RU2654639C2 - Method of watermelon cultivation with drip irrigation under arid conditions - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture and land reclamation. Method includes stubble plowing, plowing with or without furrow slice turnover, harrowing, sowing according to the 2.1×1.4 m scheme in rows, layout of irrigation pipelines with drip irrigation system water outlets, vegetative irrigation with a differentiated irrigation mode, fractional application of mineral fertilizers with irrigation water and weed control in the aisles. Width of the distance between the drip irrigation pipelines lanes is 4.2 m. Differentiated irrigation mode is adapted to the needs of watermelon plants: 70-80-70% of the soils lowest moisture capacity (by irrigation norms of 21, 42, 84, 126 and 168 m³/ha) - to produce a yield of 40 t/ha of fruits and 75-85-75% HB (by irrigation norms of 42, 84, 105 and 126 m³/ha) - for a harvest of 60 t/ha. Mineral fertilizers are introduced to the planned level of watermelon fruits harvest at the levels of 40 and 60 tons/ha, in a total dose of N₉₀P₄₅ and N₁₅₀P₈₀, respectively, with a fractional introduction of nutrients with irrigation water throughout the entire growing season.

EFFECT: method allows to increase the watermelon fruits yield and nutritional qualities.

4 cl, 3 tbl

Description

The invention relates to agriculture, namely to the field of irrigated agriculture and cultivation of gourds.

The standard technological scheme of a drip irrigation system is known, consisting of a water source, a pumping station, a main pipeline, filters for preliminary and fine water purification, a mineral feed unit, distribution, irrigation (irrigation) pipelines and micro-outlets - droppers (V. Borodychev. Modern drip irrigation technologies vegetable crops: Scientific publication. - Volgograd, 2010. - 241 p.).

The main drawback is the application to watermelon cultivation technology: the design scheme for the placement of irrigation pipelines requires modernization.

Elements of zonal watermelon cultivation technologies are known in the territory of Kalmykia, where the features of agrotechnical operations - soil preparation, sowing and plant care, as well as irrigation regimes for various zones of the republic are considered (Systems of conducting the agro-industrial complex of the Republic of Kalmykia for the period 2004-2008. Part II. Agriculture Systems / Collective of authors; Edited by OV Demkin - Elista: APP "Dzhangar", 2004. - 224 p.).

The disadvantage of the analogue is that it needs to be adapted to the drip irrigation system, since these technologies are designed for dry conditions and irrigation irrigation.

A known drip irrigation system, which includes a water source, a sump pool, a pumping station, filters, irrigation main and distribution piping network, as well as irrigation lines with micro outlets - droppers. Droppers with a wide range of irrigation water flow rates are hydraulically connected into groups of nine droppers each (patent RU No. 2231951, publication date July 10, 2004). This system is used as a prototype.

The disadvantages of the system include the complexity of installation and the difficulty of regulating unit costs and their combinations during operation. Also in the appendix to the proposed method, this design is not suitable for a wide-row scheme for growing watermelons.

The problem to which the invention is directed is to increase the yield and nutritional qualities of watermelon fruits.

EFFECT: obtaining a guaranteed crop of watermelon fruits up to 60 t / ha and above with drip irrigation due to a strictly differentiated irrigation regime and the effective use of mineral fertilizers in case of fractional application with irrigation water.

The specified technical result is achieved by the fact that in the process of drip irrigation only a strip of soil in a row about 15 cm wide is moistened, and the rest of the row-spacing remains dry (if there is no precipitation) throughout the growing season (from late April to August). As a result of this, the root system is much smaller and focuses only in the humidified zone, as well as the economical use of moisture and nutrients.

Implementation of the proposed method for the cultivation of watermelon under drip irrigation in arid conditions of Kalmykia develops in the sequential implementation of a specific complex of agrotechnical and technological operations, the description of which is given below.

