CN105724427B - Application of the flavoring agent in preventing ant class pest - Google Patents

Abstract

The invention discloses application of the flavoring agent in preventing ant class pest, belong to pest control technical field.Flavoring agent L alanine, glycine, Sodium guanylate, inosine acid disodium, sodium glutamate, succinic acid and the disodium succinate that the present invention screens have good toxic action to red fire ant, and the flavoring agent screened is easy to get in actual production, it can be used as food additives, non-environmental-pollution, the control of ant class pest is can be applied to, there is boundless application prospect.

Description

Application of the flavoring agent in preventing ant class pest

Technical field

The invention belongs to pest control technical fields, and in particular to application of the flavoring agent in preventing ant class pest.

Background technology

Health, public peace of the harmful ant classes such as red fire ant (Solenopsis invicta Buren) to invasion region Entirely, agriculture and forestry production and ecological environment constitute serious threat.Chemical prevention is the main and effective means of termite attack control, but Be problem of environmental pollution caused by chemical agent it is institute's facing challenges during prevention and control.Poison bait is current ant class pest prevention One of main means, it is convenient and efficient to have the advantages that, if can be found to ant class in natural products or food grade materials There is the substance of toxic effect, further substitute the chemical pesticide in poison bait, can reach reduces Pesticide use amount and environment dirt The purpose of dye.

Food flavor enhancer is alternatively referred to as tasty agents, refers to supplement or enhancing food original local flavor substance.Some food add After flavoring agent, delicious flavour is presented, increases appetite and abundant nutrition.Flavoring agent is widely used as food additives use, and A large amount of document shows that the mankind have good adaptability for flavoring agent, is also largely disappeared by the mankind daily there are many flavoring agent really Take.However the mankind predominantly stay in flavoring agent understanding the role of food additives, its other functions are but lacked Solution, the especially use in relation to flavoring agent in field of pest control have not been reported.

Invention content

The purpose of the invention is to overcome the shortcomings of that there are problem of environmental pollutions for ant class chemical agent in the prior art, carry For application of the flavoring agent in preventing ant class pest.

Application of the flavoring agent of the present invention in preventing ant class pest.

The flavoring agent is l-Alanine, glycine, Sodium guanylate, inosine acid disodium, sodium glutamate, succinic acid And/or disodium succinate.

It is preferred that the application is application of the flavoring agent in the desinsection bait formulation for preparing prevention ant class pest.

It is preferred that when flavoring agent is l-Alanine, inosine acid disodium, sodium glutamate, succinic acid and/or disodium succinate, Dosage of the flavoring agent in desinsection bait formulation is 0.001~0.1g/mL；When flavoring agent is glycine and/or Sodium guanylate When, dosage of the flavoring agent in desinsection bait formulation is 0.001~0.2g/mL.

It is furthermore preferred that when flavoring agent is l-Alanine, inosine acid disodium, sodium glutamate, succinic acid and/or disodium succinate When, dosage of the flavoring agent in desinsection bait formulation is 0.1g/mL；When flavoring agent is glycine and/or Sodium guanylate, increase Dosage of the taste agent in desinsection bait formulation is 0.2g/mL.

It is preferred that the ant class pest is red fire ant (Solenopsis invicta Buren).

The present invention has the following advantages and effects with respect to the prior art：

(1) the initiative discovery flavoring agent of the present invention has good toxic action to red fire ant, and that therefrom screens is sweet Propylhomoserin, Sodium guanylate are even more to have preferably toxic effect to red fire ant.

(2) flavoring agent that the present invention screens is easy to get in actual production, can be used as food additives, no environment Pollution, can be applied to the control of red fire ant.

(3) flavoring agent that the present invention screens same good toxic action in terms of other harmful ant controls has non- Often wide application prospect.

Description of the drawings

Fig. 1 is interpretation of result figure of the different flavoring agents to the toxic action of red fire ant.

Fig. 2 is dosage effect interpretation of result figure of the Sodium guanylate to red fire ant worker ant toxic action.

Fig. 3 is dosage effect interpretation of result figure of the Sodium guanylate to red fire ant female reproduction ant toxic action.

Fig. 4 is dosage effect interpretation of result figure of the Sodium guanylate to red fire ant arrenotoky ant toxic action.

Fig. 5 is dosage effect interpretation of result figure of the Sodium guanylate to red fire ant children's ant toxic action.

Fig. 6 is dosage effect interpretation of result figure of the glycine to red fire ant worker ant toxic action.

Fig. 7 is dosage effect interpretation of result figure of the glycine to red fire ant female reproduction ant toxic action.

Fig. 8 is dosage effect interpretation of result figure of the glycine to red fire ant arrenotoky ant toxic action.

Fig. 9 is dosage effect interpretation of result figure of the glycine to red fire ant children's ant toxic action.

Specific implementation mode

The following examples are further illustrations of the invention, rather than limiting the invention.

In following embodiment Suburbs of Guangzhou is all from for the red fire ant of examination (Solenopsis invicta Buren).

