RU2031579C1 - Method for control of town mosquito larvae in basements - Google Patents

Abstract

FIELD: agriculture, particularly insect control. SUBSTANCE: method involves treating concentrations of mosquito larvae with granulated bacterial insecticide in the period before flooding of basements. EFFECT: higher efficiency. 2 tbl

Description

 The invention relates to medical entomology, and in particular to methods of controlling disease vectors - mosquitoes. Of particular importance is the fight against the city mosquito, since this species breeds in the immediate vicinity of people (in the basements of houses), and, unlike other types of mosquitoes, propagates all year round. The use of synthetic insecticides to combat the urban mosquito is undesirable, as this leads to chemical pollution of the environment. Bacterial insecticides designed to control mosquitoes are currently developed and produced. Their advantage is that they do not lead to chemical pollution of the environment.

 A known method of combating the larvae of city mosquitoes using bacterial insecticides (Guidelines for the use of Spherolarvicide to combat the larvae of blood-sucking mosquitoes, M., 1988). Spherolarvicide is the toxins of Bacillus sphaericus (active substance), the remains of the culture medium and excipients.

 This method consists in the fact that the drug is introduced into a reservoir where mosquito larvae are found. The disadvantage of this method is that it does not ensure the complete destruction of the larvae, since from the moment a pond is discovered to the processing time passes so that many larvae complete their development and mosquitoes fly out.

 In addition, the flooded basement is difficult to pass, which significantly increases the time spent on processing. Most often, basements are flooded with sewage containing fecal matter, which worsens the sanitary and hygienic working conditions of the treatment agents.

 The aim of the invention is to prevent the development of mosquitoes in the basements of houses, reducing labor costs and improving sanitary and hygienic working conditions.

 This is achieved by the fact that prophylactic treatment of cellars, in which mosquitoes are possible, is carried out before the appearance of water in them and, accordingly, before the onset of larvae. Using the proposed method provides contact of the larvae with an insecticide in the resulting reservoir immediately upon their exit from the eggs and thereby ensures the fullness of their death.

 Sanitary conditions in a dry basement are much better than in a flooded one. It is easier to move around, so it takes less time to process a dry basement.

 Specific examples of laboratory and field tests are given below.

 PRI me R 1. Laboratory tests of a prophylactic method of combating the mosquito larvae using an industrial bacterial preparation.

The bottom of the cuvette (each with an area of 13.6 dm ² ) was treated with Spherolarvicid in dosages from 0.007 to 0.5 g / m ² . Cuvettes exhibited under conditions simulating worst cellar for storing medication embodiment: high zapylennnost and high (about 25 ^C) temperatures. At different time intervals, the cuvettes were filled with water, 500 eggs of the city mosquito were planted in them and feed for larvae was introduced, which imitated organic pollution of the water. The effectiveness of the treatment was determined by whether the larvae hatching from the eggs reached the pupal stage. If the pupae formed, it was considered that the treatment ceased to function.

 In one series of experiments, periodic flooding of the basement was simulated. For this purpose, the cuvettes treated with the preparation were filled monthly with water. From one "flooding" to another, the larvae either died or had time to pupate, and the water dried up. In this case, the duration of preservation of the toxic principle was evaluated with periodic moistening and drying of the drug.

 In another series of experiments, the cuvettes were filled with water only once after 1, 2, 4, 6, and 8 weeks after treatment, and then monthly. In this case, the duration of preservation of the toxic principle in the dry preparation was estimated.

 Each version of the experiment (by the method of flooding, the drug and its dosage) was tested 3 times. The experimental results are presented in table 1.

 As can be seen from the table, in cases where the drug remained dry, its activity remained for at least 7 weeks, and with periodic flooding with water - for at least 30 weeks.

 PRI me R 2. Laboratory tests of a prophylactic method of combating the mosquito larvae using a granular preparation.