The main tillage and preparation system includes the following operations: autumn stubble cultivation to a depth of 10-15 cm on heavy soils with disc harrows of the BDT-3.0 type, and on medium and light ones - with cultivators of the LDG-10 type in aggregate with DT-75M tractors and MT3-82; dump autumn plowing to a depth of 27-30 cm (heavy soils) and 25-27 cm (medium soils) with plows of the type PLN-5-35, PN-4-35 in aggregate with tractors T-150K and DT-75 M. On the lungs soilless tillage is performed to a depth of 22-25 cm with the help of KPG-2-150 type plane-cutters; KPG-250 and others in an aggregate with a T-150K tractor; early spring harrowing of winter fallow with harrows of the BZSS-1,0 type in aggregate with a tractor DT-75 M; pre-sowing cultivation with a KPS-4 type aggregate to a depth of 12 cm in an aggregate with an MT3-82 tractor.

Installation of a standard drip irrigation system, carried out immediately after completion of soil preparation operations, including: layout of trunk, distribution and irrigation pipelines; installation of sand and gravel filters; locking and regulating equipment (valves, valves, etc.) and fertilizer supply system. A feature of the layout of drip polyethylene lines is their location along future rows of watermelon plants at a distance of 4.2 m from each other, so that the dropper holes are directed upwards. For irrigation, drip lines of any type can be used with a dropper flow of at least 1.5 l / h and a distance between them of 0.4 m or more.

Sowing is carried out manually or using seeders (SUPN-8, etc.) in an aggregate with an MT3-80 tractor according to the 2.1 × 1.4 m scheme. The seeding rate of watermelon seeds depends on their size and is 1.5-2, 5 kg / ha. The embedment depth is 2-4 cm. The optimum temperature of the soil layer should be at the level of + 16 ... + 18 ° С. Pre-seeds are etched with 80% solution of TMTD. With mechanical sowing, it is possible to combine the operation of laying out drip lines, for which special drums with tapes wound on them are installed on the seeders.

In order to combat weed vegetation, immediately after sowing, the plot is treated with herbicides - solutions of treflan (2.4-3.2 l / ha) or nitran (2.0-2.7 l / ha) with rod sprayers of the type OP-2000, etc. in the aggregate with the MTZ-80 tractor.

Predecessors

The best of them in the arid zone of Kalmykia are perennial and annual bean and cereal grasses, winter and spring grains, corn and vegetables. Sowing on gourds is undesirable.

Agrotechnics of crop care is carried out throughout the entire growing season and consists of:

- periodic manual weeding in rows of plants and in the inter-row space between drip irrigation pipelines as weeds appear;

- uniform manual laying of watermelon lashes across drip irrigation lines with a uniform distribution over the surface to ensure normal flowering and fruit growth.

The watermelon irrigation technology on the drip irrigation system is a standard process: water is taken from the water source (pond, canal, etc.) using a pump, fed through a main water supply to a sand-gravel filter (where it is purified from suspended solids). Then the water is saturated with a solution of nitrogen-phosphorus fertilizers (prepared by a special device) and enters the distribution pipelines, and of them into irrigation pipelines, and through micro-outlets, droppers directly into the soil.

The watermelon irrigation regime under drip irrigation is differentiated in nature, strictly linked to specific moisture needs during a certain period of plant development when the planned level of fruit productivity is formed.

Six main phases of watermelon vegetation were identified, which are significantly affected by optimal moisture supply: from planting to 5-7 leaves; before flowering, flowering - the beginning of the growth of the fetus; fetal growth - the beginning of ripening; fruit ripening and end of ripening - harvesting.

The optimal parameters of the irrigation regime to achieve a fruit yield of 40 t / ha are 70-80-70% of the lowest moisture content of the soil, which requires 21-25 irrigation rates of 21, 42, 84, 126 and 168 depending on the moisture supply of the year of life m ³ / ha with a total irrigation rate of 1.9-2.8 thousand m ³ / ha.

To achieve a watermelon crop of 60 t / ha, a differentiated irrigation regime of 75-85-75% HB is recommended, achieved by 28-37 irrigation rates of 42, 84, 105 and 126 m ³ / ha. The irrigation rate is 2.3-3.4 thousand m ³ / ha.

The main indicators of the implementation of these irrigation regimes are given in table. one.

The fertilizer system was calculated according to the planned yield of watermelon fruits using the balance method, taking into account the fact that zonal light chestnut and brown semi-desert soils of Kalmykia have a low level of nitrogen and mobile phosphorus, and mobile potassium is at an elevated and high level. Based on the characteristics of nutrient removal by the crop and the degree to which watermelon plants use nutrients from the soil and mineral fertilizers, it was found that in order to obtain a crop of 40 t / ha, it is necessary to introduce mineral fertilizers in a dose of N ₉₀ P ₄₅ , and at 60 t / ha - N ₁₅₀ P ₈₀ .