Embodiment 1：Different flavoring agents compare red fire ant toxic effect

It is a repetition to select 100 red fire ant worker ants at random and be put into the plastic casing for coating fluon in advance, to each heavy It is multiple to feed different flavoring agent (l-Alanine, glycine, Sodium guanylate, inosine acid disodium, sodium glutamate, ambers respectively daily Acid or disodium succinate) aqueous solution, various flavoring agents are for trying a concentration of 0.001g/mL, 0.01g/mL, 0.05g/mL and 0.1g/ mL；Every 12 hours observation survival numbers after on-test.Experiment is control with clear water, and each concentration for the treatment of of each flavoring agent repeats 5 It is secondary.

Test result is as follows：

Result of study after 72 hours on-tests shows that above-mentioned several flavoring agents for examination have poison to red fire ant The flavoring agent of the effect of killing, various concentration all has certain toxic effect (Fig. 1).It is water-soluble with flavoring agent compared with clear water compares The death rate of red fire ant significantly rises after liquid raising.The Sodium guanylate aqueous solution and glycine solution of 0.01g/mL can make The sodium glutamate, succinic acid and disodium succinate aqueous solution that the death rate of red fire ant worker ant reaches 60% or more, 0.01g/mL are equal The death rate of red fire ant worker ant can be made to reach the l-Alanine aqueous solution and inosine acid disodium aqueous solution of 50% or more, 0.01g/mL Also the death rate of red fire ant worker ant can be made to reach 30%~40%.For in several flavoring agents of examination with Sodium guanylate and glycine Most lethal effect illustrates that both flavoring agents have a good application prospect.

Embodiment 2：Dosage effect of the Sodium guanylate to different grade red fire ant toxic actions

A:To the toxic action of worker ant

It is a repetition to select 100 red fire ant worker ants when experiment at random and be put into the plastic casing for coating fluon in advance, right Each Sodium guanylate aqueous solution for repeating to feed 0.001g/mL, 0.05g/mL or 0.2g/mL respectively daily, sees for every 12 hours Survival number is examined, often processing is repeated 5 times, and is tested with clear water as a contrast.

B:To the toxic action of reproduction ant

It selects 10 female red fire ant reproduction ants when experiment at random respectively and 10 male red fire ant reproduction ants is put into advance It in the plastic casing for coating fluon, and is put into 120 red fire ant worker ants and looks after reproduction ant, as a repetition；To each repetition It feeds the Sodium guanylate aqueous solution of 0.001g/mL, 0.05g/mL or 0.2g/mL respectively daily, observes survival number within every 24 hours, To whole death.Each concentration for the treatment of is repeated 5 times.Fresh worker ant is continuously replenished in experimentation to look after reproduction ant, and The Sodium guanylate aqueous solution of corresponding concentration is continuously replenished.It tests with clear water as a contrast.

C:To the toxic action of young ant

It selects 10 red fire ant children ants when experiment at random respectively to be put into the plastic casing for coating fluon in advance, and is put into 120 red fire ant worker ants look after young ant, as a repetition；0.001g/mL, 0.05g/mL are fed respectively daily to each repetition Or the Sodium guanylate aqueous solution of 0.2g/mL, every 24 hours observation survival numbers, until whole death.Each concentration for the treatment of repeats 5 It is secondary.Fresh worker ant is continuously replenished in experimentation to look after reproduction ant, and the Sodium guanylate of corresponding concentration is continuously replenished Aqueous solution.It tests with clear water as a contrast.

Test result is as follows：

A:The death rate of the red fire ant worker ant experimental group of feeding Sodium guanylate aqueous solution is higher than the control group of feeding clear water. Wherein, when Sodium guanylate concentration of aqueous solution is 0.2g/mL, red fire ant worker ant reaches 100% in the 72h death rates；Guanylic acid two When a concentration of 0.05g/mL of sodium water solution, the death rate of the red fire ant worker ant in 84h is more than 60%；Sodium guanylate aqueous solution is dense When degree is 0.001g/mL, the death rate of the red fire ant worker ant in 84h reaches 40% or more (Fig. 2).

B:The death rate of the red fire ant reproduction ant experimental group of the Sodium guanylate aqueous solution of feeding high concentration, which is significantly higher than, to be taken Eat clear water control group, and Sodium guanylate aqueous solution in low concentration without apparent lethal effect.Wherein, a concentration of 0.2g/ The Sodium guanylate aqueous solution of mL makes the death rate of female reproduction ant reach 100% in 8d, and arrenotoky can be made in 6d The death rate of ant reaches 100%；The Sodium guanylate aqueous solution of a concentration of 0.05g/mL makes the death of female reproduction ant in 17d Rate makes the death rate of arrenotoky ant reach 100% when reaching 90%, 10d；The Sodium guanylate of a concentration of 0.001g/mL is water-soluble Liquid make when the death rate of female reproduction ant being made to be 0%, 17d in 17d the death rate of arrenotoky ant reach 10% or more (Fig. 3, 4)。

C:The death rate of red fire ant children's ant experimental group of feeding Sodium guanylate aqueous solution is higher than the control group of feeding clear water. Wherein, the death rate when Sodium guanylate aqueous solution of a concentration of 0.2g/mL makes the young ant death rate reach 70% or more, 8d in 4d Reach 100%；The Sodium guanylate aqueous solution of a concentration of 0.05g/mL makes the death rate of young ant reach 90% or more in 8d；It is dense Degree is the Sodium guanylate aqueous solution of 0.001g/mL makes the death rate of young ant reach 70% (Fig. 5) in 8d.

