JP2012250957A - Biodegradable pheromone dispenser - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biodegradable pheromone dispenser which has excellent release controllability of pheromone.SOLUTION: The biodegradable pheromone dispenser includes: a liquid phase made of a pheromone liquid; and a vessel provided with a resin film dividing the liquid phase and the outside, and in which the resin film is composed of aliphatic polyester represented by general formula (I) [wherein, m denotes an integer of ≥2, n denotes an integer of ≥1, N denotes a repeating unit number, and the average value of m/n is ≤2], and a liquid absorbing sheet is adhered at least to a part of the face in contact with the liquid phase of the resin film.

Description

  The present invention relates to a biodegradable pheromone dispenser.

In recent years, there is a pest control method using an insect pheromone as one of the pest control methods that can be controlled during a specific breeding season of agricultural pests. Insect pheromone is a relatively simple compound consisting of carbon, hydrogen and oxygen that is effective only in the same kind of pests, which is effective in very small amounts, and easily decomposes into water and carbon dioxide in nature. Therefore, it has characteristics such as high safety.
Pest control methods using insect pheromones include pheromone agents in traps and killing insects attracted by insect pheromones, or by placing insect pheromones at the crop cultivation site and floating insect pheromones. There is a method of disturbing the mating and disturbing the mating.
In such a method, it is important to have a sustained release property in which insect pheromone is released from the pheromone agent over a certain period of time. Currently reported pheromone agents use various supports, and methods such as impregnation or dispersion in the support and enclosing a pheromone solution inside the support are employed.
As the support, resin such as plastic is generally used. It has also been proposed to use a crystalline mineral (Patent Document 1).
Examples of the pheromone agent include those in which a pheromone is dispersed in a support and those in which a pheromone liquid is incorporated in a support. Examples of the latter include microcapsules (for example, Patent Document 2), pheromone dispensers ( For example, there are Patent Documents 3 to 4).
Among these, the pheromone agent using a crystalline mineral as a support usually requires firing at a high temperature in the production process, resulting in high cost. Microcapsules are expensive and have a slow biodegradability in the natural environment and a large environmental load.

A pheromone dispenser is a bag-shaped, tube-shaped or bottle-shaped plastic container in which a pheromone solution is incorporated, and is used by being attached to a tree branch or the like. In the pheromone dispenser, the insect pheromone diffuses and permeates the wall (release control layer) of the plastic container and is released into the atmosphere as a vapor. Therefore, the insect pheromone release from the pheromone dispenser is mainly controlled by the material, thickness, surface area, etc. of the plastic container.
Conventionally, polyolefins such as polyethylene and polypropylene, polyesters such as polyethylene terephthalate, and the like have been used for plastic containers of pheromone dispensers. However, since these are not biodegradable, if left as they are, the load on the environment is great, and it is necessary to collect them after use.
Therefore, a pheromone dispenser using a biodegradable plastic as a material for the plastic container has been proposed. For example, Patent Document 5 discloses a sustained-release pheromone preparation using a homogeneous film having a thickness of 15 μm or more made of a specific polymer mainly composed of 3-hydroxybutyric acid as a release control layer. Patent Document 6 discloses a biodegradable pheromone dispenser using a specific aliphatic polyester as a pheromone release control layer containing a liquid phase.

JP 2005-97142 A JP 2006-273773 A JP-A-11-225646 JP 2001-120146 A JP-A-5-163110 Japanese Patent Laid-Open No. 10-017407

However, polyesters, including the polymers described in Patent Document 5, generally have ester bonds in their structures that are strongly linked to each other by electrostatic bonds, so that pheromone molecules are interspersed between polymer segments. As a result, the permeability of the pheromone in the polyester is lowered. For this reason, there is a restriction that the wall thickness of the plastic container must be extremely reduced or the discharge surface area must be increased.
The aliphatic polyester described in Patent Document 6 improves the permeability of the pheromone by providing a gap between ester bonds in the main chain structure. However, when the thickness of the wall of the plastic container is reduced or the emission surface area is increased, a large amount of pheromone is released at the initial stage, and the emission amount gradually decreases.
Because of these circumstances, there are few restrictions on plastic containers, and when applied to pests or their habitats, there is no need for collection control after releasing a certain amount of pheromone over a long period of time, and no collection after the end of the effect. A pheromone dispenser that combines biodegradability is required.
This invention is made | formed in view of the said situation, Comprising: It aims at providing the biodegradable pheromone dispenser excellent in the release controllability of pheromone.

