RU2539206C1 - Method of growing vegetables and gourds - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of growing vegetables and gourds comprises placing the seeds in a mixture of soil and fertiliser in the pot decomposing in soil, seed germination and embedding the pot into the soil. The pot is made of clay minerals with sorption and ion-exchange properties. The fertiliser is used as sorption-active silt deposit recycled by enzyme-cavitation method. Before placing in a pot the seed is soaked in electrochemically activated solution, after which the mixture of soil and fertiliser is adjusted to a moisture content of 70-80%. Along with this, the further is additionally used as granular minerals-ionites. In preparation of the activated solution the concentrate of liquid complex fertiliser is added to the source water in an amount of 2-3% by volume. During the vegetation period of vegetable crops they are watered with the activated water.

EFFECT: method of cultivation of vegetables and gourds provides obtaining stable yields under dry conditions and on poor lands with limited crop rotations, reduction of the anthropogenic load on the soil, saving the seed material and fertilisers, improving the consumer properties of fruits of cultivated crops.

4 cl, 6 dwg

Description

The invention relates to agriculture, namely to vegetable growing and melon growing, and can be used for growing various plants in the presence and absence of regular irrigation.

There is a known method of cultivating a nutty lotus in containers, according to which seeds or rhizomes are planted in containers partially filled with a prepared substrate, after planting and plant development they are filled with water, mineral fertilizers are applied during flowering and ripening of plants (RU 2479984 C1, IPC A01G 9/00 (2006.01), 2011).

The technical disadvantage of such methods: limited scope - the ability to use only when there is water in containers for hygrophilous crops.

A known mixture for the manufacture of pots for seedlings, including tobacco dust (70-80%), sawdust, manure, sand and mineral fertilizers, the pot decomposes in the soil (RU 2379880 C1, IPC A01G 9/10 (2006.01), 2008).

The technical drawback of such a mixture is its extremely limited scope, since tobacco dust is a waste of the production of tobacco factories, the amount of which is insignificant.

There is also known a method of growing vegetable crops, including cutting a groove in the soil, placing organic mulch in it, installing a tray on it, sowing seeds or planting seedlings through holes in the bottom of the tray, watering plants (RU 2322041 C1, IPC A01G 1/00 (2006.01) , 2006).

The technical drawback of such methods: the inability to use in the absence of watering, the development of the root system of plants in an environment without fertilizers is below the mulch layer (Fig. 1), the lack of means and methods of additional stimulation of plants due to, for example, presowing seed soaking in an active medium and the use of non-traditional fertilizers and loose minerals with limited crop rotation.

Technical task: expanding the scope by growing plants in the absence of regular irrigation, maintaining soil fertility with limited crop rotation.

Effect: obtaining stable yields and acceptable consumer properties of cultivated crops while reducing anthropogenic impact on the soil.

According to the invention, a method of cultivating vegetables and melons and gourds includes placing the seed in a mixture of soil and fertilizer in a pot decomposing in the soil, germinating the seed and planting the pot in the soil; the pot is made of clay minerals with sorption and ion-exchange properties, sorption-activated sludge processed by the enzyme-cavitation method is used as fertilizer, the seed is soaked in an electrochemically activated solution before being placed in the pot, after which the soil and fertilizer mixture is brought to a moisture content of 70-80 % Along with this, bulk ionite minerals are also used as fertilizers; when preparing the activated solution, concentrate of liquid complex fertilizer is added to the source water in an amount of 2-3% by volume; during the growing season of vegetable crops, they are irrigated with activated water.

The method of cultivation of vegetables and melons is illustrated by drawings, where figure 1 shows a pot of clay minerals; figure 2 - filling the pot with a mixture of soil and fertilizer; figure 3 - placement of the seed in a mixture of soil and fertilizer (in a pot) after soaking the seed in an activated solution; figure 4 - increase the humidity of the mixture of soil and fertilizer in a pot; figure 5 - seed germination in a pot; figure 6 - incorporation into the soil of a pot with a sprout.

The method of cultivation of vegetables and gourds is implemented as follows.

For the manufacture of pots (figure 1) use mainly natural local agro-ore - clay minerals with sorption and ion-exchange properties. For example, for the conditions of the Lower Volga region, where vegetable and melon crops are grown in large volumes, Khvalyn clay, which covers about 40% of the territory of this region, can be used. Khvalyn clay contains large amounts of SiO ₂ (up to 60%) and Al ₂ O ₃ (20-30%), potassium K ₂ O, magnesium MgO and other components, as well as calcium carbonates (up to 10%). In Khvalyn clay, the clay fraction is in the range of 31-56%, which indicates a high physical and mechanical activity of the clay. Among the exchangeable cations in Khvalyn clay, Na ⁺ , Ca ²⁺ , Mg ²⁺ prevail, this confirms the high ion-exchange activity of clays and their beneficial effect on soil biota. Khvalyn clay also has sorption properties - it is able to absorb and retain moisture; in nature, clays are water-resistant, and when used to make pots, they retain the initial moisture and also “attract” moisture from the side. In the manufacture of pots, clay and minerals can add dried and ground organics, such as straw residues.

