RU2132123C1 - Legumes cultivation method - Google Patents

Abstract

FIELD: agriculture, in particular, plant growing and amelioration. SUBSTANCE: method involves applying organic fertilizer in the form of litter manure at the rate of 18-22 t/hectare prior to planting; planting beans into soil during the period from the end of July up to the beginning of August; providing soil water conditions by drop irrigation on an account of 5-6 l/hour at irrigation norm of 65-260 cu m/hectare and irrigation intervals of 4 days; feeding mineral fertilizers during 1st and 5th leaf phases. Method allows legumes to be repeatedly cultivated in the second half of summer, when precipitations onto soil surface are hardly possible. EFFECT: increased efficiency, simplified method and improved legumes yield. 6 ex

Description

 The invention relates to the field of agriculture, namely to the field of crop production and land reclamation.

 The creation of various irrigation regimes for legumes in the irrigation area and the absorption of soil moisture by plants increases or decreases the productivity of legumes depending on the amount of water supplied and the duration of irrigation (Chile, Inst. De Investigaciones Agropecanrias, Santiago de Chili. 5B4.115. Ref. "Crop production" 5/95 g, p. 14).

 And also the influence of moisture reserves in the soil on the development and productivity of beans, which is grown on carbonate chernozem, is known. Beans are planted in the soil in early spring to a depth of 2 - 4 cm, fertilizing plants with mineral fertilizers is done, the whole range of agrotechnical measures adopted for this crop is carried out. It was found that the moisture content of the soil significantly affects the yield of beans. With good soil moisture in the autumn-winter and spring periods, bean plants have a high height and form a larger number of beans. With limited water reserves in the autumn-winter period, but reaching a normal level of reserves in the spring, prerequisites are created for obtaining satisfactory yields (Bulgaria, 09.09.04 B4.201. Abstract. Journal of Plant Growing N 9, 1996, p. 28 - prototype).

 The disadvantages of the method are: limited moisture reserves in the autumn-winter period, which negatively affect the productivity of the beans, while the number of beans in the pod decreases, the growing season of the plant decreases, the quality of the beans deteriorates, etc. The nutrition of NPK plants in this water-air regime in the soil is difficult. The climatic conditions of the region with this method of cultivation of legumes can adversely affect the productivity of these crops. And consequently, the impossibility of obtaining two crops of this crop.

 The technical solution to the problem is to create a method for re-growing legumes in the second half of summer during irrigation, when precipitation on the soil surface is completely excluded.

The objective is achieved by the fact that, in the method of cultivating legumes, including preparing the soil on the field, planting beans 2-4 cm, using temperature and water regimes, organic fertilizer is introduced in the form of litter manure at the rate of 18-22 t / ha before planting, then planting beans in the soil is carried out at the end of July at the beginning of August and create a water regime of the soil by drip irrigation by supplying water to 5-6 l / h to plants with an irrigation rate of 65-220 m ³ / ha and an irrigation period of 4 days, while feeding with mineral fertilizers in phases 1 and 5 leaves.

 The novelty of the technology of growing legumes is to obtain two crops per year on one field.

 According to the patent and scientific and technical literature, the claimed combination of features was not found, which allows us to judge the electoral level of the proposal.

 A method of growing legumes is as follows.

 The technology of growing legumes consists in obtaining two crops per year on one field and is carried out as follows.

 In spring, the soil is prepared for crops, the growing season of which should be 3.0-3.5 months. Before planting, a provocative irrigation is carried out on the site. After germination of weed vegetation, it is removed. Then the crop is planted. Bean embedding is carried out to a depth of 2-4 cm, depending on the composition of the soil. In phases 1 and 5 of the leaves, fertilizing with mineral fertilizer is performed. Harvesting is done in the form of pods (for canning) or in the form of beans. Using this technology, you can grow not only legumes, but also other crops.

 Re-planting of crops is carried out in the second half of summer, but no later than the end of July, beginning of August, depending on the climatic conditions of the region. In the period between growing crops, soil is prepared for re-cultivation. After removing old plants, organic fertilizer is introduced into the soil in the form of litter manure at the rate of 20 t / ha.

 As a rule, the second half of the summer is arid and characterized by a small number of precipitation or almost no precipitation, therefore, a mobile irrigation system is developed on the site after planting beans. Irrigation hoses are laid between rows of culture. Micro outlets are connected to the hoses, - droppers. Watering is carried out by a drop method. For the convenience of removing weeds and loosening the soil, irrigation pipelines - hoses are located through the aisle. Droppers are installed at a certain distance from each other. In phases 1 and 5 of the leaves, the beans are fertilized with mineral fertilizers according to the scheme described above.

Obtaining a guaranteed harvest of beans in the second half of summer is provided subject to the following irrigation regime: the inter-irrigation period is set to 4 days; the duration of watering the crop is taken depending on the size of the irrigation norm; drip water discharge 5-6 l / h; water supply under the bush of a bean plant in the form of drops; the irrigation norm of beans ranges from 65 to 260 m ³ / ha.

