BG109821A - Method for biological cleaning of waters in water basins - Google Patents

Abstract

The method will find application in ecology, in particular for restoring the infringed balance of ichthyofauna and aquacultures in lakes, dams, and other water basins. It comprises operations for preconditioning through removal of a part of the fish in the water basin and subsequent controlled population of fish-predators, herbivorous and benthos eating kinds of fish, as well as of crabs and mussels.

Description

METHOD FOR BIOLOGICAL Purification of Water from Water Bodies

Technical field

The invention relates to a method for biological treatment of water and will find application in ecology, and in particular to restore the disturbed equilibrium of ichthyofauna and aquaculture in lakes, dams and other bodies of water.

BACKGROUND OF THE INVENTION

The protection of the environment from pollution, including water, is extremely relevant in all parts of the world and is a basic necessity for man and every living being.

Artificial lakes - dams, which are also major aquifers for the surrounding settlements, are closed ecosystems, in which the fluctuation of water during the spawning season of some fish is particularly negatively affected by the self-production and normal existence of the ecosystem. When the water level decreases - a normal phenomenon in dams, fish spawners remain dry and vice versa - in heavy rains they are erased. At the same time, for less demanding species such as doodles, redfin, sunfish and other species of weed fish, the created conditions remain favorable, resulting in an increase in their numbers. Therefore, over time, the composition of the ichthyofauna changes, dramatically increasing the number of inferior fish.

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Eating conditions also change in dams. Phytoplankton develops in large quantities and causes the so-called "flowering" of water, and zooplankton is enriched not only with new forms, but also increases in quantity. The development of zoobenthos in the dam depends on the hydrological regime in the summer and winter months. During the summer water fall, the shallow areas are dried up. Most benthic organisms fail to escape from the dried up areas and perish without leaving a generation.

From the above it can be seen that the formation of the ichthyofauna is a complex process in accordance with the negative specific conditions for the artificial reservoirs and if left only to its natural development will in most cases lead to the deterioration of the water status in the reservoirs due to the accumulation of biological pollutants.

Methods for purifying drinking water are known in the reservoirs - lakes, reservoirs, etc., by forming a controlled fauna, in which certain species of fish and aquaculture are introduced into lakes and reservoirs, and after a certain period of time, their removal is organized for maintaining a certain ecological ratio of the species and maintaining the good status of the waters.

There is a known method of importing certain species of catfish, pike, trout and more. This is the so-called bottom-up cleaning method. One of the enemies of the main biological water pollutant is phytoplankton zooplankton. The latter can be increased by destroying weed fish, which in turn predominantly feeds on it. This process · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · However, it is slow and is rather used to maintain clean water.

Another known method is the so-called. "Top-down method", i.e. introduction of phytoplankton fishes - white fat, white carp, etc. This method also has its drawbacks, since weed fish, when applied individually, are abundant and appear as a minor contaminant of phytoplankton.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a method for biological treatment of reservoirs by restoring the fauna and flora of the reservoir and forming a sustainable, environmentally sound system.

This objective is achieved by the method according to the invention, comprising initially carrying out a balanced removal of the fish present in the water by daily catch with mushroom and gillnets. Upon removal from the reservoir of sufficient quantities of available fish, the introduction and settlement of ® different species of fish is started, with a strictly defined ratio. Thus, predatory fish such as catfish, pike, trout, whitefish and other fish are introduced into the reservoir. Imports are also made of herbivorous species such as white carp, black carp, white carp, colorful carp, etc., as well as benthic (omnivorous) fish such as carp, tench and more. To protect the body of water from decomposing dead and diseased fish, a lake crayfish is also introduced, which handles this type of impurity well, as well as black mussel which multiplies and serves as an additional water filter.

Each of the imported fish, crustaceans and mussels represents a part of the formed population of the reservoir and has a strict «· · · 9 9 999999

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9 9 9 9 9 9 99 ··· ·· ·· ····· · · defined function and purpose. Regardless of the stocking done, the care of the environmental filter must be constant and daily. Good results can only be achieved if it is properly balanced between the "imported" and "exported" species of fish, crabs and mussels. The status of the organisms inhabiting the body of water should be monitored daily. Hydro-chemical analyzes are periodically performed.

The advantages of the method according to the invention are that:

- the "flowering" of water gradually stops;

- self-production of imported fish begins;

- there is a remarkable increase in whitefish, black carp, silver carp, trout and small-sized perch;

- material savings are achieved at the treatment plants and, consequently, means for the treatment of drinking water from the water bodies treated according to the invention.

An exemplary embodiment of the invention

The invention is illustrated by the following example, which in no way limits it.

An artificial reservoir was selected - a dam intended for providing drinking water to the population from the surrounding settlements. The total area of the dam is 360 decares with a volume of 3,100 million cubic meters of water. It is located at an altitude of 812 meters. Its maximum depth is 28 meters, with shallows of 1-2 meters and a length of the lake of about 2 300 meters. The reservoir was commissioned in 1991, by which time it was stocked with precisely selected species of fish, strictly selected for the momentary. · · · · · · · · · · · · · · · · · · · · ·· • · 9 9 9 9 9 9 9 9 99

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999 99 99 9999 999 reservoir condition. Subsequently, the fishery population and the dam itself were left without care and supervision for many years, until a very busy biodiversity was recently discovered, with no self-reproduction and no chance of self-release.

The biological treatment method according to the invention was applied to the reservoir described above. Initially, some of the weed fish found in the pond was removed through daily catch with mushroom and gillnets. It then proceeds to settle in certain proportions of predatory fish (catfish and trout), vegetable-eaten fish (white carp, white carp) and benthic species (tench and carp). Lakes and black mussels were also imported.

As a result, the flowering of water and the growth of certain fish species have been stopped for less than a year. There was also a significant decrease in the means for the treatment of drinking water at the treatment plant.

Claims (6)

1. A method for the biological purification of water from reservoirs by the formation of controlled ichthyofauna and flora of the reservoir, characterized in that balanced removal is carried out before the processing of the fish present in the reservoir, followed by the complex introduction of fish predators, plant-eating and benthic species of fish, as well as species of crabs and mussels, in certain proportions of the exported and imported ichthyofauna. Method according to claim 1, characterized in that the exported fish are weed fish. Method according to claim 1, characterized in that one of the fish exported is the sunfish. The method of claim 1, wherein the imported predators include such as catfish, pike, trout, whitefish and the like. A method according to claim 1, characterized in that the imported plant-eating fish species include such as white carp, black carp, white carp, colorful carp and the like. Method according to claim 1, characterized in that the imported benthic fish include such as tench, carp and the like.