The present invention for solving the above problems has the following aspects.
[1] A liquid phase composed of a pheromone liquid, and a container including a resin film that partitions the liquid phase from the outside,
The resin film is composed of an aliphatic polyester represented by the following general formula (I):
A biodegradable pheromone dispenser in which a liquid absorbing sheet is in close contact with at least a part of a surface of the resin film that is in contact with the liquid phase.

［式中、ｍは２以上の整数であり、ｎは１以上の整数であり、Ｎは繰り返し単位数を示し、ｍ／ｎの平均値が２以下である。］

[Wherein, m is an integer of 2 or more, n is an integer of 1 or more, N represents the number of repeating units, and the average value of m / n is 2 or less. ]

[2] The biodegradable pheromone dispenser according to [1], wherein the container has a shape having no opening.
[3] The biodegradable pheromone dispenser according to [1] or [2], wherein the thickness of the resin film is 10 μm or more and 1000 μm or less.
[4] The biodegradable pheromone dispenser according to any one of [1] to [3], wherein m in the general formula (I) is 4.
[5] The biodegradable pheromone dispenser according to any one of [1] to [4], wherein the aliphatic polyester is mainly composed of at least one selected from polybutylene succinate and polybutylene succinate adipate. .

  ADVANTAGE OF THE INVENTION According to this invention, the biodegradable pheromone dispenser excellent in the release controllability of pheromone can be provided.

It is a schematic sectional drawing of the biodegradable pheromone dispenser 1 of one Embodiment of this invention. It is the front view which looked at the 1st resin sheet 3 which comprises biodegradable pheromone dispenser 1 from the opening side of the crevice which this 1st resin sheet 3 has. It is a graph which shows the result of Example 1 and Comparative Examples 1-2. It is a graph which shows the result of Examples 2-4.

  Hereinafter, the biodegradable pheromone dispenser of the present invention will be described by showing an embodiment. However, the present invention is not limited to the following embodiments.

[First embodiment]
In FIG. 1, the biodegradable pheromone dispenser 1 of this embodiment is shown. FIG. 1 is a schematic cross-sectional view of a biodegradable pheromone dispenser 1. FIG. 2 is a front view of the first resin sheet 3 constituting the biodegradable pheromone dispenser 1 as viewed from the opening side of the concave portion 3 a of the first resin sheet 3.
The biodegradable pheromone dispenser 1 includes a pheromone liquid 2, a first resin sheet 3 having a recess 3a, a second resin sheet 4 that seals the opening of the recess 3a, and a liquid absorption that is in close contact with the bottom surface of the recess 3a. A sheet-like container is formed by the first resin sheet 3 and the second resin sheet 4.
The pheromone liquid 2 is accommodated in a space formed by the recess 3 a of the first resin sheet 3 and the second resin sheet 4, and is partitioned from the outside of the biodegradable pheromone dispenser 1.

The first resin sheet 3 and the second resin sheet 4 are each made of a resin film composed of an aliphatic polyester represented by the following general formula (I) (hereinafter referred to as aliphatic polyester (I)). .
Here, the aliphatic polyester means at least one carboxylic acid selected from aliphatic dicarboxylic acid, alicyclic dicarboxylic acid, aliphatic hydroxycarboxylic acid and anhydrides thereof, and aliphatic diol and alicyclic diol. A polymer (polycondensate) obtained by polycondensation with at least one selected diol is shown.
The aliphatic polyester (I) is a carboxylic acid or diol, each having at least one selected from linear saturated aliphatic dicarboxylic acids having 3 or more carbon atoms and anhydrides thereof, and linear having 2 or more carbon atoms. A saturated aliphatic diol is used.

［式中、ｍは２以上の整数であり、ｎは１以上の整数であり、Ｎは繰り返し単位数を示し、ｍ／ｎの平均値が２以下である。］

[Wherein, m is an integer of 2 or more, n is an integer of 1 or more, N represents the number of repeating units, and the average value of m / n is 2 or less. ]

