RU2040884C1 - Method for growing of seedlings - Google Patents

Abstract

FIELD: agriculture and silviculture. SUBSTANCE: 10-40 days after planting and rooting of plants in a container, fertilizer is delivered to each plant in the middle part of the container. Within the entire period of vegetation the fertilizer is metered out at the rate of 8-15 mg/h in a relation of N:P₂O₅:K₂O 3:1:4 20:16:10. The fertilizer is delivered from an osmotic or diffusion device. One device may be replaced by a group of devices ensuring a preset productivity or by a group of devices metering out the individual nutrition components at the same productivity. The rated mass of nutrition elements may exceed the required amount which provides for the delivery of fertilizer also after planting the seedlings into their permanent location. EFFECT: higher efficiency. 5 cl, 4 tbl

Description

 The invention relates to agriculture and forestry, namely to nursery, and can be used for growing seedlings with a closed root system of fruit, berry, subtropical, forest and ornamental crops, grapes, and vegetable crops with container technology for growing vegetables in greenhouses.

 Known methods of growing seedlings in nurseries in the open ground for two to three years [1] However, this is obtained, as a rule, no more than 30-45 thousand seedlings per hectare. The cultivation process is extended over several years, the method is labor-intensive, not environmentally friendly and not economical. Chemicals for fertilizing fertilizers, pesticides, herbicides, defoliants, and also water are often unevenly distributed over the entire area of the nursery fields. The best fertile irrigated land is required for the nursery.

 The closest technical solution is the method of growing seedlings V.M. Wheel [2] consisting in the production of planting material with a closed root system in containers. At the same time, manual weeding and loosening of the substrate are completely eliminated, water losses are significantly reduced, and the seedlings yield reaches 500 thousand units or more per hectare per season, while the cultivation period is reduced to three to four months in protected ground and four to five months in open areas placed on unsuitable lands for agricultural use.

 The disadvantage of this method is that when fertilizing with mineral fertilizers, part of the irrigation water, along with the nutrients dissolved in it, enters the paths outside the blocks with the grown seedlings and is lost, polluting the environment. In this case, due to losses, the level of nutrition decreases and the quality of planting material deteriorates.

 The aim of the invention is to provide an optimal level of nutrition, reducing labor costs and increasing the yield of standard seedlings.

This is achieved by the fact that according to the proposed method, when preparing containers for planting material upsetting when filling it with a substrate, an osmotic or diffusion type device is installed in the middle part of the container, containing the whole complex of macro- and microelements in the ratio N: P ₂ O ₅ : K ₂ O from 3: 1: 4 to 20:16:10 with a total weight of 25-40 g (with a trace element content of up to 0.1 wt.), Providing the beginning of fertilizer supply 10-40 days after planting material is planted and dosing during the growing of fertilizer seedlings at a speed of 8 -15 mg / h.

 The nutrient mixture can be dosed with one device with the above parameters or with several devices that provide total performance and ratios that are optimal for this type of plant.

 In addition, several devices can be installed in the container, each of which contains only one battery, and during the entire cultivation period they will be delivered separately with the total capacity and in the range of ratios indicated above.

 In addition, the total mass of the substances loaded into the device or device can be more than 40 g to ensure optimal nutrition not only at the stage of growing the seedling, but also after it is planted with a lump of substrate from the container in a constant place with the device, which guarantees high growth rates, friendly development and dramatically reduces the time of entry of the plant into fruiting, which is especially important for short-cycle gardens.

 The invention consists in the following.

 When filling the container with a substrate, a dosing device weighing 25-40 g (a large mass is acceptable) containing macro- and microelements is installed in its middle part. After that, the container is completely filled with a substrate not filled with fertilizers. The container is turned upside down, an opening is made in the upper part into which the original grafted or root plant is planted, and then the container is transferred to the growing site. In the process of growing water is served either on the film, where the containers are installed, or sprayed from above. Moreover, water through the open bottom of the container due to the capillary effect of the substrate rises to the handle and the device. For 10-30 days, roots are formed on the deepened part of the handle. By this time, the device starts up and begins to dose the batteries in a predetermined ratio, ensuring the normal development of the seedling. At the same time, the total feed rate of fertilizers is 8-15 mg / h (depending on the crop). After the seedlings are ready for transplantation, the container is removed, the device remains in the coma of the substrate, and then the seedling with the lump is placed in a prepared hole and sprinkled with earth.

