NO151026B - INSECTICID AND AKARICID MIXTURE CONTAINING GELATIN, AND USING THE MIXTURE FOR AA FIGHTING INSECT AND MEDICINE - Google Patents

Description

The present invention relates to an insecticide and acaricide mixture containing a surfactant. The invention further relates to the use of the mixture when combating harmful insects and mites.

There is a very large selection of insecticides on the world market today. These are more or less selective in their effect. They have varying chemical structures, but the most important classes are phosphoric esters, carbamates, halogenated hydrocarbons, chrysanthemum acid esters. In addition to chrysanthemum acid esters, there are also some other naturally occurring insecticides such as rotenoids. Furthermore, insecticidal proteins originating from bacteria such as Bacillus thuringiensis are also known. A good overview of classic insecticidal and acaricidal compounds can be found in R. Wegler, "Chemie der Pflanzenschutz- und Schådingsbekåmpfungsmittel", Springer-Verlag 1970. The previously known and used insecticides have caused various problems. A common problem is toxicity, and the acute toxicity can be very strong for phosphorus esters and some carbamates. With halogenated hydrocarbons, it is very variable. Chrysanthemum acid esters are generally relatively untoxic, but high toxicity can also occur with synthetic derivatives thereof.

Certain classic insecticides, such as Temik, have had persistence problems, which leads to residual problems.

The use of halogenated hydrocarbons has in certain cases, such as with DDT, caused problems through accumulation in higher organisms in the food chain, e.g. birds. This has had a negative influence on their physiological functions and one has e.g. had cases where the population has been reduced because the birds have laid eggs with too thin shells.

Another very widespread problem with the use of classic insecticides is resistance after prolonged use. This applies to both phosphoric esters and carbamates. Pyrethrin compounds have also caused such problems.

The damage caused to the world's crops by insects and mites

are very large, and the market potential for effective agents against insects and mites that do not cause the above-mentioned environmental problems is therefore very large.

The purpose of the present compound is therefore to provide such a means for combating insects and mites which does not entail the above-mentioned problems.

According to the present invention, this is achieved with an insecticide and acaricidal mixture of the type mentioned at the outset, which is characterized by the fact that its only active ingredient is gelatin.

For direct application, the mixture will be in aqueous solution.

The gelatin content per liter of water is 0.25-10.25 g.

The surfactant mixture contains e.g. dodecylbenzenesulfonate, nonylhydroxyethoxybenzenepolyoxyethyleneethanol, dodecylhydroxyethoxysulfonate, dodecylcarboxy-2,2-dihydroxydiethylamide, ethanol, orthoxenol and carbamide, but other surfactant mixtures can also be used for the purpose.

The mixture is sprayed on the plants to be protected on all sides of the green plant parts until these are dripping wet.

The treatment can be advantageously repeated at one-week intervals.

The mechanism of action for the mixture seems to lie in the insects' and mites' respiratory and nutrient absorption channels being blocked by the mixture, whereby their important physiological functions are blocked. The mixture therefore acts preferentially on stages that have these channels, and the mixture is thus not effective directly on eggs, but only when the organism has left the egg stage. Furthermore, the mixture can bind the locomotor organs by sticking and thus cause the animals to perish. For this reason, repeated spraying may be necessary.

Due to this general mechanism of action indicated above, the mixture appears to be effective against all types of insects and mites.

The agent can also be added directly to irrigation water in connection with watering plants.

A preferred composition of the agent according to the invention is the following:

The mixture can e.g. prepared as follows under continuous stirring:

1. A pressure cooker is filled with water which is boiled.

2. Mix the gelatin with the boiling water and dissolve completely.

3. The nutrients dissolved in water are added.

4. Tcnside mixture is added and boiled to 100°C under pressure.

5. The solution is then cooled to 18°C.

In what follows, the agent according to the invention is called Aldecid. A recommended use is e.g. as follows:

Mix Aldecid into irrigation water and spray well.

Experiments carried out at the Norwegian Academy of Agriculture (State Plant Protection) at Ås with aphids on mainepe clearly demonstrate that the good results (97-98% mortality) are due to the gelatin content.

Methodology

The aphids have multiplied on the plants.

* For Surfactant, a concentrate is first made, consisting of 80 ml Surfactant to 1000 ml water. Based on this concentrate is

then take 30 ml which is mixed with a new 1000 ml of water for dipping.

Notes

Check 2 days after treatment.

The plants were at the 3-4 leaf stage when treated.

The preparations can be used both at home, in greenhouses and outdoors. You preferably spray on the first two consecutive days, and then at 6-7 day intervals. The spraying is intended to be prophylactic.

When spraying, the sprayed growth parts must be dripping wet. Against forest insects such as pith borers and spruce bark beetles, 40-60 ml/l should be dosed.

After treatment, dead insects and mites as well as mite eggs and larvae can be washed off the leaves with water.

The following experiments demonstrate the effectiveness of the agent according to the invention. The treatment can also be done by immersing potted plants in a water bath. The dipping should last approx. 30 seconds. You then preferably use approx. 30 ml Aldecid per liters of water.

After the above-described treatments with Aldecid, the treated plants were always undamaged and in good condition.

Through the present invention, a non-toxic and environmentally friendly agent for combating harmful insects and mites has therefore been provided.

This will be of particular importance for plants that are used as food for humans and animals, in which cases one is always on guard against residues of toxic treatment agents.

The inventive idea is formulated in the following claims.

Claims (7)

1. Insecticidal and acaricidal mixture containing a surfactant, characterized in that the only active ingredient is gelatin. 2. Mixture according to claim 1, characterized in that it is present as an aqueous concentrate. 3. Mixture according to claim 2, characterized in that it contains 0.25-60 g of gelatin per liters of water. 4. Mixture according to claim 1, characterized in that it is present as a concentrate comprising gelatin and surfactant. 5. Mixture according to claims 1 and 4, characterized in that it is in powder form. 6. Mixture according to claims 1-5, characterized in that the surfactant comprises a mixture of dodecylbenzenesulfonate, nonylhydroxyethoxybenzenepolyoxyethyleneethanol, dodecylhydroxyethoxysulfonate, dodecylcarboxy-2,2-dihydroxydiethylamide, ethanol, orthoxenol and carbamide. 7. Use of mixture according to claims 1-6 for combating insects and mites.