ha of green mass of the grass mixture is achieved at 60% NV irrigation with an irrigation rate of 850 m ³ /ha with a minimum inter-irrigation period of 25...30 days with a total irrigation rate of 1700...2550 m ³ /ha. The yield of green mass of the grass mixture up to 50 t/ha is ensured at a moisture threshold of 60...70% NV with one or two irrigations for mowing at a rate of 650...850 m ³ /ha with a maximum inter-irrigation period of 15...18 days with a total irrigation rate of 2550...3250 m ³ /ha. The yield of green mass of the grass mixture up to 70 t/ha is ensured at a moisture threshold of 70...80% HB with two or three irrigations before mowing, the inter-irrigation period is 9...12 days with a total irrigation rate of 3250...3600 m ³ /ha. The yield of green mass of the grass mixture up to 90 t/ha is ensured at a moisture threshold of 80% NV by carrying out 2…3 irrigations for each cutting at a rate of 450 m ³ /ha, an inter-irrigation period of 8…10 days with a total irrigation rate of 3600…4050 m ³ /ha. The time between harvesting the green mass and watering during the regrowth phase is reduced to 2…3 days. Agrotechnical care is carried out in the form of harrowing on the crops of previous years and after mowing for green fodder, and in the fall after the last mowing - slitting the crops of the second and third year of plant life to a depth of 0.4...0.6 m (RU, Patent for invention No. 2248110, Published March 20, 2005. Bulletin No. 8).

The disadvantages of this method include the fact that the irrigation and mineral nutrition regimes do not provide a guaranteed yield of sainfoin when mowing it for hay.

The closest analogue to the claimed object is the method described in the work “Techniques for cultivating sandy sainfoin for feed purposes in the Middle Urals.” The method includes plowing after harvesting the predecessor, cultivation, application of mineral fertilizers, row sowing, rolling, periodic mowing of the grass stand, and fertilizing. (Matalinets N.N. Techniques for cultivating sandy sainfoin for feed purposes in the Middle Urals, abstract of the dissertation for senior candidate of agricultural sciences. Perm. 07/24/2020. 22 p.).

The disadvantages of this method, adopted as the closest analogue, include the fact that the method does not allow obtaining the maximum yield of sainfoin when cultivating it for hay.

The problem to which the claimed invention is aimed is to obtain maximum productivity of sainfoin crops when mowing it for hay during four years of life due to the necessary water and nutritional regimes.

The technical result is ensuring productive longevity of grass stands, obtaining high productivity of sainfoin crops when mowing it for hay during four years of life due to the necessary water and nutritional regimes and obtaining a yield of 10.5-11.0 t/ha of sainfoin hay.

The specified technical result is achieved by a method of increasing the yield of sainfoin, including plowing after harvesting the predecessor, cultivation, application of mineral fertilizers, row sowing, rolling, periodic mowing of the grass stand, fertilizing, characterized in that after harvesting the predecessor, double disking is carried out to a depth of 0.13...0, 15 m, one cultivation to a depth of 0.07...0.09 m, a second cultivation to a depth of 0.04...0.05 m, row sowing of sainfoin to a depth of 0.02...0.035 m, sainfoin with a seeding rate of 6.0⋅10 ⁶ pieces of viable seeds per hectare under oat cover with a seeding rate of 3.0⋅10 ⁶ pieces of viable seeds per hectare, the mineral nutrition regime is maintained with phosphorus-potassium fertilizers for the main treatment in reserve for three years of using the grass stand, nitrogen fertilizers are applied fractionally for differentiated mowings doses, the irrigation regime is maintained within 70...75% of NV, one to three waterings are carried out on crops in the first year of life, cover oats are harvested for green fodder, sainfoin crops in the first year of life are formed in one mowing, for the next three years, three full mowings per year in the flowering phase, and the mineral nutrition regime is carried out N ₁₂₀ P ₁₂₀ K ₇₅ , watering is carried out in the first year of life with an irrigation norm of 400 m ³ / ha, mowing of cover oats is carried out at a height of 0.09 ... 0.11 m, for subsequent sainfoin crops three years, irrigation is carried out with an irrigation norm of 600 m ³ /ha and three full-fledged mowings are formed per year in the budding phase with a mowing height of 0.11...0.16 m in the first and second mowing, and in the last - 0.15...0, 17 m, and on crops of the second year of life during the growing season the number of irrigations is eight with a minimum inter-irrigation period of 5...25 days with a total irrigation rate of 4800 m ³ /ha, on crops of the third year of life six irrigations are carried out with a minimum inter-irrigation period of 12...34 days with a total irrigation rate of 3600 m ³ /ha, on crops of the fourth year of life, five irrigations are carried out with a minimum inter-irrigation period of 10...24 days with a total irrigation rate of 3000 m ³ /ha.

