SU1242079A1 - Method of diagnosis of intracranial complication in chronic otitis media purulenta - Google Patents

Description

The invention relates to the fishing industry, in particular to methods of keeping fish during transportation, and can be used to reduce the harmful effects caused to aquatic animals by various stressful effects, mainly related to their transportation for sale in a living form, for introduction into natural water bodies. at acclimatization or at commodity cultivation.

The aim of the invention is to increase the survival of fish during long shipments. When using the proposed method, there is practically no waste during transportation.

The method allows to alleviate the stress state by preventing desalting of the fish organism by creating an optimal and time-controlled concentration of sodium chloride solution (NaCl) followed by replacing this solution with calcium chloride solution (CAC), taking into account the species characteristics and age of the fish.

The method is implemented as follows.

Carp (Cyprinus carpio L.)

130 - 135

125 - 128

Bream

130 - 135

125 - 128

Pike

140 - 145

135 - 138

Perch

150

145 - 148

Such a concentration of sodium chloride can relieve stress in fish caused by catching and loading into vehicles or live fish cars. With such a concentration of solution, the osmotic pressure in the environment does not exceed that in the body of the fish and does not cause its desalination.

When transporting more than 2-5 hours for juveniles and 5-10 hours for adult fish, a solution of sodium chloride in containers after

The fish is first transported in a solution of sodium chloride (NaCI), the concentration of which is 3-5 mEq / l lower than its concentration in the blood plasma of the fish species transported, and the period of keeping the fish in a solution of sodium chloride for young fish is 2-5 hours. for adult fish - 5-10 hours, then a solution of sodium chloride within 1-2 hours is replaced with a solution of calcium chloride (CaCl2), in which the fish content continues until discharge, the discharge is again performed in a solution of sodium chloride of the same concentration , with the period of secondary content of fish in this ra The solution is for juveniles up to 2 hours, for adults up to 5 hours, after which the sodium chloride solution is again replaced with calcium chloride solution.

During the first hours (for young, they are 2–5 hours, for adults, 5–10 hours) freshwater fish are transported in a sodium chloride solution (with air supply), with a concentration of sodium chloride 3–5 m9kV / l lower than the concentration of sodium ion (Na) in the blood plasma of the fish species transported (table).

Adults to 5 Youngs up to 3

Adults to 1 O Young up to 5

Adults to 5-6 Youngsters to 2-3

Adults to 6 Youngs up to 3

warmly, within 1-2 hours (so as not to cause additional stress by cutting m. by shifting the composition of the medium), is replaced by a calcium chloride solution. The concentration of calcium chloride is adjusted to 50 mg / l. Calcium chloride in this concentration, namely calcium ions (Ca), reduces the release of sodium ions (Na) from the body of fish, which makes the fish more viable. Further transportation is continued in this solution. Upon completion, if not immediately implemented

fish, unloading is made again in sodium chloride solution of the same concentration as during loading, to relieve new stress associated with the unloading process. The re-incubation time in sodium chloride solution is up to 2 hours for juvenile fish, and up to 5 hours for adults. The incubation time in sodium chloride solution during unloading is reduced compared with the fish retention time during loading, as the fish are already out of stress faster, due to training After the fish are kept in a solution of sodium chloride, it is gradually replaced again within an hour with a solution of calcium chloride, in which the subsequent content of fish occurs. Example 1. 120 instances of 6-year-old bream were caught. The content of sodium ions (Na in the blood plasma of bream was 132.5 mEq / l. Bream, 60 pcs., Were planted in two tanks, which contained river water with sodium chloride up to 128 mEq / L of sodium chloride. Air was supplied to both tanks. The transportation time was 8 hours. Then, over 2 hours, the sodium chloride solution in one container was gradually replaced with calcium chloride solution with calcium chloride concentration of 50 mg / l, and in the second container, the solution was again replaced with the same solution (control). transportation lasted another 6 hours The control fish was unloaded into the freshwater pool, and the test fish was loaded into the pool with a sodium ion content of 128 meq / l. 5 h after the fish were unloaded, the water in the control pool was replaced with fresh water within 1 h and salt water in the experimental pool the solution was replaced with water with calcium chloride. Later, the fish were kept in these media for a month. In the control, a departure of 63% of fish was observed. In the experiment, the withdrawal was 1.7%.

Example 2. After catching on cars they transported 4000 fingerlings of carp. Of these, 3,500 carps were loaded into a tank containing 125 mEq / l of sodium chloride. The remainder of the fish was immersed in the solution.

sodium chloride the same concentration. Air was applied to all containers. After 3 hours of transportation in a tank with a large amount of fish, the solution of sodium chloride was gradually replaced by a solution of calcium chloride with a concentration of up to 50 mg / l over 1.5 hours,

something in another container did not. Thereafter, further transport was carried out, which continued for 24 hours. After the end of transportation, 3500 fish were planted in a pool containing sodium chloride, as in a shipping container. After 2 hours of keeping the fingerlings in a solution of sodium chloride, the latter was replaced by a calcium chloride solution with a concentration of up to 50 mg / l.

Fish that were transported only in a solution of sodium chloride, immediately discharged into a solution of calcium chloride of the same concentration. During transportation and in the course of further maintenance of fish according to the proposed method, mortality was not observed, while the mortality of fish transported in a solution of sodium chloride was 78%. The main part of the fish in this case died during the transportation and in the first week after it.

Claims (1)

METHOD OF FISH CONTENT FOR TRANSPORTATION, including loading fish into a solution of sodium chloride, characterized in that, in order to increase the survival of fish during prolonged transport, it is immersed in a solution of sodium chloride, the concentration of which is 3-5 meq / l lower than the concentration of Na ion ⁺ in the blood plasma of fish, and they contain juveniles for 2-5 hours, and adult fish for 5-10 hours, then a solution of sodium chloride for 1-2 hours is replaced with a solution of calcium chloride with a concentration of up to 50 mg / l, in which the fish continues to be uploaded, the narrow is again produced in a sodium chloride solution of the same concentration as during loading, the period of secondary fish keeping in this solution is up to 2 hours for juveniles, up to 5 hours for adults, after which the sodium chloride solution is again replaced by a solution of calcium chloride and it contains fish until its implementation. SU ,, „1242079