RU2242122C2 - Method for decreasing toxicity of aquatic environment - Google Patents

Abstract

FIELD: pisciculture.

SUBSTANCE: the present innovation could be applied at pesticides-contaminated piscicultural farms. Aquatic environment should be supplemented with succinic acid and lasine, moreover, the above-mentioned antidotes should be introduced at equal weight proportions and per 0.005-0.01 mg/l water. The method enables to obtain decreased toxicity of aquatic ecosystems contaminated with pesticides of different classes (phosphorus-organic compounds, perythroids, triazoles).

EFFECT: higher efficiency.

3 ex

Description

The present invention relates to fish farming and may find application in fish farms contaminated with pesticides.

In modern conditions of complex pollution of aquatic ecosystems with pollutants of various classes, the general level of pollution often exceeds the ecological capacity of biohydrosystems. As a result of this, the processes of natural detoxification, which ensure the self-cleaning ability of water bodies, do not always cope with the toxic load, which makes us look for ways to reduce it.

It is known to use the drug lasin as an antimicrobial agent [1]. The basis of lasin is active iodine. There is a method of treating septic infections, pneumonia, dysentery, paraphitis, salmonellosis, polyarthritis, pasteurvelleaa and others with lazin. The drug is used in doses of 0.1-5 mg / kg of body weight.

There is also a method of treating mastitis in cows with lasin.

Closest to the proposed invention is a tool and a method implemented with its help for the prevention and treatment of fish poisoning with organophosphorus pesticides by introducing raw crotonolactone, which includes crotonolactone 44-55%, fumaric acid 1.5-4%, succinic acid 7-12%, formic acid 4-7%, maleic acid 7-13% and water 10-15%. This tool increases the resistance of the fish organism, as participates in the oxidation of carbohydrate metabolism products due to succinic, formic and maleic acids, which are able to enhance the absorption of oxygen by muscle tissue, being a kind of catalyst for tissue respiration [2].

The disadvantage of this method is the limited range of its effects because it is used to prevent and treat fish poisoning with organophosphorus pesticides.

Currently, the most dangerous substances for fishery water bodies, in addition to organochlorine and organophosphorus pesticides, include triazoles and pyrethroids, which are highly stable, with pronounced genotoxic and teratogenic effects.

The objective of the invention is to reduce the toxicity of aquatic ecosystems contaminated with pesticides of different classes (organophosphorus compounds, pyrethroids, triazoles).

The proposed method solves the problem of reducing the toxicity of the aquatic environment by introducing antidotes into it.

The specified result is achieved by the fact that succinic acid and lasin are used as antidotes, which are introduced into the aqueous medium in equal mass ratios and at 0.005-0.01 mg / l of water.

The method is as follows

Succinic acid and lasin in equal mass proportions are added to a reservoir or container with a high content of various toxicants. The concentration of the aqueous solution of each antidote is set to 0.005-0.01 mg per liter of water.

Examples of the method.

On the basis of the Sotsput fishing farm in the Rostov Region, a series of experiments was carried out to clarify the antidote effect of lasin and succinic acid against the effects of toxicants of various groups.

The following concentrations were used for pesticidal preparations: from the class of organophosphorus compounds - metaphos, fosalon, phosphate (with a total concentration of 0.00001 mg / l), triazoles - diphenoconazole (0.002 mg / l) and peconazole (0.01 mg / l), pyrethroids - deltamethrin (0.000001 mg / l), as well as mixtures thereof in various combinations.

The preparations lasin and succinic acid (UC) were used in concentrations of 0.002, 0.005, 0.008, 0.01, 0.015, 0.05, 0.1 mg / l of water both in isolated application and in conjunction with pesticides.

Example 1. In vivo experiments were conducted on the effect on the biota of lasin and UC in solutions of pesticides. Non-filtering pools with a volume of 2 m ³ were used as model reservoirs, which were filled with natural water from the Wet Chuburka River, containing the entire natural set of chemical elements and biological micro-objects: phyto-, protozo-, zo- and bacterioplankton and individual representatives of the ichthyofauna. FOS, triazoles, pyrethroids, succinic acid and lasin were added to all pools except the control one.

Every three days, bioassay methods assessed the quality of water.

Bacterioplankton, macrophytes, ciliates, rotifers, daphnia crustaceans were used as biological objects during testing. The duration of the experiment was 30 days.

When testing on all aquatic organisms, the following criteria for assessing the state of the environment were adopted: a deviation from control from 0 to 20% indicated no toxicity of the environment, with a deviation from 21 to 25% moderate and more than 50% acute when the environment is unsuitable for living aquatic organisms since irreversible processes occur.

Biotesting on saprophytic bacteria responsible for the decomposition of organics showed a decrease in their numbers under the influence of pesticides. For example, in a deltamethrin solution it was -93%, in mixtures of diphenoconazole with penconazole and diphenoconazole with deltamethrin -86% and -77%, respectively, which is regarded as a strong degree of exposure of toxicants to these groups of aquatic organisms.

The introduction of succinic acid with lasin in FOS, triazoles and their mixtures reduced the inhibitory effect of the latter. In this case, the deviation of the number of bacteria of this group from the control decreased from -75% to -27% on the 3rd day, from -77% to 0% on the 4th, and from -35% to + 2% on the 5th day of the experiment . The best indicators of reducing the inhibitory effect of pesticides were obtained by adding succinic acid with lasin in concentrations of 0.005-0.01 mg / l of each antidote. In this case, the result from a decrease in toxicity from strong to weak appeared on the 4-5th day of the experiment.