In the general formula (I), — (CH ₂ ) _m — is derived from a diol, and — (CH ₂ ) _n — is derived from carboxylic acids.
As m, 2-6 are preferable, 2-4 are more preferable, and 4 is especially preferable since biodegradability is favorable.
As n, 1-6 are preferable, 1-4 are more preferable, and 2 is especially preferable.
Specific examples of the diol include ethylene glycol, 1,3-propanediol, 1,4-butanediol, 1,6-hexanediol, nonamethylene glycol, decamethylene glycol, and the like. 1,4-butanediol Is particularly preferred.
Specific examples of the carboxylic acids include succinic acid, succinic anhydride, adipic acid, adipic anhydride, suberic acid, sebacic acid, dodecanedioic acid and the like. Among these, at least one selected from succinic acid, succinic anhydride, adipic acid, and adipic anhydride is more preferable.
m / n is preferably 3 or less.
The value of N is not particularly limited, and an integer of 2 is preferable.
When N is an integer of 2 or more, a plurality of m and n in the formula (I) may be the same or different. That is, the diol and carboxylic acid used in the aliphatic polyester resin (I) may be one kind or two or more kinds, respectively.

The average value of the ratio (m / n) of the number of carbon atoms m of the alkylene group derived from the diol in the above structure to the number of carbon atoms n of the alkylene group derived from the carboxylic acid is set to 2 or less. Transmission can be stabilized. When this ratio exceeds 2, the pheromone permeability is extremely increased, and a large amount of pheromone is released in the initial stage, which is not suitable as a pheromone preparation.
Although the minimum of the average value of m / n is not specifically limited, 1 or more are preferable and 1.5 or more are more preferable. If it is less than 1, pheromone may not be released sufficiently.
Here, the average value of m / n is a value per one repeating unit (repeating unit represented by the following general formula (Ia)) constituting the aliphatic polyester (I). ) Shows a weighted average according to the ratio of each repeating unit when either one or both of m and n have a plurality of different repeating units. That is, the sum of values obtained by multiplying the value of m / n of each repeating unit by the ratio of each repeating unit when the whole is 1 (the number of the repeating unit with respect to N) is shown.

The aliphatic polyester (I) contained in each of the first resin sheet 3 and the second resin sheet 4 may be one type or two or more types.
As the aliphatic polyester (I), those having at least one selected from polybutylene succinate and polybutylene succinate adipate as a main component are particularly preferable.
“Main component” indicates that the ratio of the aliphatic polyester (I) to the total amount (100% by mass) is 50% by mass or more.
Polybutylene succinate is a polycondensate of succinic acid and 1,4-butanediol, and is commercially available as a product name: Bionore 1000 series from Showa Denko K.K., a product name from Mitsubishi Chemical Corporation. : Commercially available as the GS Pla series. Specific examples include Bionore 1001, Bionore 1010, GS Pla AX91T, and GS Pla AD92W.
Polybutylene succinate adipate is a polycondensate of succinic acid, adipic acid and 1,4-butanediol, and examples thereof include those commercially available from Showa Denko KK under the trade name: Bionore 3000. Specific examples include Bionore 3001, Bionore 3010, and the like.

  In the aliphatic polyester (I), various stabilizers such as additives, for example, pigments and dyes for improving weather resistance, ultraviolet absorbers and antioxidants may be added to the aliphatic polyester (I) as long as the effects of the present invention are not impaired. An agent may be blended.

The thickness of each of the first resin sheet 3 and the second resin sheet 4 is preferably 10 μm or more, and more preferably 100 μm or more in order to perform stable release control. The pheromone held in the pheromone liquid 2 passes through the first resin sheet 3 and the second resin sheet 4 and is released to the outside. When the thickness is less than 10 μm, excessive release of pheromones may occur. There is also a risk of pinholes.
Moreover, it is preferable that the thickness of the 1st resin sheet 3 and the 2nd resin sheet 4 is 1000 micrometers or less, and it is more preferable that it is 400 micrometers or less. If it exceeds 1000 μm, the release of pheromone becomes too small, and the emission area must be made too large, which is not practical.

The liquid absorbent sheet 5 is capable of absorbing the pheromone liquid 2 and has a higher liquid absorbency than the liquid absorbency of the resin films constituting the first resin sheet 3 and the second resin sheet 4 respectively. I just need it.
Examples of the liquid absorbent sheet 5 include fiber fabrics such as nonwoven fabrics and woven fabrics, and porous sheets.
The material constituting the liquid absorbent sheet 5 is preferably biodegradable. Examples of such materials include natural fibers such as cotton, and biodegradable plastics such as polylactic acid, polybutylene succinate, polybutylene succinate adipate.
As the liquid absorbing sheet 5, a biodegradable nonwoven fabric is particularly preferable. Examples of the biodegradable nonwoven fabric include cotton-derived nonwoven fabric and crepe paper made of natural fibers that do not use a binder resin. Among these, a non-woven fabric derived from cotton is preferable from the viewpoint of heat resistance during processing.
The liquid absorbing sheet 5 can be adhered to the surface of the first resin sheet 3 by thermocompression bonding or the like.