The following types of water-soluble fertilizers are recommended: ammonium nitrate (N ₃₄ ); carbamide (N ₄₆ ); phosphoric acid (P ₅₄ ); ammophos (N ₇ P ₃₀ ); Master yellow (N ₁₃ P ₄₀ K ₁₃ + trace elements), etc.

On small-humus loamy and light (sandy and sandy) soils, it is desirable to apply organic fertilizers in doses of 20 t / ha and above for the main treatment.

The combined effect of irrigation and nutrient regimes on the productivity of watermelons.

In case of drip irrigation, in order to make the best use of nutrients by plants, the fractional system of applying mineral fertilizers in small doses along with irrigation water throughout the entire growing season is rational, the scheme of which is presented in Table. 2.

The highest fruit yield (58.6 t / ha) is provided with an irrigation regime of 75-85-75% HB against the background of fertilizing in a dose of N ₁₅₀ P ₈₀ . Without fertilizers, the yield is 40% lower (35.4 t / ha). The yield increase due to the use of mineral fertilizers N ₉₀ P ₄₅ in the irrigation variant of 70-80-70% HB amounted to - 6.6 - 8.9 t / ha or 23.2-28.2% and at N ₁₅₀ P ₈₀ kg / ha a.a. - 16.8-18.7 t / ha or 59.2-58.9%. On the irrigation variant of 75-85-75% HB with a mineral nutrition level of N ₉₀ P ₄₀ kg D.V. / ha, it was significantly higher - 12.5-14.4 t / ha or 37.0-37.9%, and at N ₁₅₀ P ₈₀ kg / ha - 24.0-24.5 t / ha or 64.5-73.0%. The increase due to increase in soil moisture averaged 5.5–12.0 t / ha for the experimental variants.

As experiments have shown, the cost of irrigation water for the formation of 1 ton of the crop of watermelon fruits increases with an increase in the pre-irrigation moisture threshold. So, while maintaining soil moisture at a level of 75-85-75% HB and a background of mineral nutrition N _{90 ... 150} P _{45 ... 80, the} specific consumption of irrigation water is 37-74 m ³ / t, which is 38-42% less compared to control option. Saving water on the formation of a unit of production when applying nitrogen-phosphorus fertilizers is 45-62% (table. 3).

Cost effectiveness

The highest yield of watermelon fruits (58.6 t / ha) and the maximum net income (about 200 thousand rubles / ha) are ensured while maintaining the pre-irrigation soil moisture at the level of 75-85-75% HB in combination with fertilizers with the norm of Ν ₁₅₀ Ρ ₈₀ . Moreover, the profitability index exceeds 2.0.

Thus, the claimed method of cultivating watermelon in a drip irrigation system ensures the achievement of the specified technical result.

Claims (4)

1. A method of cultivating watermelon under drip irrigation under arid conditions, including stubble cultivation, plowing with or without turnover, harrowing, sowing according to the 2.1 × 1.4 m pattern in rows, layout of irrigation pipelines with outlets of drip irrigation systems, vegetation irrigation with a differentiated regime of irrigation, fractional application of mineral fertilizers with irrigation water, weed control in aisles. 2. The method according to p. 1, characterized in that the width of the distance between the lines of drip irrigation pipelines is 4.2 m 3. The method according to p. 1, characterized in that the differential irrigation mode is adapted to the needs of watermelon plants: 70-80-70% of the lowest soil moisture capacity (irrigation rates of 21, 42, 84, 126 and 168 m ³ / ha) - obtaining a fruit crop of 40 t / ha and 75-85-75% HB (irrigation rates of 42, 84, 105 and 126 m ³ / ha) - for a crop of 60 t / ha. 4. The method according to p. 1, characterized in that mineral fertilizers are applied under the planned yield level of watermelon fruits at a level of 40 and 60 t / ha, in a total dose of N ₉₀ P ₄₅ and N ₁₅₀ P ₈₀ , respectively, with fractional introduction of nutrients with irrigation water throughout the growing season.