Embodiment 3：Dosage effect of the glycine to different grade red fire ant toxic actions

A:To the toxic action of worker ant

It is a repetition to select 100 red fire ant worker ants when experiment at random and be put into the plastic casing for coating fluon in advance, right Each glycine solution for repeating to feed 0.001g/mL, 0.05g/mL or 0.2g/mL respectively daily, observation in every 12 hours are deposited Number living, each concentration for the treatment of are repeated 5 times.It tests with clear water as a contrast.

B:To the toxic action of reproduction ant

It selects 10 female red fire ant reproduction ants when experiment at random respectively and 10 male red fire ant reproduction ants is put into advance It in the plastic casing for coating fluon, and is put into 120 red fire ant worker ants and looks after reproduction ant, as a repetition；To each repetition Feed the glycine solution of 0.001g/mL, 0.05g/mL or 0.2g/mL, every 24 hours observation survival numbers, until complete respectively daily Portion is dead.Each concentration for the treatment of is repeated 5 times.Fresh worker ant is continuously replenished in experimentation to look after reproduction ant, and constantly Supplement the glycine solution of corresponding concentration.It tests with clear water as a contrast.

C:To the toxic action of young ant

It selects 10 red fire ant children ants when experiment at random respectively to be put into the plastic casing for coating fluon in advance, and is put into 120 red fire ant worker ants look after young ant, as a repetition；0.001g/mL, 0.05g/mL are fed respectively daily to each repetition Or the glycine solution of 0.2g/mL, every 24 hours observation survival numbers, until whole death.Each concentration for the treatment of is repeated 5 times.It is real Fresh worker ant is continuously replenished to look after reproduction ant during testing, and the glycine solution of corresponding concentration is continuously replenished.Examination It tests with clear water as a contrast.

Test result is as follows：

A:The death rate of the red fire ant worker ant experimental group of feeding glycine solution is higher than the control group of feeding clear water.Its In, the glycine solution of a concentration of 0.2g/mL and a concentration of 0.05g/mL reach the death rate of worker ant in 72h 100%；The glycine solution of a concentration of 0.001g/mL makes the death rate of worker ant reach 20% (Fig. 6) in 84h.

B:It is clear that the death rate of the red fire ant reproduction ant experimental group of the glycine solution of feeding high concentration is significantly higher than feeding The control group of water, and glycine solution in low concentration without apparent lethal effect.Wherein, the sweet ammonia of a concentration of 0.2g/mL Aqueous acid makes the death rate of female, male reproduction ant reach 100% in 10d；The glycine solution of a concentration of 0.05g/mL Make the female reproduction ant death rate 90% in 17d, the death rate of arrenotoky ant is made to reach 100% in 9d；It is a concentration of The death rate of the glycine solution of 0.001g/mL female reproduction ant in 17d is 0%, and the death rate reaches when arrenotoky ant 17d To 50% (Fig. 7, Fig. 8).

C:The death rate of red fire ant children's ant experimental group of the glycine solution of feeding high concentration is significantly higher than feeding clear water Control group, and the lethal effect of each concentration glycine solution is without significant difference.Wherein, the glycine of a concentration of 0.2g/mL Children's ant death rate reaches 90% or so when aqueous solution makes the young ant death rate reach 70% or more, 8d in 6d；A concentration of 0.05g/ The glycine solution of mL makes the death rate of young ant reach 78% in 8d；The glycine solution of a concentration of 0.001g/mL exists The death rate of young ant is set to reach 70% or more (Fig. 9) when 8d.

The above embodiment is a preferred embodiment of the present invention, but embodiments of the present invention are not by above-described embodiment Limitation, it is other it is any without departing from the spirit and principles of the present invention made by changes, modifications, substitutions, combinations, simplifications, Equivalent substitute mode is should be, is included within the scope of the present invention.

Claims (4)

1.L- alanine, glycine, Sodium guanylate, inosine acid disodium, sodium glutamate, succinic acid and/or disodium succinate are made The application of active constituent is killed in desinsection bait formulation to prevent ant class pest.

2. application according to claim 1, which is characterized in that l-Alanine, inosine acid disodium, sodium glutamate, succinic acid And/or dosage of the disodium succinate in desinsection bait formulation is 0.001~0.1g/mL；Glycine and/or Sodium guanylate exist Dosage in desinsection bait formulation is 0.001~0.2g/mL.

3. application according to claim 2, which is characterized in that l-Alanine, inosine acid disodium, sodium glutamate, succinic acid And/or dosage of the disodium succinate in desinsection bait formulation is 0.1g/mL；Glycine and/or Sodium guanylate are in desinsection bait Dosage in agent is 0.2g/mL.

4. application according to claim 1, which is characterized in that the ant class pest is red fire ant Solenopsis invicta Buren。