RU2514223C2 - Method of growing of seeding material of pike perch in polycycle mode - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: for each group of producers, different deadlines of their transferal to the mode of "artificial wintering" is set during the year, so that the terms of spawning of the corresponding group occur three months after the date of spawning beginning of the previous group. The larvae are placed in larval pools with the density of 25-50 thousand pieces per m² and are grown for one month. After that, they are transferred to fingerling pools, where the growing is continued for three months, after which the grown juvenile fishes are replaced by juvenile fishes from the following group of producers.

EFFECT: method of growing seeding material of pike perch provides obtaining larvae from four groups of producers.

10 cl, 1 tbl

Description

The invention relates to fish farming, namely to the cultivation of pike perch in installations with a closed water cycle.

The closest in technical essence to the claimed is a method of artificial breeding of pike perch, including spawning of producers in conditions of water exchange, incubation in incubation containers of swept and fertilized eggs at a water exchange rate of 6 12 l / min, water temperature 10 15 ° C and pH 7 8.5, growing prelarvae before transition to active power and the release podroschennye fry ponds, manufacturers support spawning water exchange rate of 16 14 l / min, lay eggs for hatching rate of 3.5 to 4.5 million units. / m ^3, and growing a pre is carried out in larvae rearing containers, the prelarvae transferred from the incubation containers in the nursery within 30 - 40 hours after hatching and seated therein with planting density of 1.1 to 1.5 million pcs / m ³ water.. (see SU 1700802 A1, class A01K61 / 00).

The disadvantage of this method is the low productivity, as well as the long duration of the intervals between the issuance of finished products due to the uneven loading of the pools.

The objective of the invention and the technical result caused by it is to increase the productivity of growing planting material, and the uniformity of its production, up to quarterly, due to the multi-threading of growing planting material and uniform use of growing pools throughout the year, as well as ensuring a uniform load of exometabolites on biofilters, increasing their stability work. "

To achieve a technical result in the method of growing planting material for pikeperch, which consists in spawning producers and growing larvae, larvae are obtained from four groups of producers, different periods of output to the regime of “artificial wintering” are set for different groups of producers throughout the year so that the spawning periods of the corresponding group came three months after the start of spawning of the previous group, the larvae are planted in larval pools with a density of 25-50 thousand pieces / m ² , and grown for a month, after which they are transferred to fry pools, where cultivation lasts three months, after which the grown fry are replaced by fry from the next group of producers.

Besides

- larvae are obtained from four groups of producers of the same generation;

- when fry reach an average weight of 1, 3, 10 g, fry are sorted into three groups of fry: large, medium in size and fish lagging behind in growth;

- carry out feeding of larvae with live and artificial starting feeds;

- larvae from larval pools are transferred to fry pools by siphons or using basins;

- they feed the fry in fry pools exclusively with artificial feed, while over the course of three months of cultivation, the size composition of the feed is gradually changed to a larger fraction;

- four groups of producers form from one generation the producers who grow and operate in the cyclic mode, put each formed group of producers into the “artificial wintering” mode annually at a time three months from the date of the previous group switching to the “artificial wintering” mode, so that the spawning period in the corresponding group occurs three months after the spawning of the previous group.

- grown fry are transferred to the regime of commercial cultivation in the respective pools;

- the daily dose of live feed for larvae is 50-100%, artificial starter feed for larvae up to 10%, fry weighing up to 1 g 6 - 8%, up to 3 g - 5%, up to 20 g -3%;

- replacement of the grown fry by fry from the next group of producers is carried out in the corresponding fry pools.

A method of growing planting material of pike perch is as follows. Spawners of producers who are grown in the cycle mode are spawned so that each of the four groups of producers of the same generation spawned at different times of the year and occurred every three months. The resulting larvae are grown for a month in larval pools, where they are planted with a density of 25-50 thousand pcs / m ² , after which the larvae are transferred by siphons or using basins to fry pools, where fry are grown for three months. When fry reach an average weight of 1, 3, 10 g, fry are sorted into three groups of fry: large, medium in size and fish lagging behind in growth, after three months of cultivation, fry pools are freed from fry, which are transferred to commodity rearing mode. To grow fry, one and the same group of pools is used, in which fry obtained from groups of producers are planted, the interval between the spawning periods of which is three months.

Larvae are fed with live and artificial starter feeds, and fry in fry pools are fed exclusively with artificial starter feeds. Moreover, over the course of three months of cultivation, the size composition of the feed is gradually changed to a larger fraction.

A method of growing planting material of pike perch is implemented as follows.

The method is based on the possibility of quarterly procreation of offspring of zander producers operating in the polycycle mode. At the same time, four groups of manufacturers of one generation are formed and they are operated separately. Each group of producers is taken out for spawning at terms that are 3, 6, and 9 months behind the terms of spawning of other groups, so that the terms of spawning occur on a quarterly basis.

The most responsible and biotechnically difficult stage of cultivation occurs in the first month. By the end of this stage, zander larvae reach an average weight of 10 mg. For further cultivation, they are transferred to larger pools, increase the water level, and reduce planting density. Therefore, larval (1st month of growing) and fry (three subsequent months of growing) are distinguished in the structure of the pools.

The operation of larval pools involves their use 4 months a year. Given the high density of planting of pikeperch larvae 25-50 thousand units / m ² ; their share in the total balance of growing basins is insignificant. This also does not affect the “biofilter operation” mode. The main load on the water treatment system of installations with a closed cycle of water supply, primarily the biofilter, is caused by maintenance of fry pools. This group of pools constantly and evenly loads the work of biofilters with exometabolites secreted by fish.