In the present embodiment, the amount of pheromone emitted can be controlled by the liquid absorbent sheet 5.
The present inventors considered that the amount of pheromone released was determined by the relationship between the amount of pheromone vaporized and the amount of pheromone permeated through the resin film. That is, if (pheromone membrane permeation amount) <(pheromone evaporation amount), the pheromone is always stably released from the dispenser surface, and stable release is performed as long as the pheromone is supplied to the dispenser surface. Conversely, if (pheromone membrane permeation amount)> (pheromone evaporation amount), the pheromone that exudes to the surface of the dispenser will not evaporate and will stay, and initially, a large amount of pheromone will be released, As the amount of pheromone supplied from the inside of the dispenser decreases, the release amount gradually decreases.
In the present embodiment, part of the surface of the resin film (first resin sheet 3, second resin sheet 4) constituting the container 3 that is in contact with the pheromone liquid 2 (of the recess 3 a of the first resin sheet 3). By adhering the liquid-absorbing sheet 5 to the bottom surface), the permeation amount of the pheromone resin film can be made constant. Thereby, the amount of pheromone evaporation can be kept constant, and a stable release state can be maintained even if the pheromone liquid 2 is reduced.
If the liquid absorbent sheet 5 is not in close contact, the amount of pheromone released will decrease drastically when the pheromone liquid 2 inside the dispenser has decreased, and a stable release state will be maintained for a sufficient period of time relative to the amount of pheromone liquid 2 enclosed. Not. This is considered to be caused by a decrease in the contact area between the pheromone liquid 2 and the resin film, for example, when the internal pheromone liquid 2 is reduced, it is biased inside the dispenser.
In the present invention, the amount of pheromone released and the duration can be changed by changing the area of the liquid absorbent sheet 5. For example, by increasing the area of the liquid absorbent sheet 5, the amount of pheromone released can be increased. Moreover, the time when the pheromone is uniformly emitted can be lengthened, so that the area of the liquid absorbing sheet 5 is reduced.

The pheromone liquid 2 is a liquid containing pheromone.
In this specification, “pheromone” refers to a chemical substance that insects release from the body as various means of communication, that is, an insect pheromone.
The pheromone contained in the pheromone liquid 2 is not particularly limited, and any pheromone such as a sex pheromone, an alarm pheromone, a signpost pheromone, or a class differentiation pheromone may be used. A sex pheromone is suitable for efficient pest control.
As the sex pheromone, unsaturated aliphatic hydrocarbons having 10 to 20 carbon atoms, acetates, aldehydes, alcohols, ketones or epoxy compounds are known, and usually one of these is used alone or 2 Used as a mixture of seeds and more.
Specifically, Z-7-dodecenyl acetate, Z-8-dodecenyl acetate, Z-9-dodecenyl acetate, E, Z-7,9-dodecadienyl acetate, Z, Z-7,9-dodecadienyl acetate, E, E-8,10-dodecadienol, E-4-tridecenyl acetate, Z-9-tetradecenyl acetate, Z-9-tetradecenal, Z- 11-tetradecenyl acetate, Z-11-tetradecenal, Z-9-hexadecenal, Z-11-hexadecenal, Z, E-9,11-tetradecadienyl acetate, Z, E-9,12-tetradeca Dienyl acetate, Z-11-hexadecenyl acetate, Z, Z-7,11-hexadecadienyl acetate, Z, E-7,11-hexadecadienyl acetate, E, E Z-4,6,10-hexadecatrienyl acetate, E, E-10,12-hexadecadienal, Z, Z-3,13-octadecadienyl acetate, E, Z-3,13-octa Decadienyl acetate, Z-7,8-epoxy-2-methyl-octadecene, Z-13-icocene-10-one, E, E, Z-10,12,14-hexadecatrienyl acetate, E, E , Z-10,12,14-hexadecatrienal, Z-10-tetradecenyl acetate, E, Z-4,10-tetradecadienyl acetate, 14-methyl-1-octadecene, (R, Z ) -5- (1-octenyl) oxacyclopentan-2-one, (R, Z) -5- (1-decenyl) oxacyclopentan-2-one, and the like.

