GR1010079B - Animal origin attractive substance for dipterous insects - Google Patents

Abstract

Novelty: a method of production, application and use of an animal origin attractive substance derived from the Tenebrio molitor excretions (excrements and chitin) is disclosed. Purpose: effective monitoring and / or control of dipterous insects. Preparation mode: dissolving and stirring 2-4% w / v of excretions in water. For even greater attractiveness: mixing 2% w / v of excretions and 2% w / v of ammonia sulfate, mixing and dissolving them in water. Application of the resulting solution as such in an insect trap or filtration of the solution through a fine organza. Properties: high attractiveness of dipterous insects - enemies of crops, not affecting populations of beneficial insects. Production through a sustainable and natural process which results in an ecological attractive substance. The full utilization and industrial application of the Tenebrio molitor insect and its excretions give them a high added value.

Description

P E R I G R A F H

Attractant of animal origin for dipteran insects

The present invention relates to the production method, the application and the use of an attractant of animal origin, which is prepared from the excrement (dung and traces of chitin) of the insect Tenebrio molitor, for the effective monitoring and/or control (through mass trapping) of dipteran insects , some six of which, such as the olive fruit fly Bactrocera oleae and the Mediterranean fly Ceratitis capitata, are of economic importance, as they are important enemies of crops. In particular, the invention relates to the use of the excreta of the above insect, either as such or by admixing and mixing them with other proposed substances, and processing them for the preparation of an attractant for dipteran insects.

Attractants include various substances used to attract insects. OL these substances include various food attractants, visual and sex pheromones. Attractants are used, both to monitor populations of insect enemies of crops (e.g. diptera), and to combat them through the mass trapping method, placed in various types of traps (e.g. McPhail type, bottle, paper traps, etc. .a.). A sparse network of traps is used to monitor insect populations (e.g. one trap per thousand or two thousand trees in the case of the daco), while a dense network of traps is used to combat the same enemy (usually one trap per two trees) . The attractants that are usually used consist of ammonia salts, hydrolyzed proteins and sugars. However, a reduced attraction effect of the above attractants is observed, which is due to various factors, such as e.g. the type of attractant, weather conditions and microclimate (humidity, temperature). This results on the one hand in the underestimation of insect enemy populations in monitoring traps and on the other hand in the reduced efficiency of trapping insects in mass trapping traps, with the consequence of ineffective control of them. Also, the above attractants are products of chemical processing and in terms of their production process they are not ecological. Considering the need for extensive use of attractants to control dipterous insects in important crops such as the olive and citrus fruits, which cover large areas of land throughout the Mediterranean, it is necessary to use more effective attractive substances that are produced in a sustainable way and respect the environment.

The present invention is the result of extensive research and concerns the production method, the application and the use of an attractant of animal origin for trapping dipteran insects in order to monitor and/or combat them. Said attractant has significantly greater attractiveness than existing attractants in use and is therefore more effective than them in trapping dipteran insects. Also, it is a completely natural and safe material for both humans and the environment. In particular, the droppings of the Tenebrio molitor insect are an excellent attractant in general for dipteran insects, when they are applied either alone or mixed with other proposed substances, in insect traps. This attractant attracts a significantly higher number of insect enemies, such as the olive weevil and the Mediterranean fly, compared to existing widely used attractants such as ammonium sulphate and hydrolysed proteins. In fact, its effectiveness remains high throughout the year. For example, table 1 as well as diagram 1 show the superiority of using Tenebrio molitor excrement as an attractant for the olive borer, either alone or mixed with ammonium nitrate, compared to commercially available attractants such as hydrolyzed protein and sodium ammonia. The feces of Tenebrio molitor are in the form of granules, like fine-grained sand, are easy to handle and largely water-soluble, and contain about 11% crude protein and 3% nitrogen. Also, the attractant is 100% natural and does not affect beneficial insect populations. The breeding of the Tenebrio molitor insect is considered relatively easy compared to the breeding of other insects and there are already a large number of breeding units, mainly in Asia but also in Europe. This type of insect is mainly bred for the production of animal protein, so that it can then be used as animal feed or even for human food. Therefore, through the present invention, in which the excreta of the farms of Tenebrio molitor, which are a by-product of its farming, are used as raw material for the preparation of dipteran insect attractant, the full utilization and industrial application of the above insect and, of of its waste as well as the desired sustainability.

Specifically, the present invention relates to the use of the excrement of the Tenebrio molitor insect for the preparation of an attractant for dipteran insects. For the above attractant, a specific method of production and application is followed, which is proposed with the present invention.

In particular, during the breeding process of the above insect, its larvae and adults are placed in breeding crates/cabins with a suitable substrate, so that they can lay eggs and hide in it as well as feed. The rearing substrate ration usually consists of a grain type or mixture, such as wheat, oat and/or soybean bran. Additionally they are provided with some type of vegetable, e.g. carrot or potato, as a source of moisture. As a result of the above breeding process, a significant amount of excrement is produced, i.e. manure and amounts of chitin. Chitin comes from the natural process of molting of the insect's juvenile individuals (larvae), i.e. the detachment of the insect's dermis from their body as a need to replace it with a new larger one. The excrement of Tenebrio molitor is collected and followed by fine sieving, in order to remove any remains of food or insects. Afterwards, the excrement is mixed either with water or with water and sodium ammonia, stirred and left in it for a period of about one hour, in order to dissolve most of the elements of the excrement in the water. From this process, the attractant of animal origin for dipterous insects is obtained in the form of a solution, which is then placed in insect traps. However, it is recommended to filter this through fine organza beforehand to remove the sediment and keep the solution clear.