Biotesting on macrophytes (in the experiments we used elodea and vallisneria) showed that the preparations lasin and succinic acid in concentrations of 0.002-0.1 mg / l, both with separate and their combined action, are not toxic to higher aquatic plants. Only with a separate application of lasin at a concentration of 0.1 mg / l on the first day, a short-term increase in the speed of movement of the cytoplasm in the cells of the elodea was observed. The introduction of toxicants showed a decrease in the speed of movement of the cytoplasm. The addition of lazine and UC neutralized the toxic effect of pollutants in their solutions from medium to low toxic on the 5th and until complete disappearance on the 10th day. The best indicators of reducing the inhibitory effect of pesticides were obtained by adding succinic acid with lasin in concentrations of 0.005-0.01 mg / l of each drug. The toxic effect was completely prevented and the quality of the aquatic environment corresponded to the control level.

Biotesting at ciliates in toxic environments showed a significant decrease in the rate of division. Pesticides deltamethrin and triazoles in combination with lasin also had a toxic effect on ciliates. Succinic acid at a concentration of 0.1 mg / l was toxic to paramecium. The antidote effect against deltamethrin and triazoles was exerted only by the combined introduction of lasin and UC, while the best performance was observed at their concentrations of 0.005-0.01 mg / L.

Pesticides deltamethrin, diphenoconazole and penconazole had virtually no effect on rotifers death rate. At the same time, in the first day, the reproduction rate was sharply increased from 250-400% compared with the control with subsequent inhibition and complete cessation of reproduction, which makes it possible to evaluate their effect as acutely toxic.

Solutions with lasin alone also had a toxic effect on rotifers. A mixture of succinic acid with lasin at 0.005-0.01 mg / l each had a beneficial effect on the rotifers population, maintaining the fertility rate R ₀ at 1.13. This is due to the fact that lasin in this concentration helps to maintain the functioning of the rotifers population due to the normalization of their generative function, and succinic acid, being an organic complexing agent, blocks the action of active iodine, which is part of lasin, and thereby eliminates its toxic effect on rotifers.

A bioassay of water quality by the rate of filtration of algae by daphnia in pools with toxicants on the 5th day showed a deviation of this test indicator from the control by more than 50%. Adding a mixture of succinic acid with lasin each at a concentration of 0.005-0.01 mg / L to toxicants reduced the inhibitory effect of the latter to moderately weak on the 10th day.

In addition, under the influence of pesticides, the fertility of Daphnia females decreased by 40-64% relative to the control. Adding to the toxicants only lazine weakened the toxic effect by 1.8-2.6 times. Adding only succinic acid is 2.1-3.1 times. The combination of lasin and succinic acid at a concentration of 0.005-0.01 mg / l of each substance has most effectively reduced the toxic effect of toxicants on the reproductive abilities of female daphnia. At the same time, the difference between the potential and actual fertility of Daphnia in comparison with the control decreased to 3.8%.

Example 2. In the laboratory, we studied the reaction of eggs and sturgeon larvae to the action of lasin and UC in pools containing FOS, triazoles and pyrethroid, as well as their mixtures in various combinations. The embryonic development of the larvae from the crushing stage took place in pools modified with pesticides and detoxification agents. The degree of influence of the preparations on the embryos and larvae of fish was assessed by survival, the timing of the individual stages of development, the duration of embryonic development, the nature and severity of pathomorphological larvae, their number, the rate of linear and mass growth of larvae, and biochemical parameters.

Biochemical and histological samples were taken after the transition of larvae hatching in the studied solutions to mixed nutrition. Of all the pesticides tested in the experiments, the most toxic for the early stages of sturgeon development was a mixture of deltamethrin and triazoles. Histological analysis indicates that the signs of toxic poisoning characteristic of larvae from solutions of pesticides (most pronounced when triazoles are applied), when lasin and succinic acid are introduced into the medium, they are somewhat smoothed out and noted in fewer cases, i.e. there is a greater number of hatched larvae, fewer deformities and underdevelopments, and a more favorable pathomorphological picture. The best results were obtained with the introduction of lasin and UC in concentrations of 0.005-0.01 mg / l of each drug.

Example 3. The effect of pesticides of different classes (organophosphorus compounds, pyrethroids, triazoles) on small-sized fish of two different species and ages (juvenile rams, sexually mature hives) in laboratory and field experiments using lasin and succinic acid was investigated.

In the control and experimental pools were placed juvenile rams and sexually mature hives. The research results showed that the used concentrations of lasin and succinic acid alone did not affect the biochemical parameters of ram and hive. In pesticidal media, rams and hives showed changes in nitrogen and protein metabolism, as well as acetylcholinesterase (AChE) activity and the intensity of free radical processes. All changes in indicators were unidirectional. Lazin and succinic acid in concentrations of 0.005-0.01 mg / L each each 1.5 times weakened the effect of the studied toxicants, reducing the amplitude of the observed changes.

Thus, it was found that for all groups of aquatic organisms the greatest antidote effect is exerted by a mixture of lasin and succinic acid, taken in equal mass proportions and in the amount of 0.005-0.01 mg / l of water of each antidote.

The proposed method allows at low cost to reduce the damage caused by pesticides to fisheries when they fall into the fishery ponds.

Sources of information

1. SPC "PHARMAYOD". Leaflet “LAZIN”.

2. Patent 1537197, MKI A 01 K 61/00 - prototype.

Claims (1)

A method of reducing the toxicity of an aqueous medium by introducing succinic acid into it, characterized in that lasin is additionally added to the aqueous medium, wherein said antidotes are introduced in equal weight ratios and 0.005-0.01 mg per liter of water.