 According to the invention, the device or devices are installed in the middle of the container, which is associated with optimal conditions for growing seedlings. In the table. Figure 1 presents data on the survival rate in the growth rate of seedlings of apple trees of Golden Deliches variety on the M9 rootstock, depending on the depth of placement of the device in the container.

 In the table. 2 presents the results for the output of standard seedlings depending on the depth of placement of the device on the same grade.

 An analysis of the data presented in the tables shows that one of the essential features of the method is the installation location of the device in the container. Obviously, the best results are obtained when placing the device in the middle of the container.

 Another hallmark of the method is the fertilizer feed rate and the device startup time. The launch time is 10-40 days from the moment of planting the seedling due to the need to develop the root system in a sterile substrate, and, therefore, is of great importance.

 An equally important distinguishing feature of the method is the fertilizer feed rate, which should be in the range of 8-15 mg / h (depending on the type of seedlings grown). A value of less than 8 mg / h is insufficient to ensure proper nutrition of plants, and a speed of more than 15 mg / h is high, which leads to an excessive consumption of fertilizers. In the table. 3 presents data on the yield of standard seedlings depending on the rate of dosing of fertilizers.

 Comparative analysis of the data presented in table. 3 shows that with an increase in the fertilizer feed rate from 1.7 mg / h to 20.1 mg / h, the yield of standard seedlings increases and reaches 81.8%, while the proportion of grade I is at least 41%. The optimum corresponds to a dosing rate of 10, 2-15 mg / h since at lower dosing speeds the standard yield is much less. At dosing speeds above 15 mg / h, an increase in the yield of standard seedlings does not occur, and ultimately only overspending of fertilizers is observed. Similar results were obtained for other crops (berries, grapes, pear, cherry plum, etc.).

 Thus, based on the foregoing, it was found that the optimal dosage rates are those in the range of 8-15 mg / h, which allows to obtain the maximum number of standard seedlings.

 As already noted, when equipping containers according to the known method, it is necessary to place in each container up to 50 g of macro- and microelements (by the sum of salts). This operation requires significant labor and energy costs, since uniformity is achieved only with prolonged mixing of the substrate with fertilizers, and evenly the distribution is still not sufficient. According to the proposed method, this problem is solved much simpler, since it requires only one operation, which can be combined with the manufacture of containers, when the device is fixed in the middle of the container during its manufacture.

 The proposed method of growing seedlings is as follows.

A substrate is loaded into a container of polymer material with a volume of 1-4 l. A device (or devices) is installed in the middle part of the container with a total dosing rate of 8-15 mg / h (see table 4). In the closed part of the container, a hole is made into which the original plant is planted. Then the container with the open part is installed on the site, where seedlings are further grown. After installation at a fixed place, watering is provided at regular intervals (the frequency of watering is determined by environmental conditions). Moisture due to the capillary effect of the substrate enters the container to the handle and the device. 10-40 days after installation, the device begins to dose fertilizers in the ratio determined by the cultivated crop, in the range of P ₂ O ₅ : K ₂ O from 3: 1: 4 to 20:16:10. The functioning of the device continues throughout the growing season until the seedling with a root lump is planted in a permanent place. In the table. 4 shows the main characteristics of the method for some fruit and berry crops.

 Thus, the analysis of the results presented in table. 4 shows that the use of the proposed method in comparison with the prototype allows you to: increase the yield of standard seedlings; reduce the consumption of fertilizers and bring their supply to biologically necessary quantities; provide optimal plant nutrition for the entire growing season; reduce labor costs when growing planting material.

Claims (5)

1. METHOD FOR GROWING SEEDLINGS, including planting grafts, cuttings, seedlings or cuttings in containers filled with a polymer film open from the bottom, with an opening for planting a hole on top of each, caring for plants and applying fertilizers, characterized in that the fertilizers are fed into the middle part of each container 10 40 days after planting and rooting, while during the entire growing season fertilizers are dosed at a rate of 8 15 mg / h in a ratio of NP ₂ O ₅ K ₂ O from 3 1 4 to 20 16 10.  2. The method according to claim 1, characterized in that the supply of fertilizers is carried out by an osmotic or diffusion type device.  3. The method according to claim 2, characterized in that the supply of fertilizers is carried out by several devices, providing in total the specified dosing speed and the ratio of the batteries.  4. The method according to claim 2, characterized in that the dosage of each type of fertilizer is carried out by an individual device with the specified total speed and ratio of elements.  5. The method according to claim 1, characterized in that the supply of fertilizers is carried out in the substrate and after planting the plant in a constant place until it is completely rooted.

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