JPH05238902A - Pollen dispersion inhibitor and method for preventing dispersion of pollen - Google Patents

Abstract

PURPOSE:To provide the subject inhibitor capable of specifically inhibiting dispersion of pollens harmful to the human body without influencing on branches and leaves except pollens. CONSTITUTION:This pollen dispersion inhibitor contains oleic acid or/and linoleic acid as the active components and is emulsified by using a surfactant to prepare an emulsion. Otherwise, the resultant emulsion is further diluted with a diluent such as water and applied to male flowers to be prevented from pollen dispersion.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pollen dispersal preventive agent for preventing the scattering of pollen having fertilizing activity, which is made from the anther of a seed plant, and a pollen using this pollen dispersal inhibitor. It relates to a method of preventing scattering.

[0002]

2. Description of the Related Art Pollen, which is a powdery germ cell in the stamens of a seed plant, can be roughly classified into airborne pollen and insect pollen. Of these pollen, wind-borne pollen is scattered in the air by the wind and adheres to the stigma of the pistil for proliferative activity.However, if humans inhale the pollen that is blown by the wind, it is extremely troublesome. Symptoms are caused. Especially, hay fever caused by cedar pollen in early spring
It is called Japanese cedar pollinosis and is unique to Japan. Itching of the eyes,
If you have an allergic reaction to your eyes or nose, such as hyperemia, sneezing, nasal discharge or stuffy nose.

[0003] In addition to causative therapy such as hyposensitization therapy for improving physical constitution by improving resistance to allergens against human injury caused by such pollen, administration of antihistamines and corticosteroids, eye drops and Although protective measures such as masks have been taken, the best countermeasure is to reliably prevent the scattering of pollen into the air, which causes human injuries.

[0004]

As the means for preventing the scattering of pollen into the air, it is most convenient to cut off the tree that causes it. However, since cutting down the tree causes the destruction of the natural environment, The current situation is that there are no effective measures to prevent the scattering of pollen.

In view of the present situation, the inventors of the present invention have
As a result of diligent research from the viewpoint of plant physiology, to suppress only the scattering of pollen harmful to the human body without damaging not only the trees themselves but also the branches and leaves, as a result, oils and fats containing certain fatty acids suppress the scattering of pollen. It was discovered that the pollen scattering inhibitor of the present invention and the pollen scattering preventing method using the same have been completed.

[0006]

The pollen anti-scattering agent of the present invention is basically characterized by comprising a vegetable oil containing oleic acid and / or linoleic acid as a main component.

In the present invention, the oleic acid which constitutes the main component of vegetable fats and oils has 1 carbon atom having one double bond.
It is an unsaturated fatty acid having 8 carbon atoms, and linoleic acid is an unsaturated fatty acid having 18 carbon atoms and having two double bonds.

Specific examples of the vegetable oil containing a large amount of oleic acid and linoleic acid include almond nut oil, olive oil, sesame oil, camellia oil, corn oil, safflower oil,
Rapeseed oil, sunflower oil, etc. can be mentioned.

These oleic acid and linoleic acid may be those having a relatively high purity obtained by extraction from a natural product and purification, and the total amount of the above-mentioned oleic acid and / or linoleic acid is 50%. (Wt%; same below) Above,
Vegetable oils and fats containing as much of these main components as possible are preferred.

A vegetable oil containing less than 50% of the total amount of the oleic acid and / or linoleic acid, palmitic acid which is a saturated fatty acid having 16 carbon atoms, stearic acid which is a saturated fatty acid having 18 carbon atoms, and further 3 Vegetable oil containing a large amount of linolenic acid, which is an unsaturated fatty acid having a double bond and has 18 carbon atoms, produces ethane and prevents the scattering of pollen, but it also inhibits the growth of branches and leaves around male flowers, which is harmful. Is not preferable because it gives

In use, the pollen anti-scattering agent of the present invention is preferably made into an emulsion by adding a surfactant to a vegetable oil containing oleic acid and / or linoleic acid as a main component. Surfactants for emulsion formation are
It is desirable to add in the range of 5 to 40% with respect to the above-mentioned main component, and by adding in this range, a good emulsion can be formed.

A pollen scattering inhibitor made into an emulsion by adding a surface active agent is diluted by adding a diluent such as water to the emulsion to disperse it from a flying object such as a helicopter and scatter the pollen in a wide range. Can be prevented.

On the other hand, the method for preventing pollen dispersal according to the present invention is a pollen dispersal method in which a vegetable oil containing oleic acid and / or linoleic acid as a main component is emulsified with a surfactant against stamens which prevent scattering of pollen. It is characterized in that an inhibitor or a vegetable oil containing oleic acid and / or linoleic acid as a main component is emulsified with a surfactant, and a pollen dispersal inhibitor diluted with a diluent such as water is sprayed. ..

Specifically, the stock solution of the emulsion-type pollen anti-scattering agent is diluted by adding water in a range of 10 to 20 times, and this is diluted with air, for example, against cedar growing in groups by a helicopter. It is done by spraying.