The quality of the crop in the second half of the summer period can be changed by creating a drip irrigation regime. With an irrigation rate of 130 m ³ / ha and observing all the above requirements, the highest yield of bean beans is obtained. To obtain bean pods for conservation purposes, it is necessary to increase the growing season, which is extended by increasing the irrigation rate to 260 m ³ / ha.

 An example of a specific implementation of the method.

 Example 1. The year 1995.

Soil: carbonate chernozem, bulk density 1.1 t / m ³ . Part of the plot is covered with plastic wrap to prevent precipitation. The growing season is from late July to early October. The year is characterized as dry.

Irrigation rate: 65 m ³ / ha.

 Irrigation period: 4 days.

 Fertilizers: ammophos. It was introduced in phases 1 and 5 of leaves 120 and 100 kg / ha, respectively.

 Harvesting beans: 18.1 kg / ha (biological yield).

 Example 2. Year 1995.

Soil: carbonate chernozem, bulk density 1.1 t / m ³ . The experimental part of the site is covered with plastic wrap to prevent precipitation. The growing season is from late July to early October. The year is characterized as dry.

Irrigation rate: 130 m ³ / ha.

 Irrigation period: 4 days.

 Fertilizers: ammophos. It was introduced in phases 1 and 5 of leaves 120 and 100 kg / ha, respectively.

 Harvesting beans: 35.0 kg / ha (biological yield).

 Example 3. Year 1996.

Soil: carbonate chernozem, bulk density 1.1 t / m ³ . The site is covered with plastic wrap to prevent precipitation. The growing season is from late July to early October. The year is characterized as dry.

Irrigation rate: 130 m ³ / ha.

 Irrigation period: 4 days.

 Organic fertilizers: before planting beans, litter manure was applied at the rate of 20 t / ha. Mineral fertilizers: ammophos was fed in phases 1 and 5 of leaves 120 and 100 kg / ha, respectively.

 Harvesting beans: 42 kg / ha (biological yield).

 Example 4. Year 1996.

Soil: carbonate chernozem, bulk density 1.1 t / m ³ . The site is covered with plastic wrap to prevent precipitation. The growing season is from late July to early October. The year is characterized as dry.

Irrigation rate: 130 m ³ / ha.

 Irrigation period: 4 days.

 Mineral fertilizers: ammophos was introduced in phases 1 and 5 of leaves 120 and 100 kg / ha, respectively. Also, the soil was mulched with sawdust.

 Harvesting beans: 39.6 kg / ha (biological yield).

 Example 5. Year 1997.

Soil: carbonate chernozem, bulk density 1.1 t / m ³ . The site is covered with plastic wrap to prevent precipitation. The growing season is from late July to early October. The year is characterized as wet.

Irrigation rate: 173 m ³ / ha.

 Irrigation period: 4 days.

 Mineral fertilizers: ammophos was introduced in phases 1 and 5 of leaves 120 and 100 kg / ha, respectively.

 Harvesting beans: 43 kg / ha (biological yield). In this experiment, the bean yield is higher than in the previous one, but the water consumption per unit of output is 20% higher, therefore, it cannot be taken as a basis.

 Example 6. Year 1997.

Soil: carbonate chernozem, bulk density 1.1 t / m ³ . The site is covered with plastic wrap to prevent precipitation. The growing season is from late July to early October. The year is characterized as wet.

Irrigation rate: 260 m ³ / ha.

 Irrigation period: 4 days.

 Mineral fertilizers: ammophos was introduced in phases 1 and 5 of leaves 120 and 100 kg / ha, respectively.

 Harvesting beans: 30 kg / ha (biological yield).

With an irrigation rate of 260 m ³ / ha, an intensive increase in the green mass of plants is observed. The increase in green mass reduces the yield of beans, as the ripening period of the pods and their number increase. The decrease in bean yield is limited to a warm period in the second half of summer.

 In the second half of summer, from the end of July, beginning of August, in the climatic conditions of southern Russia, it is possible to obtain a second guaranteed crop of legumes in the form of beans or pods for the purpose of preserving these products, while it is necessary to ensure drip irrigation of bean plants according to the technology described above.

Claims (1)

A method of cultivating legumes, including preparing the soil on the field, planting bean beans to a depth of 2-4 cm, using temperature conditions of air and soil, characterized in that before planting, organic fertilizer is applied in the form of litter manure at the rate of 18-22 t / ha, and then the beans are planted in the soil in late July-early August and the water regime of the soil is created by drip irrigation of 5-6 l / h of water to plants with an irrigation rate of 65-260 m ³ / ha and an irrigation period of 4 days, while they are fed with mineral fertilizers in phases 1 and 5 leaves.