The following ratios and admixtures of Tenebrio molitor excreta have been found to be highly attractive to dipteran insects:

a) Amount of 2 - 4% w/v of Tenebrio molitor excreta in water and then stirring them. The solution obtained above can be used either as is or filtered through fine organza for better results in terms of its attractiveness and clarity of the solution inside the trap.

b) Quantity of 2% w/v Tenebrio molitor excreta and 2% w/v ammonium sulfate in water and then stirring them. The solution obtained above can be used either as is or filtered through fine organza for better results in terms of its attractiveness and clarity of the solution inside the trap. This composition, in relation to the above case under point a, yields even better results in terms of the attractiveness of dipteran insects.

Example of greater effectiveness of the attractant described in the present invention in relation to the olive weevil, compared to other attractants.

Experiments on the attractiveness of the olive pit from various attractive mixtures were conducted in the years 2019 and 2020 in an olive grove in the prefecture of Chania. The attractants evaluated, as shown in table 1, were: a) the excrement of Tenebrio molitor in various dosages and mixing them with ammonia or protein in water, b) ammonia sulfate 2% in water, c) protein 2% in water and d) mixing 2% ammonia and 2% protein in water. All attractant solutions obtained above were applied to McPhail type traps. Each trap with its corresponding attractant was placed within the tree canopy. The traps were placed in every second tree of the olive grove. Table 1 summarizes the results of the above experiments. In particular, in the experiment that took place in the year 2019, the average number of collected individuals per trap using 2% excrement and 2% ammonia was 153.6, using 4% excrement 136.8 and using 2% excrement 115.2. On the contrary, during the same year the average of those with the use of 2% protein rose to 52.8 while with 2% ammonium sulfate it was just 42.3. Accordingly, in the year 2020, the average number of collected individuals per trap using 2% excrement and 2% ammonia was 66.5, using 4% excrement 31.8 and using 2% excrement 22.5, while with the use of 2% protein 26.3 and with 2% ammonium sulfate only 2.7. It is pointed out that in the year 2019 there were increased populations of dako in the experimental area, as in all the olive-producing areas of Greece, while in 2020 OL populations were reduced. This explains the discrepancies in the number of dako arrests between the two years.

In conclusion, the feces of Tenebrio molitor at a dosage of 2% and 4%, as well as the addition of 2% ammonium sulfate to a solution of 2% feces, presented a significantly higher number of collected individuals than 2% ammonia and 2% protein. Also, it is shown that the 2% excrement and 2% ammonia treatment was the most effective in trapping mites compared to all other treatments.

Table 1

Mean collected individuals of dako per trap using the excrement attractant Tenebrio molitor and other attractants.

Diagram 1

Illustrative illustration of the experimental results of table 1.

<*>Treatments: 2% Feces: 2% Tenebrio molitor feces / liter of water (% w/v or % weight by volume), 4% Feces: 4% Tenebrio molitor feces / liter of water (% w/v), 2 % Ammonia: 2% Ammonia Sulphate / liter of water (% w/v), 2% Excreta and 2% Ammonia: 2% Tenebrio molitor excrement / liter of water and 2% Ammonia Sulphate (% w/v), 2% Protein: 2 % Hydrolyzed protein (commercial formulation) / liter of water (% v/v or % volume by volume), 2% Feces and 2% Protein: 2% Tenebrio molitor feces / liter of water (% w/v) and 2% Hydrolyzed protein (commercial formulation) / liter of water (% w/v), 2% Ammonia and 2% Protein: 2% Ammonia Sulphate / liter of water (% w/v) and 2% Hydrolyzed protein (commercial formulation) / liter of water (% w /n). ;;<*>Means with different small bars denote statistically significant difference.

Claims (3)

A X I O S E I S 1. The use of the excreta of the Tenebrio molitor insect, either as such or by mixing and mixing them with other substances, and processing them for the preparation of dipteran insect attractants, characterized by: a) the high attraction capacity of dipteran insects, such as the olive as well as the Mediterranean fly, which attacks a significant number of cultivated species such as citrus fruits, stone fruits, etc., for their effective monitoring and/or combat, b) from the ease of managing the raw material (Tenebrio molitor excreta) and the production of the solution as an attractant, c) from not attracting beneficial insects and consequently not affecting their populations, d) from the sustainable and natural process of producing the attractant, from which a natural attractant results, with respect for the environment and the human, e) from the fact that the attractant during its use, but also after, does not harm humans and the environment and f) from the full utilization the and industrial application of the excreta of the Tenebrio molitor insect, which arise as a by-product of its breeding, giving it a high added value. 2. The use of Tenebrio molitor insect excreta as dipterous insect attractant according to main claim 1, in which 2-4% w/v of Tenebrio molitor excrement is dissolved in water and then stirred. Application of the above solution as such inside an insect trap or filtered through fine organza for optimal results in terms of its attractiveness and more clarity of the solution inside the trap. 3. The use of the insect droppings of Tenebrio molitor as a dipteran insect attractant according to main claim 1, in which 2% w/v of Tenebrio molitor droppings and 2% w/v of ammonium sulfate are mixed, mixed and dissolved in water. The solution obtained above has an even greater attractiveness to dipteran insects. Said solution is applied straight into an insect trap or filtered through fine organza for better results in terms of its attractiveness and more clarity of the solution inside the trap.