RU2526398C2 - Method of growing grain-haylage of high-protein crops in small spaces - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. The method comprises sowing with minimum tillage. At that the band sowing seeds is carried out in stubble simultaneously with performing for one pass of technological operations of paring and preparing the soil, cutting weeds, harrowing, post-sowing compacting and levelling in extreme weather conditions. For optimisation of the ratio of high-protein crops as part of the grain-haylage the plants are grown at the same sowing rate, but at different stages of development and ratio of species within this rate, namely for the early-maturing grain-haylage, legumes - lupins, sorghum and base silage crops - sunflower or corn, they correspond to ratio of 40:40:20, for middle-maturing grain-haylage - lupine- sorghum-corn, they correspond to the ratio of 60:20:20, and for late-maturing grain-haylage - lupine-sorghum-corn, they correspond to the ratio of 50:40:10.

EFFECT: method enables to increase the yield of drought-resistant high-protein feed.

1 tbl, 3 dwg

Description

The invention relates to agriculture, in particular to a method for cultivating 2-4 high-protein forage crops to feed livestock with grain crops close to animal feed in extreme weather conditions.

In the main regions of the Russian Federation, the main negative climatic factor of farming and forage production is aridity, when the probability of drought is 40-50%. At the same time, the frequency of droughts over the past decades has increased markedly, and the average annual rainfall is reduced annually by 50-70 mm. These extreme conditions are objective factors of nature that must be taken into account when improving agricultural technologies of sowing.

The high cost of seed, mineral fertilizers, and chemical protective agents has made traditional single-sowing maize sowing technology one of the most expensive feed sources, inaccessible to farms. In this regard, the search for alternative solutions is required.

Known methods for the simultaneous cultivation of two or more crops in one field to increase the amount of digestible protein. In corn-sunflower mixtures (USSR AS No. 843808, A01C, 07.07.81), the corn is strongly depressed, the cereal components of rye and wheat suppress legume vetch and pea, which reduces the content of these components in the mass, making their ratio completely dependent from growing conditions and ultimately reduces the total feed yield and its protein value.

The disadvantage of existing traditional methods for the technical equipment of sowing each crop with different equipment is the multiphase nature, the inability to obtain complete multi-component feed mixtures directly during the harvesting process. A large number of loading and unloading operations and the attraction of additional machines and entire technological lines significantly increase capital investments, increase the metal consumption, energy intensity and the simultaneous attraction of additional labor for technological processes, which is unacceptable for farms that do not have extra workers. The transition to combined units is especially valuable for farms, where rugged terrain and small field sizes (up to 100 ha) make it impossible to use wide-area and high-speed collective farm equipment.

There is also known the traditional method of cultivation of crops, containing sowing with minimal tillage, strip sowing of seeds on stubble simultaneously with performing in one pass technological operations of peeling and preparing the soil, cutting weeds, harrowing, post-sowing rolling and leveling, including two-component sowing of summer crops (alfalfa mowing) at an early stage and a three-component sowing of annual crops (sorghum-corn-sunflower) at a late stage. (USSR AS No. 1058538, A01D, 12/07/83). The proposed sowing technology with a ratio of alfalfa and fescue 1: 2 is based on the use of a 3-seeder unit C3-3.6. Alfalfa seeds are poured into the central seeder, and fescue with a total working width of 3 × 3.6 = 10.8 m is poured into two side seeders.

The disadvantages of the known traditional method are:

1. In the summer period of harvesting, the green mass harvested by the mowers (in strips of 3.6 m) comes from the combine into the trailer in separate portions of different crops without mixing. In addition, when performing work on traditional technology during the preparation of the soil and sowing different crops in the field, six to eight times pass various units. In the spring alone, four to six passes are made along one track and about half of the area is exposed to wheels or tracks, which causes soil compaction and reduces crop yields by 15-20%.

2. High-protein feed mixture according to this technology is obtained by using additional (stationary or mobile) feed workshops, including feed, molasses, which doubles the cost of the process.

3. Scattered plows, cultivators, harrows, seeders, plow harrows, levelers, rollers have different grips and require different energy sources, increased fuel consumption, metal, etc.

The objective of the invention is to increase the yield of drought-resistant high-protein feed (PBC) with a stable ratio of biologically compatible sowing components, cultivation and harvesting in the field of a nutrient-balanced feed mixture (grain silage), close in nutritional value to compound feed (0.65-0.8 feed. units).

In the method of cultivating grain from high-protein crops on farms, including sowing with minimal tillage, strip sowing of seeds on stubble is carried out simultaneously with performing peeling and preparing the soil, cutting weeds in one pass, harrowing, post-sowing rolling and leveling in extreme weather conditions, To optimize the ratio of high-protein crops in the composition of grain silage, plants are grown at the same seeding rate, but with different phases of development and ratios, the species In this norm, namely, for early-ripening grain, legumes - lupine, sorghum and basic silage - sunflower or corn, they correspond to a ratio of 40:20:20, for mid-ripening grain - lupine-sorghum-corn, they correspond to a ratio of 60: 20:20 and for late-ripening grain - lupine-sorghum-corn, they correspond to a ratio of 50:40:10.