 The tests were carried out under the same conditions and the same procedure as in Example 1. The peculiarity was that the cuvette was treated not with an industrial preparation, which is a wettable powder, but with granules made from this preparation (Example 3). The content of spherolarvicide in granules is 50%. Calculation of dosages is given according to Spherolarvicide.

 The test results shown in Table 1 show that in all variants of the use of a granular preparation, its protective effect lasts at least a year and is observed even at dosages 10 times lower than those recommended for use.

 PRI me R 3. The preparation of granules from the industrial preparation Spherolarvicida.

 The industrial preparation Spherolarvicide in the amount of 600 g and talc in the amount of 600 g were mixed manually until a homogeneous mixture was formed. In the specified mixture with constant stirring, water was added in an amount providing a mass of dough-like consistency. This mass was pressed through die plates with a diameter of 2.5 mm. The resulting "sausages" were cut manually into granules 2-3 mm long each. The granules were dried at room temperature for a day, and then packaged in plastic bags.

 PRI me R 4. The test of a known method of combating the larvae of a city mosquito in real conditions.

The tests were carried out in a basement with an area of 980 m ² flooded with water with a layer depth of up to 1 m. At the time of the signal about the need for processing, larvae (all stages) and pupae of the city mosquito were found in it. The density of larvae of the IV (last) stage and pupae averaged 2600 individuals per m ² (i.e., about 2.5 million individuals for the entire basement). By the time of processing, judging by the population survey, the inhabitants of the house for 7 days already suffered from the attack of mosquitoes that flew out of the basement. The treatment of the basement according to the guidelines was carried out with a bacterial insecticidal preparation Spherolarvicid at a dosage of 0.5 g / m ² . Two days later, all the larvae of the younger stages (I-III) died, but the larvae of the IV stage and pupae remained alive, and mosquitoes flew out of them, approximately equal to the number of these individuals, i.e. about 2.5 million. The mosquito attack on the inhabitants of the house continued for 12 days after the treatment. The total period of anxiety was 19 days.

 The basement was treated by 2 people, it took 1 h 20 min, i.e. 2.6 business hours.

 PRI me R 5. The test of the proposed method of combating the larvae of the mosquito in real conditions using a conventional drug.

The same basement as in Example 3, which, as shown by previous observations, is sometimes flooded with water, was treated at the moment when water was pumped out of it. The treatment was carried out with the preparation Spherolarvicid at a dosage of 0.3 g / m ² . The treatment was performed by 2 people, spending 40 minutes on it. Labor costs amounted to 1.3 working hours. During the 3 months of observation, the basement was twice flooded with water, but there were no mosquitoes breeding in it, and the inhabitants were not bothered by the mosquito attack.

 PRI me R 6. The test of the proposed method of combating the larvae of the mosquito in real conditions using a granular preparation.

The tests were carried out in a basement with an area of 1000 m ² , which is periodically flooded with water, which led to the breeding of mosquitoes and the anxiety of residents from their attack. In June, when there was no water in the basement, it was treated with granules prepared from the Spherolarvicid preparation at the rate of 0.5 g Spherolarvicid per 1 m ² . Observations were carried out during the year. During this time, the basement was flooded twice: in October (4 months after treatment) and in March of the following year (9 months after treatment), but in no case there were no mosquitoes. Labor costs for its processing amounted to 0.7 working hours (2 people for 20 minutes).

 A comparison of the proposed and known methods of controlling the mosquito larvae using bacterial insecticides is given in table. 2.

 As can be seen from table 2, the proposed method of combating the larvae of the city mosquito provides improved sanitary and hygienic working conditions, reduces labor costs by about 2 times and reliably prevents mosquito breeding.

Claims (1)

 METHOD FOR COMBATING CITY MOSQUITO LARVAS IN BASEMENTS, including treatment of habitats with a bacterial insecticide, characterized in that the treatment of habitats is carried out before the appearance of water in the basements using a granular bacterial insecticide.

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