Information confirming the possibility of implementing the claimed method is as follows.

A method for increasing the yield of sainfoin includes periodic (mowing) mowing of the grass stand, watering and applying mineral fertilizers in the spring during the period when the grasses begin to grow, and fertilizing after each mowing. After harvesting the predecessor (corn for grain), which maximally freed the irrigated field from weeds, pre-plowing irrigation was carried out at a rate of 300...400 m ³ /ha. This norm is sufficient to increase the threshold of lower moisture capacity in the root horizon to 70...75%. The cultivation of the irrigated field with stubble and crop residues of the predecessor was carried out by double disking with heavy BDT-7 harrows to a depth of 13...15 cm, main tillage to a depth of 0.25...0.27 m, spring harrowing, one cultivation to a depth of 0.07...0 .09 m was carried out with KPS-4.0 cultivators, the second cultivation was carried out to a depth of 0.04...0.05 m. Row sowing of legumes was carried out with SZT-3.6 seeders. Sainfoin was used as a legume crop with a seeding rate of 6.0-10 ⁶ viable seeds. Oats were used as a cover crop with a seeding rate of 3.0-10 ⁶ pieces/ha. Sainfoin and oats were sown to a depth of 0.02...0.035 m. After sowing, the field was rolled with ring rollers. The mineral nutrition regime was maintained with phosphorus-potassium fertilizers in calculated doses for the main treatment in reserve for three years of using the grass stand, nitrogen fertilizers were applied fractionally for mowing in differentiated doses, the irrigation regime was maintained within 70...75% of NV, one to three irrigation with an irrigation norm of 400 m ³ /ha, in subsequent years of use with an irrigation norm of 600 m ³ /ha, cover oats were harvested for green fodder during the panicle sweeping phase at a height of 0.09 - 0.11 m, sainfoin crops of the first year of life formed in one mowing, for the next three years, three full-fledged mowings per year in the flowering phase with a mowing height of 0.11...0.16 m in the first and second mowing, and in the last - 0.15...0.17 m, and in crops of the second year life during the growing season, the number of irrigations was eight with a minimum inter-irrigation period of 5...25 days with a total irrigation norm of 4800 m ³ /ha; on crops of the third year of life, six irrigations were carried out with a minimum inter-irrigation period of 12...34 days with a total irrigation norm of 3600 m ³ / ha, on crops of the fourth year of life, five irrigations were carried out with a minimum inter-irrigation period of 10...24 days with a total irrigation rate of 3000 m ³ /ha.

Claims (1)

A method of increasing the yield of sainfoin, including plowing after harvesting the predecessor, cultivation, application of mineral fertilizers, row sowing, rolling, periodic mowing of the grass stand, fertilizing, characterized in that after harvesting the predecessor, double disking is carried out to a depth of 0.13-0.15 m, one cultivation to a depth of 0.07-0.09 m, a second cultivation to a depth of 0.04-0.05 m, row sowing of sainfoin to a depth of 0.02-0.035 m with a seeding rate of 6.0⋅10 ⁶ pieces of viable seeds per hectare under the cover of oats with a seeding rate of 3.0⋅10 ⁶ pieces of viable seeds per hectare, the mineral nutrition regime is maintained with phosphorus-potassium fertilizers for the main treatment in reserve for three years of using the grass stand, nitrogen fertilizers are applied fractionally for mowing in differentiated doses, the irrigation regime is maintained in within 70-75% of NV, one to three waterings are carried out on crops in the first year of life, cover oats are harvested for green fodder, sainfoin crops in the first year of life are formed in one mowing, for the next three years, three full mowings per year in the flowering phase, and the regime mineral nutrition is carried out N ₁₂₀ P ₁₂₀ K ₇₅ , watering is carried out in the first year of life with an irrigation norm of 400 m ³ / ha, mowing of cover oats is carried out at a height of 0.09-0.11 m, for sainfoin crops for the next three years, watering is carried out with irrigation norm of 600 m ³ /ha and form three full-fledged mowings per year in the budding phase with a mowing height of 0.11-0.16 m in the first and second mowing, and in the last - 0.15-0.17 m, and on crops in the second year of life during the growing season, the number of irrigations is eight with a minimum inter-irrigation period of 5-25 days, with a total irrigation norm of 4800 m ³ /ha; on crops of the third year of life, six irrigations are carried out with a minimum inter-irrigation period of 12-34 days with a total irrigation norm of 3600 m ³ /ha, on crops of the fourth year of life, five irrigations are carried out with a minimum inter-irrigation period of 10-24 days, with a total irrigation rate of 3000 m ³ /ha.