Comparison of the proposed method with the prototype shows that the new is that to optimize the ratio of high-protein crops in the composition of early-ripening grain, legumes - lupins, sorghum and basic silage crops - sunflower or corn, they correspond to a ratio of 40:40:20; for mid-ripening grain - (lupine-sorghum-corn) - 60:20:20 and late-ripening grain - (lupine-sorghum-corn) - 50:40:10.

Grain harvesting made from a mixture of PBC (lupine, sorghum) and annual silage crops (corn or sunflower) is eaten much better than silage cooked separately from green mass or sunflower, due to the fact that the digestibility coefficient of grain-bearing protein is higher than 1.5 -2 times than when processing single-species crops on a farm.

The essence of the proposed method is illustrated in figures 1, 2, 3.

Figure 1 shows a diagram of multiband cultivation and harvesting of high-protein crops, located together in small areas. The sown area of annual silage crops 1 and 5 (corn or sunflower), the area of lupine 2 and 4, as well as sorghum 3.

Figure 2 shows a set of high-protein crops for joint sowing in the main region of the Russian Federation at different phases of cultivation and harvesting of early-ripening grain a -, middle-ripening - c, late-ripening - s.

Figure 3 shows a triangular diagram of the optimal ratios of lupine (1) - sorghum - (2) - corn (3) to obtain early-ripening grain (a), mid-ripening (c) and late-ripening (s).

The method is as follows.

To obtain high-protein feed and grain silage, it is necessary to determine the optimal set and ratio of sown fodder crops of early (a), middle (c) and late (c) ripeness (Fig. 3) under extreme weather conditions, which is determined on the basis of the correlation probe method.

The proposed method of cultivating grain from high-protein crops provides for strip sowing of high-protein (lupins, sorghum, etc.) and annual silage crops (corn or sunflower) on stubble at the same time as performing soil preparation in one pass, cutting weeds, harrowing, post-sowing rolling and alignment.

This is achieved by the fact that lupine 2 and 4 and sorghum 3, starting in April (at soil temperatures above 5 ° C), are sown in parallel alternating strips in a narrow-row method (distance between rows 15-30 cm, between plants 5-15 cm at a depth of 2 -3 cm). Moreover, the seeds of legumes are pre-husked between two disks having a formative grater surface and rotating with a frequency of up to 15 s ^-1 . At the same time, adjacent strips 1 and 5 with row spacing of 70-90 cm and a distance between nests of 45-70 cm and a sowing depth of 6-12 cm accommodate up to 200 thousand corn or sunflower plants. After growing, the entire mass is harvested for grain harvesting in the phase of a brilliant bean, when the yield of green mass is maximum. Such a set of PBC allows, in extreme weather conditions, to increase the productivity of small areas by 1.5-2 times.

To optimize the ratio of species in the mixture of grain silage, plants were grown at the same seeding rate, but with different species ratios within this norm. Correlation sounding of the response dome, the ratio of species in the rate of seeding-yield showed that the top of this dome corresponds to the ratio 40:40:20 - lupine: sorghum: sunflower in the phase of milk ripeness (early ripening grain); 60:20:20 - lupine-sorghum-corn in the phase of milk-wax ripeness (mid-ripening grain crops). As the deviation from these optimal ratios, the harvest of grain crops naturally decreases. To obtain maximum protein content of the mixture, late-ripening grain, as expected, relatively more legumes (lupine and sorghum) are required than corn or sunflower, namely: 50:40:10.

The effectiveness of feed production methods. Specific data on calculating the payback of one ton of milk using traditional technology in the production of hay, silage and haylage, and grain silage for energy-saving - of different nutritional values (a and c) are given below.

Hay: out of 1000 kg of green mass and a yield of 20% of the finished feed, 200 kg of hay with an average nutritional value of 0.46 ked units will be obtained. or only 92 units At a cost of 1.4 units per 1 kg milk yield will be only 66 kg.

Silo: from 1000 kg of raw materials at 70% humidity, the yield of finished feed will be 700 kg. With an average nutritional value of 1 kg of silage 0.17 units total feed yield will be 119 units or at a rate of 1.4 units per 1 kg of milk, the total yield will be slightly more than 85 kg of milk.

Haylage: at a yield of 50% from 1 ton of raw materials, we get 500 kg of finished feed with a nutritional value of 0.32 units. one kilogram. This will give 160 feed units. or 113 kg of milk.

The yield of dairy products for grain harvesting is determined by two options for the nutritional value of the components:

Early ripening grain (min): at a yield of 50% from 1000 kg of green mass and a humidity of 50%, 500 kg of feed with a nutritional value of 0.6 ked units can be obtained, and a total of 300 ked units will be obtained. At a cost of 0.9 ked per 1 kg, the milk yield will be 332 kg.

