SU1011088A1 - Method of growing hypophthalmichthys molitrix - Google Patents

Abstract

1. WAY OF CULTIVATING WHITE. TOLSTOLOBIK, which provides for pretreatment of the water of the reservoir and the earing of its white silver carp larvae, is also distinguished by the fact that, in order to make fuller use of the reservoir resources, to increase its productivity, while saving mineral fertilizers and creating favorable conditions for growing, Pretreatment of the reservoir water is carried out with chlorophos, a concentration of 1: 750000-1: 1000000, followed by keeping the reservoir in a stagnant mode for 8-12 days, then a green microfiber culture is introduced into the reservoir have grown in number. 0.3-0.6 g / m and stocking was carried out 10-15 days after the microalgae were introduced by the larvae, the mass. 30-60 mg with a planting density of 2000-10000 pcs / ha. 2. The method according to p. 1, about t l and h aa- / L i and so that the culture of micro | Algae contains Scenedesmus jguadrfcanda, Chlamidonwnas sp. and chlorella sp.

Description

00 00 The invention relates to fish farming, in particular to methods of growing silver carp, and can be used in the cultivation of this fish in pond farms. There is a known method of growing white silver carp, the essence of which is that the water in the pond is pretreated, and then larvae are brought into the pond, cultivated. For water treatment, it is passed through trap collectors in the form of a bag of caproic gas, which prevent the predatory forms of zooplankton from forming in the reservoir, as a result of which more favorable conditions are created for fish f 1. There is also known a method of growing white silver carp, according to which it is grown in a polycult with carp and other plant-based fish, and in the process of growing they fertilize ponds with mineral fertilizers, add CI every 7-10 days for the most effective development of a natural food base. This blend prevents the creation of the microalgae community, which is most favorable for white silver carp, which reduces the results of cultivation. The closest to the proposed technical essence is the cult of white silver carp cultivation, which preliminarily treats the water of the reservoir by passing water through the trap and depositing mineral and organic fertilizers. J. J. However, this method requires a large consumption of fertilizers, and significant quantities of biogenic elements of low-value species of algae, which does not guarantee the directed formation of the most beneficial natural properties of itoplankton, an edible value for white carp. In addition, the use of the method n eliminates the deterioration of the hydrochemical regime of the reservoir due to the massive development of blue-green algae and sometimes significant accumulation of toxic substances that are the product of metabolism. The purpose of the invention is to more fully utilize the resources of the reservoir, increase its productivity while saving mineral fertilizers and creating favorable conditions for cultivation. The goal is achieved by the fact that according to the method of growing white silver carp, which involves pretreatment of the water of the reservoir and stocking it with larvae of the white silver carp, the preliminary treatment of the water of the reservoir is carried out with chlorofos, the concentration of .0001: 1,000,000, followed by keeping the reservoir in a non-flowing mode for 8-12 days, then a green microalgae culture in the amount of 0.3-0.6 g / m is introduced into the pond, and the stocking is carried out 10-15 days after the microalgae were introduced by the larvae weighing 30-60 mg at. planting density of 2000-10000 pcs / ha. In addition, it is advisable to include in the culture of microalgae Seenedesmus guadricanda, Chlamidomonas sp. and Chlorella sp. The method is carried out as follows. 4. The reservoir in which the white silver carp is supposed to grow is treated with chlorophos at a concentration of 1: 750000-1: 1000000 depending on the specific conditions, after which the reservoir is kept in a stagnant mode for 8-12 days to decompose chlorophos and seed into it cultures of green microalgae, which are the most valuable in terms of food at the rate of 0.3-0.6 g / cm, depending on the volume of the reservoir, grow microalgae to their mass development of 10-15 / days, during which the phytoplankton biomass reaches about 10 g / m, and then stocked by larvae weighing 30-60 mg calculated 200 010 000 pcs / ha, with the culture, the microalgae comprises Scenedesmus guadricanda, Chlamidcmonas sp. and Chlorella sp. An example. In the spring, in the middle of April (in the conditions of Belarus), a 20-hectare body of water is treated with chlorophosphate, a concentration of 1: 75QOOO, sufficient to destroy even the blue-green algae, the most resistant in this respect, bacterioplankton and zooplankton, withstand the water in 3101 non-flowing mode 10 days at a water temperature not lower than I C, sufficient for the natural decomposition of chlorophos, and then the initial dose of green microalgae, including Scenedesmtis guadxicanda, Chlamidomonas sp, ChlOrellq, sp. of, Q, k g / m, and they are grown for 12 days sufficient for algae to reach a biomass of 10 g / m. At the end of the larva of the silver carp, planted to 40 mg, are planted in a pond at a density of planting of 3000 pieces / ha that further allows for breeding work with the obtained segalets. If white silver carp is cultivated for the purposes of commodity production, then higher planting densities are possible, up to 10,000 pcs / ha. In the process of further cultivation of fish in a reservoir, every TS days, the necessary amount of mineral fertilizers is introduced - based on biological needs, thereby creating the most favorable conditions for the further development of introduced cultures of green microalgae. The amount and type of mineral fertilizers required for application is calculated according to conventional methods. With a decrease in temperature, water until fertilization is stopped due to a drop in the intensity of the feed; fishes. According to the example, it is possible to obtain a productivity of 15. C / ha with a piece mass of fingerlings up to 60 mg, with a commodity cultivation with a planting density of 1000 w / ha - up to 20 c / ha. When using the method, an economic effect of 800 rubles per 1 hectare of pond area can be obtained. . . The application of this method allows to obtain a large increase in fish due to the directional formation of the qualitative composition of phytoplankton and the cultivation of those algae that are most valuable. food relation to white carp.

Claims (2)

1. METHOD FOR GROWING WHITE HARBOR, which provides for the pretreatment of the water of the pond and stocking it with the larvae of the white silver carp, distinguished by the fact that, in order to more fully use the resources of the pond, increase its productivity, while saving mineral fertilizers and creating favorable conditions for growing, preliminary treatment of the water of the reservoir is carried out by chlorophos, concentration 1: 750000-1: 1,000,000, followed by maintaining the reservoir in a non-flowing mode for 8-12 days, then a cult is introduced into the reservoir Ura green microalgae in quantity. 0.3 “0.6 g / m ^, and stocking is carried out 10-15 days after the introduction of microalgae by larvae, mass. 30-60 mg with a landing density of g 2000-10000 pcs / ha. 2. The method according to π. 1, due to the fact that the microalgae culture contains Scenedesmus jguad iganda, Chiamidomonas sp. and 'chlorella sp. 8801 SOUTH ”OS