Any of the above pheromones may be used alone or in combination of two or more.
The amount of the pheromone solution 2 enclosed in the biodegradable pheromone dispenser 1 can be appropriately set according to the period of use, application range, etc., but is preferably 10 mg or more, more preferably 50 mg or more. When the enclosed amount is less than 10 mg, it is difficult to stably fill.

Although the first embodiment has been described above, the present invention is not limited to these embodiments.
For example, in the first embodiment, an example is shown in which one liquid absorbent sheet 5 is brought into close contact with the bottom surface of the concave portion of the first resin sheet 3, but for example, the liquid absorbent sheet 5 is brought into close contact with the second resin. It may be the sheet 4 or both. Further, a plurality of liquid-absorbing sheets 5 to be adhered may be provided.
Although an example of a bag-like container has been shown, the present invention is not limited to this, and a known shape can be adopted as a reservoir-type container containing pheromone as a liquid phase. Especially, the thing of the shape which does not have an opening part is preferable so that a pheromone may not contact air directly. Examples of the container having such a shape include a tube shape and a bottle shape in addition to the bag shape described above.

The biodegradable pheromone dispenser of the present invention is used by being attached to an object to be treated such as a crop body. A conventionally well-known means can be used for attachment.
The biodegradable pheromone dispenser of the present invention preferably includes a jig that can be attached to an object to be processed. Examples of the jig include sticks, hooks, and annular filaments.

Hereinafter, the present invention will be described by way of examples, but is not limited thereto.
<Example 1>
Sheet of 300 μm thickness by press molding at 140 ° C. for 2 minutes using polybutylene succinate (aliphatic polyester in which m in formula (I) is 4, n is 2, and m / n average value is 2) Was made. This sheet was cut into a square of 4 cm in length and width to prepare a first resin sheet. Further, the sheet was cut into a square of 4 cm in length and width to prepare a second resin sheet.
A cotton nonwoven fabric of 3 × 3 cm was adhered to one surface of the first resin sheet by heating. Then, the 2nd resin sheet was piled up on the cotton nonwoven fabric side of the 1st resin sheet, and it was set as the bag shape which carried out the thermocompression bonding of 3 sides so that a cotton nonwoven fabric may be pinched | interposed. In this, 260 mg of mixed pheromone solution of Z-9-hexadecenal, Z-11-hexadecen-1-ol, Z-11-hexadecenal, Z-11-hexadecenyl = acetate, which is a sex pheromone, was left after filling. One side was sealed by thermocompression to obtain a pheromone dispenser.

The obtained pheromone dispenser was placed in a constant temperature layer at 25 ° C., the decrease in weight was measured, and the daily pheromone release amount (mg / day) was determined from the measured value. The result is shown in FIG. As shown in FIG. 3, the pheromone dispenser of Example 1 was excellent in the release property that continued to be released uniformly at about 1.8 mg / day for about 130 days.
Furthermore, when this dispenser was buried in the soil for 12 months after the experiment, it was tattered and hardly retained its original shape. From this, it was confirmed that the pheromone dispenser of Example 1 has biodegradability.

<Comparative Example 1>
A pheromone dispenser was prepared in the same manner as in Example 1 except that no cotton nonwoven fabric was used, and the pheromone release property was evaluated.
As a result, as shown in FIG. 3, the amount of pheromone released per day is seen to gradually decrease at an initial transition of 4 to 5 mg / day, and a certain amount of released state can be obtained over a long period of time. could not.

<Comparative example 2>
A pheromone dispenser was prepared in the same manner as in Example 1 except that the cotton nonwoven fabric was not adhered by heating and was simply put between the first resin sheet and the first resin sheet, and the pheromone release property was evaluated.
As a result, as shown in FIG. 3, the amount of pheromone released per day is seen to gradually decrease at an initial transition of 2 to 4 mg / day, and a certain amount of released state can be obtained over a long period of time. could not.

<Comparative Example 3>
A pheromone dispenser was prepared in the same manner as in Example 1 except that an aliphatic polyester in which m in the formula (I) was 1 and n was 2 was used instead of polybutylene succinate, and the pheromone release property was evaluated. .
The obtained pheromone dispenser was placed in a constant temperature layer at 25 ° C., the decrease in weight was measured, and the amount of pheromone released per day (mg / day) was determined from the measured value, about 0.01 mg / day Yes, almost no sex pheromone was released, and observation was continued for about 90 days. However, no change in weight was observed, and no decrease in the internal drug solution was observed.