Mid-ripening grain medium (medium): from 1000 kg of grain-growing at 50% humidity, 500 kg of feed with a nutritional value of 0.8 units can be obtained. for 1 kg. The nutritional value of the mixture is 400 units. With the cost of feed 0.75 ked per 1 kg milk yield will be 530 kg.

An analysis of the data shows that with traditional technologies, the maximum milk yield will be 114 kg per 1 ton. The milk yield per ton of high-protein grain mass (with a nutritional value of 0.6-0.8 units) can be from 330 to 500 kg or 3 -5 times more.

Determination of fuel consumption when sowing high-protein crops on a small farm. For comparison, we took a set of technical means of the traditional technology of separate sowing and resource-saving - combined sowing. What costs will each technology bring? Here, the price of applying seeds and plant protection products (plant protection products) will be the same: 1763 rubles / ha of seeds, plant protection products - 470 rubles / ha, fertilizers - 1175 rubles / ha, electroactivated solution (EA) - 120 rubles / ha.

To cultivate the soil and sow seeds on a 100 ha farm using traditional technology, you will need 1 T-150 K tractor, LDH-10 disk cultivator, PLN-4.35 plow, BZSS-1,0 tooth harrow, SZ-3 seeder, 6, ZKKSh-6 skating rink, KPS-4,5 cultivator. According to resource-saving technology, one combined sowing complex is required, aggregated by a T-150 K.

Traditional technology. The speed of the cultivator of the disk LDG-10 is 13 km / h, and the fuel consumption is 25 l / ha of fuel and lubricants. Plowing is carried out by a plow at a speed of 4 km / h (fuel and lubricant costs-25 l / ha). The field is cultivated at a speed of 7 km / h (fuel and lubricant costs-14 l / ha). Harrowing is carried out at a fuel consumption of 5 l / ha at a speed of 18 km / h. When presowing cultivation KSP-4,5 at a speed of 10 km / h, fuel consumption will be 7 l / ha. Sow at a speed of 8 km / h (fuel consumption - 1 l / ha). Fuel consumption for plant protection - 6 l / ha. If everything is calculated, the consumption of fuel and lubricants per 1 ha when sowing according to traditional technology will be per 100 ha: 86 × 30 × 100 = 258,000 rubles.

With energy-saving technology, three operations are carried out at once in one pass: up to 4-5 strips are sown at the same time, an EDA solution (10-20%) is introduced and rolling is performed. And all this at a speed of 15 km / h. Accordingly, the cost of fuel per 100 hectares will be only 43 × 30 × 100 = 129,000 rubles, or 1.5-2 times less (saving 1290 rubles per ha).

The versatility of the combined unit helps to reduce not only fuel consumption, but also time several times. At the same time, the natural structure and soil fertility for future generations will be preserved.

The economic evaluation of silage cultivation and grain silage are given in the table.

Table. Economic assessment of silage cultivation during a drought. Indicators Silage Corn Sugar sorghum Sorghum-Sudanese Hybrid Grain crops (lupine + sorghum + corn) 60:20:20 Green mass productivity, t / ha 6.5 13 fifteen 11.5 Digestible protein content, g / kg 65-70 110-125 120-130 150 Selling price of 1 ton of silo, rub. 3500 3500 3500 3500 The cost of production from 1 ha, rub. 22750 45500 52500 40250 Production costs per 1 ha, rub 9989 13504 13920 12471 Including seed costs, rub / ha 1125 750 750 875 The cost of 1 ton of silage, rub 1537 1039 928 1168

The technical and economic indicators of traditional technology are distinguished not only by increased fuel consumption and energy intensity of the process in the production of hay, silage, haylage and animal feed (but also according to the table with a reduced protein content and high unit cost of production).

When cultivated jointly, the protein content and quality of PBC grain growing are increased due to the high protein content in the bean component, harvesting is easier and crop losses prone to lodging are reduced, photosynthesis is improved and soil fertility is used more fully, the soil is enriched with nitrogen due to its biological fixation from the atmosphere by legumes cultures.

Information sources

1. The method of cultivation of crops, and.with. USSR No. 843808, A01C, 07.07.81.

2. The method of cultivation of crops, and.with. USSR No. 1058538, A01D, 07.12.83.

Claims (1)

A method of cultivating grain from high-protein crops on farms, including sowing with minimal tillage, characterized in that the strip sowing of seeds is carried out on stubble simultaneously with performing peeling and soil preparation in one pass, cutting weeds, harrowing, post-sowing rolling and leveling in extreme weather conditions, in order to optimize the ratio of high-protein crops in the composition of grain crops, plants are grown at the same seeding rate, but at different phases of development and the ratios of species within this norm, namely for early-ripening grain crops, legumes - lupins, sorghum and basic silage crops - sunflower or corn, they correspond to a 40:40:20 ratio, for middle-ripening grain crops - lupine-sorghum-corn, they correspond to the ratio 60:20:20 and for late-ripening grain - lupine-sorghum-corn, they correspond to the ratio: 50:40:10.

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