Example

For growing planting material, a generation of producers is obtained, and generations of producers are formed annually. Within one generation of producers, four groups of manufacturers are formed, which operate in the polycycle mode. The implementation of the method is achieved as a result of the constant use of offspring from 4 groups of producers in order to grow a conditional 20 g of planting material.

When focusing on the usual dates for obtaining offspring of pike perch (April-May), which is consistent with its environmental features, as well as taking into account the initial stage of the formation of brood pike perch in plants with a closed water supply cycle, spawning of pike perch takes place in November (1st group of producers) , February (2nd group of manufacturers), May (3rd group of manufacturers), August (4th group of manufacturers).

Further domestication of zander in plants with a closed water supply cycle allows us to form a different time schedule for procreation while maintaining the structure of the broodstock and growing planting material.

The table shows the schedule for growing planting material of pike perch in the cyclic mode, focused on the timing of procreation in November, February, May and August.

As a result of using the method, the effect of fourfold use of one group of fry pools during the year is ensured.

Larvae of pikeperch obtained as a result of spawning of producers in November in larval pools - on spawning nests or by the industrial method - incubation in Weiss apparatuses, are grown for a month on live and artificial starting feeds. At the end of the month, larvae are transferred by siphons or using basins for further cultivation into fry pools. In the fry pools, larvae at the first stage continue to be fed with a mixture of live and artificial starter feeds, and then completely transferred to artificial feed. Over the course of three months of cultivation, the size composition of the feed is gradually changed to a larger fraction.

In order to avoid cannibalism and to maintain a more even growth of fish, sorts are carried out when young zander reaches an average weight of 1, 3, 10 g. Sorting involves the allocation of three groups of juveniles: large, medium in size and lagging fish in growth.

At the age of 4 months, pike perch fry received from the first group of producers reach an average weight of 20 g and are transferred to other pools, providing, for example, the production of marketable fish. Fry pools are freed. By this time, in the larval pools, an average weight of 10 mg of larvae obtained from the 2nd group of producers spawning in February is reached.

These larvae are transferred to fry pools. Then, after three months, fry pools are caught and monthly larvae obtained from the 3rd group of producers, which spawned in May, are planted in them. The annual cycle of growing planting material for pike perch ends with the cultivation of monthly larvae planted in them in fry pools in September-November, obtained from the 4th group of producers that spawned in August.

The method of growing planting material for pike perch in installations with a closed water supply cycle differs from the traditional method of growing in ponds with complete autonomy, its implementation is not subject to the negative effects of natural and environmental factors. This method allows the greatest degree to realize the biological potency of juveniles (growth, vitality). The fish productivity for planting material per m ^{2 is} more than 8000 times higher than that obtained in ponds (fish productivity for one growing cycle in plants with a closed water supply cycle of at least 20 kg / m ² , for 4 cycles 80 kg / m ² , in ponds for the growing season - up to 100 kg / ha).

The invention provides for the formation of a regular, uniform production of planting material for pikeperch during the year and the repeated use of pools for growing larvae and fry.

The method of growing planting material of pikeperch in the cyclic mode provides an increase in the productivity of growing planting material, and the uniformity of its production, up to quarterly, due to multithreading of growing planting material and uniform use of growing pools throughout the year, as well as ensuring a uniform load of exometabolites on biofilters, increasing their stability "Work".

Claims (10)

1. A method of growing planting material for pike perch, which consists in spawning producers and growing larvae, characterized in that the larvae are obtained from four groups of producers, while for different groups of producers they set different periods for putting them on the “artificial wintering” mode during the year, so that the spawning period of the corresponding group occurs three months after the start of spawning of the previous group, the larvae are planted in larval pools with a density of 25-50 thousand pcs / m ² and grown for a month, after four they are transferred to fry pools, where cultivation is continued for three months, after which the grown fry are replaced by fry from the next group of producers. 2. The method according to claim 1, characterized in that the larvae are obtained from four groups of producers of the same generation. 3. The method according to claim 1, characterized in that when the fry reach an average weight of 1, 3, 10 g, the fry are sorted into three groups of fry: large, medium-sized and lagging fish in growth. 4. The method according to claim 1, characterized in that the larvae are fed with live and artificial starting feeds. 5. The method according to claim 1, characterized in that the larvae from larval pools are transferred to fry pools by siphons or using basins. 6. The method according to claim 1, characterized in that the fry are fed in fry pools exclusively with artificial feed, while over three months of cultivation, the size composition of the feed is gradually changed to a larger fraction. 7. The method according to claim 1, characterized in that the four groups of producers form from one generation the producers who grow and operate in the cyclic mode, each formed group of producers is brought to artificial wintering mode annually at a distance three months from the withdrawal date the regime of “artificial wintering” of the previous group, so that the spawning dates in the corresponding group occur three months after the spawning of the previous group. 8. The method according to claim 1, characterized in that the grown fry are transferred to the mode of commercial cultivation in the respective pools. 9. The method of claim 1, characterized in that the daily dose of live feed for larvae is 50-100%, artificial starter feed for larvae up to 10%, fry weighing up to 1 g 6-8%, up to 3 g - 5%, up to 20 g - 3%. 10. The method of claim 1, characterized in that the replacement of the grown fry with fry from the next group of producers is carried out in the corresponding fry pools.