The description of the method is given below on the example of pumpkin cultivation. Before sowing its seeds, the pot is filled with a mixture of soil and fertilizers (figure 2). As fertilizers, sorption-active sludge sediment processed by the enzyme-cavitation method is used. The named method provides for the generation of low-intensity cavitation in the processed substrate, enrichment of the substrate with oxygen and the creation of conditions for the rapid development of microorganisms, in particular enzymes. As a result, the sediment contains organic matter available to plant roots (15-16%), common forms of nitrogen, phosphorus, potassium, mobile sulfur, and nutrients. Such a precipitate has tremendous sorption activity - after it is introduced into the soil as a fertilizer, air and moisture are accumulated from the atmosphere and retained for a long time (even in conditions of acute drought). In addition, loose natural minerals, such as glauconite and / or bentonite, are used as fertilizers. Recommended ratio of soil and silt sediment 1: (0.5-1.0); silt sludge and ion-exchange minerals 1: (0.1-2.0). Silt sediment is present in excess quantities in each city; in the future, sediment will be processed by the enzyme-cavitation method. Bulk ionite minerals are a common local raw material.

Before embedding in a mixture of soil and fertilizer, the seeds are soaked in an electrochemically activated solution. To do this, concentrate liquid complex fertilizers (HCF) in the amount of 2-3% by volume (experimentally determined) is added to the source water. After activating the solution, anolyte with HCF and catholyte with HCF are obtained. Soaking seeds can be carried out in one of the above media, for pumpkin a slightly greater effect is achieved by soaking in anolyte with housing and communal services. For each culture, the optimal soaking time is experimentally determined, for pumpkin seeds it is 6-8 hours. Immediately after soaking - without drying - the seeds are planted in a mixture of soil and fertilizers in a pot at the depth recommended for this crop, after which the mixture is a little tamped (Fig. 3).

Next, the mixture of soil and fertilizer in the pot is watered once - the moisture content of the mixture is brought up to 70-80% (figure 4). As a liquid for irrigation use obtained, but not involved in soaking, catholyte with housing and communal services. It is permissible, but undesirable, to irrigate with ordinary water. Soaked and swollen seed is in an active and humid environment and therefore sprouts quickly (Fig. 5). In isolated cases, pots with seed that did not give a sprout are not used in the future.

On the field where the prepared pots with sprouts are to be placed, a minimum dose of organic fertilizers is introduced and cultivation is carried out. Upon reaching the optimum field temperature — in the soil layer up to 10 cm — the pots with the plant sprout are embedded in the soil (Fig. 6). Compared with traditional technologies, the distance between rows and the distance between plants in a row is recommended to be doubled. For pumpkins, these distances can be taken 3 × 3 meters.

During the growing season, whips of pumpkin plants can form their small roots, this is permissible. But the main food plants receive from the root system in pots. The pots themselves will gradually decompose in the soil and become an additional source of nutrition for roots and soil microorganisms. Sorption-active sludge sediment and ionite minerals in pots, as well as clay minerals of the pots themselves with sorption and ion exchange properties provide:

- accumulation from the atmosphere and long-term retention of air and moisture;

- increased ion exchange between the parent soil (arable land) and the named ion exchangers, supplying the rhizosphere around the roots with a set of trace elements;

- improving the structure and water-air balance of the mixture of soil and fertilizers around the root system;

- stimulating effect on soil microflora;

- migration of active particles of the nanoscale from the sprouted seed and roots to the stems (lashes) and fruits.

Thus, when cultivating vegetables and melons according to the proposed method, an intensive and varied nutrition of the root system is achieved not due to fertilizers and “stimulating additives” throughout the field, but directly in the places where seeds are sown in the soil (in pots). This is especially important when cultivating gourds, for which the distance between rows and the distance between plants in a row increases and can reach 3 meters. Corresponding distances for vegetable crops are also increasing. Gourds are heat-loving and heat-resistant, therefore, the initial moisture in the pots and the moisture that sludge and ionite minerals accumulate is sufficient for the entire vegetation cycle of these plants. In a dry summer, it is advisable to water vegetable crops several times a season - in addition to those “stocks” created by the contents of the pots and the pots themselves. But it is advisable to carry out watering not throughout the field, but directly under the root; an additional effect is recorded if the irrigation is carried out not with ordinary, but with activated water - catholyte without a liquid utilization complex (claim 4).

Along with this, a significant effect is achieved due to the pre-sowing soaking of seeds in an electrochemically activated solution - anolyte with ZhKU. When soaking, the seed - its germ and endosperm - is saturated with active and biogenic particles of the nanoscale. After embedding the soil and fertilizers in the mixture - immediately after soaking, as well as after watering the contents of the pot with catholyte with housing and communal services, the seed, and then the roots, stems (lashes) and fruits are exposed to these particles. This contributes not only to the intensive development of plants, but also to their “healing” by suppressing pathogenic spores and viruses.

As a result, the proposed method provides stable crops in arid conditions and on poor lands - with limited crop rotation, a decrease in the anthropogenic load on the soil, saving seed and fertilizers, and increasing the consumer properties of the fruits of cultivated crops.

Claims (4)

1. A method of cultivating vegetables and melons, including placing the seed in a mixture of soil and fertilizer in a pot decomposing in the soil, germinating the seed and planting the pot in the soil, characterized in that the pot is made from clay minerals with sorption and ion exchange properties, using fertilizers processed by the enzyme-cavitation method, the sorption-activated sludge, before placing in a pot, the seed is soaked in an electrochemically activated solution, after which a mixture of soil and fertilizer adjusted to a moisture content of 70-80%. 2. The method according to claim 1, characterized in that as fertilizers additionally use bulk minerals-ion exchangers. 3. The method according to claim 1, characterized in that when preparing the activated solution, a concentrate of liquid complex fertilizer is added to the initial water in an amount of 2-3% by volume. 4. The method according to claim 1, characterized in that during the growing season of vegetable crops they are irrigated with activated water.

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