[0015]

The pollen dispersal inhibitor of the present invention comprises a vegetable oil containing oleic acid and / or linoleic acid as a main component, and the vegetable oil is emulsified directly or with a surfactant to form an emulsion. Furthermore, when a diluted solution obtained by diluting the emulsion with water is applied or sprayed to male flowers for which the scattering of pollen is to be prevented, the liquid comes into contact with the male flowers and penetrates from the surface of the male flowers to the inside, and the main component is pollen. To reach and come into contact with it to prevent the scattering of pollen.

[0016] It is not clear why the pollen dispersal agent composed of such vegetable oil containing oleic acid and / or linoleic acid as a main component has an effect on pollen in male flowers, but The contained oleic acid and / or linoleic acid stimulates the production of ethylene in male flowers, and the generated ethylene promotes the rapid respiration of pollen, in other words, the pollen is quickly consumed and pollen is rapidly aged and killed. it is conceivable that.

In the present invention, as a target for preventing the scattering of pollen, a cedar, which belongs to the pygmy mackerel, which is a gymnosperm plant, is selected, and a pollen scattering inhibitor for male flowers around October, when the cones are mature. When sprayed, only the male flowers turned brown, and there was no change in the branches and leaves or the trunk to which the pollen scattering inhibitor of the present invention adhered during spraying. Then, when the browned male flower was cut and pollen was examined, all pollen to which the pollen anti-scattering agent of the invention had adhered was dead.

However, in experiments conducted using vegetable oils and fats containing a large amount of unsaturated fatty acids other than oleic acid and linoleic acid and other unsaturated fatty acids, such as linseed oil and cocoa butter, The leaves and stems with oil and cocoa butter adhered to them also turned brown, and it was not possible to kill only the pollen.

[0019]

EXAMPLES The present invention will be described in more detail with reference to test examples, examples and comparative examples.

Test Example 1 As various fatty acids having 18 carbon atoms, four kinds of fatty acids of stearic acid, oleic acid, linoleic acid and linolenic acid were used. In order to investigate the selective effect on pollen scattering, male flowers of cedar ( Pollen) and needles were tested for the relationship between ethylene, ethane and carbon dioxide production as follows. That is, 3 g of a male cedar flower (pollen) and a needle leaf were precisely weighed, and each was dipped in stearic acid, oleic acid, linoleic acid, and linolenic acid, which are C18 fatty acids, and 50 ml of this was dipped. The flask was packed in an Erlenmeyer flask and kept at a temperature of 25 ° C. On the third day after this treatment,
The Erlenmeyer flask is sealed with a silicon double stopper and the temperature is 25 ° C.
Incubate at room temperature for 6 hours, during which ethylene (C
₂ H ₄ ) and ethane (C ₂ H ₆ ) were quantified by gas chromatography. The column used was Sumpack A and was detected by FID. In addition, regarding the generation of carbon dioxide (CO ₂ ), the respiration rate was measured by an infrared CO ₂ analyzer. The results are shown in Tables 1 to 3.

[0021]

[Table 1]

[0022]

[Table 2]

[0023]

[Table 3]

The degree of browning of the male flowers and needles of Cryptomeria japonica treated with these fatty acids after one week was visually observed. The results are shown in Table 4. The + symbol in Table 4 indicates the degree of browning, the more + symbols the higher the degree of browning, and the * symbol indicates the degree of pollen scattering.

[0025]

[Table 4]

From the results shown in Tables 1 to 4 above, as the degree of unsaturation (double bond) of stearic acid, oleic acid, linoleic acid, and linolenic acid increases, the amount of ethylene produced increases, and CO ₂ It can be seen that the generation (respiratory action) of spores is remarkably promoted and the action of killing pollen is strengthened.

However, the treatment with linolenic acid gives a strong browning to the needles and loses the selectivity of preventing only the scattering of pollen. It is considered that a large amount of ethane was generated by the linolenic acid treatment, and this ethane had a strong influence on the needles. Therefore, when the male flower (pollen) and the needles were treated with 100 ppm of ethane, The effect of browning was investigated and the results in Table 5 were obtained. Table 5
The + symbol in indicates the degree of browning, and the more + symbols, the higher the degree of browning.

[0028]

[Table 5]

To summarize the above results, from Tables 1 to 3, each treatment of oleic acid, linoleic acid and norylene acid increases the ethylene production amount of male flowers (pollen) of Cryptomeria japonica, activates respiratory action and scatters pollen. It turns out that it is effective for prevention. However, from the results of Table 4 and Table 5, in the linolenic acid treatment,
It is clear that not only male flowers (pollen) of cedar but also needles are killed by a large amount of ethane generated. Therefore, treatment with oleic acid and linoleic acid prevents cedar pollen scattering from the aspect of selectivity. It is judged to be the most suitable.