<Example 2>
A sheet having a thickness of 300 μm was produced by press molding at 140 ° C. for 2 minutes using polybutylene succinate. This sheet was cut into a square of 8 cm in length and width to prepare a first resin sheet. Further, the sheet was cut into a square of 8 cm in length and width to prepare a second resin sheet.
A 5 × 5 cm cotton non-woven fabric was adhered to one surface of the first resin sheet by heating. Then, the 2nd resin sheet was piled up on the cotton nonwoven fabric side of the 1st resin sheet, and it was set as the bag shape which carried out the thermocompression bonding of 3 sides so that a cotton nonwoven fabric may be pinched | interposed. Into this, 400 mg of mixed pheromone solution of Z-9-hexadecenal, Z-11-hexadecen-1-ol, Z-11-hexadecenal, Z-11-hexadecenyl = acetate, which is a sex pheromone, was left. One side was sealed by thermocompression to obtain a pheromone dispenser.

The obtained pheromone dispenser was placed in a constant temperature layer at 25 ° C., the decrease in weight was measured, and the daily pheromone release amount (mg / day) was determined from the measured value. The result is shown in FIG. As shown in FIG. 4, the pheromone dispenser of Example 2 was excellent in the release property that continued to be released uniformly at about 2.5 mg / day for about 150 days.
Furthermore, when this pheromone dispenser was buried in the soil for 12 months after the experiment, it was tattered and hardly retained its original form. From this, it was confirmed that the pheromone dispenser of Example 2 has biodegradability.

<Example 3>
A pheromone dispenser was produced in the same manner as in Example 2 except that the size of the cotton nonwoven fabric adhered to the first resin sheet was 2 × 2 cm.
The obtained pheromone dispenser was evaluated for pheromone release in the same manner as in Example 2. As shown in FIG. 4, the pheromone dispenser was excellent in release that continued to be released uniformly at about 1.1 mg / day for about 350 days. there were.
Furthermore, when this pheromone dispenser was buried in the soil for 12 months after the experiment, it was tattered and hardly retained its original form. From this, it was confirmed that the pheromone dispenser of Example 3 has biodegradability.

<Example 4>
A pheromone dispenser was produced in the same manner as in Example 2 except that the size of the cotton nonwoven fabric adhered to the first resin sheet was 3 × 3 cm.
The obtained pheromone dispenser was evaluated for pheromone release properties in the same manner as in Example 2. As shown in FIG. 4, the pheromone dispenser was excellent in release properties that continued to be released uniformly at about 1.6 mg / day for about 220 days. there were.
Furthermore, when this pheromone dispenser was buried in the soil for 12 months after the experiment, it was tattered and hardly retained its original form. From this, it was confirmed that the pheromone dispenser of Example 4 has biodegradability.

  From the results of Examples 2 to 4, it can be confirmed that the amount of pheromone released per day and the time during which pheromone is uniformly released can be adjusted only by changing the size of the nonwoven fabric adhered to the resin film. It was.

  As is clear from the above, the biodegradable pheromone dispenser of the present invention can stably control pests over a long period of time because pheromone is stably released from the liquid phase containing pheromone. In addition, since the resin film that separates the liquid phase from the outside has biodegradability, it is not necessary to collect after use and is labor-saving. Moreover, since it is completely decomposed by microorganisms, the environment can be protected without remaining in the soil.

  DESCRIPTION OF SYMBOLS 1 ... Biodegradable pheromone dispenser, 2 ... Pheromone liquid, 3 ... 1st resin sheet, 4 ... 2nd resin sheet, 5 ... Liquid absorption sheet

Claims (5)

A liquid phase composed of a pheromone liquid, and a container including a resin film that partitions the liquid phase from the outside,
The resin film is composed of an aliphatic polyester represented by the following general formula (I):
A biodegradable pheromone dispenser in which a liquid absorbing sheet is in close contact with at least a part of a surface of the resin film that is in contact with the liquid phase.

[Wherein, m is an integer of 2 or more, n is an integer of 1 or more, N represents the number of repeating units, and the average value of m / n is 2 or less. ]   The biodegradable pheromone dispenser according to claim 1, wherein the container has a shape having no opening.   The biodegradable pheromone dispenser of Claim 1 or 2 whose thickness of the said resin film is 10 micrometers or more and 1000 micrometers or less.   The biodegradable pheromone dispenser according to any one of claims 1 to 3, wherein m in the general formula (I) is 4.   The biodegradable pheromone dispenser according to any one of claims 1 to 4, wherein the aliphatic polyester is mainly composed of at least one selected from polybutylene succinate and polybutylene succinate adipate.

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