Examples 1 to 5 and Comparative Examples 1 to 4 (immersion test on Japanese cedar) Saturated or unsaturated fatty acids whose main component compositions are as shown in Table 6 below and vegetable oils and fats containing these fatty acids each had an interface of 10%. An activator (both are trade names "Reodol AO-10" manufactured by Kao Corporation) was added and stirred with a stirrer for about 10 minutes to obtain emulsion emulsions.

[0031]

[Table 6]

AE in Table 6 shows the following components. A: Oleic acid B: Linoleic acid C: Palmitic acid D: Stearic acid E: Linolenic acid

On the other hand, a length of about 8 with 20 male flowers on the tip
A large number of cm cedar needles were collected from the same cedar tree,
Each of these was divided into 5 groups, and each group was immersed in the same emulsion among the above emulsions. After soaking for about 1 minute, the sample was taken out of the solution, placed in a beaker for one bottle, and changes after 3 days were observed. The results are shown in Table 7.

[0034]

[Table 7]

Examples 6 to 9 and Comparative Examples 5 to 8 (Spraying Test on Cryptomeria japonica) The same emulsions as the emulsions obtained in Examples 1 to 5 and Comparative Examples 1 to 4 were diluted 10 times with water. The diluted solution was used in Examples 1 to 5 and Comparative Examples 1 to 4 and the length was about 8c with 20 male flowers on the tip.
m was sprayed on the needles of cedar. In the spraying method, a male flower was hung, sprayed from a distance of 30 cm, and sprayed to such an extent that the drug drips from the plant body, and the state after 3 days was observed. The results are shown in Table 8.

[0036]

[Table 8]

[0037]

EFFECT OF THE INVENTION The pollen dispersal inhibitor of the present invention comprises a vegetable oil containing oleic acid and / or linoleic acid as a main component, and is produced from the plant body by permeating the main component from the surface of the male flower to the inside. The pollen does not fly into the air from the male flowers of the plant to which this pollen-scattering preventive agent is applied or sprayed, because the ethylene used promotes exhaustion accompanied by an increase in respiration and kills the pollen.

In particular, the pollen dispersal inhibitor of the present invention has a remarkable advantage in that only pollens of male flowers are selectively killed and no adverse effects are exerted on branches and leaves.

Although linolenic acid is also excellent in the effect of killing pollen, it is not preferable because it causes browning of branches and leaves due to the remarkable generation of ethane, and it is preferable to avoid vegetable edible oils and fats containing a large amount of linolenic acid. Good.

Since oleic acid and linoleic acid, which are the main components of the pollen dispersal inhibitor, can be replaced by ordinary vegetable edible oils and fats containing a large amount thereof, they should be manufactured inexpensively and in mass production. You can

A pollen anti-scattering agent obtained by emulsifying a vegetable oil containing oleic acid and / or linoleic acid as a main component with a surfactant, or a pollen obtained by diluting a stock solution of the emulsion with a diluent such as water. Since the anti-scattering agent can be directly applied to the male flower for which it is desired to prevent the scattering of pollen, it is extremely easy to handle and can reliably prevent the scattering of pollen.

In particular, the diluted pollen dispersal agent can prevent scattering of pollen in male flowers in a very wide range by spraying the diluted pollen dispersal agent in the air.

On the other hand, the method for preventing pollen dispersal according to the present invention is very simple in that a pollen dispersal agent consisting of vegetable oil containing oleic acid and / or linoleic acid as a main component is applied to male flowers for which the scattering of pollen is to be prevented. It is possible to kill pollen in male flowers in a wide range by various methods.

In particular, even if the pollen dispersal agent to be sprayed is applied to the branches and leaves, only the pollen of the male flower acts selectively, so that the source of pollen can be cut off from the root without causing any damage to humans and animals. It is a thing.

Claims (7)

[Claims] 1. A pollen anti-scattering agent comprising a vegetable oil containing oleic acid and / or linoleic acid as a main component. 2. A pollen anti-scattering agent, characterized in that a vegetable oil containing oleic acid and / or linoleic acid as a main component is made into an emulsion with a surfactant. 3. A pollen scattering inhibitor characterized in that a vegetable oil or fat containing oleic acid and / or linoleic acid as a main component is emulsified with a surfactant and diluted with a diluent such as water. 4. The pollen dispersal inhibitor according to claim 1, wherein the total amount of the oleic acid and / or the linoleic acid is 50% by weight or more. 5. The pollen dispersal inhibitor according to claim 2, wherein the surfactant is added in an amount of 5 to 40% by weight based on oleic acid and / or linoleic acid as a main component. 6. Dilution with a diluent comprises oleic acid or /
The pollen anti-scattering agent according to claim 3, which is in a range of 10 to 20 times that of the stock solution of the vegetable oil containing linoleic acid as a main component and made into an emulsion with a surfactant. 7. A pollen anti-scattering agent comprising a vegetable oil containing oleic acid and / or linoleic acid as a main component as an emulsion with respect to stamens which prevent the scattering of pollen, or oleic acid or / and A method for preventing pollen dispersal, which comprises emulsifying a vegetable oil or fat containing linoleic acid as a main component with a surfactant and applying a pollen dispersal inhibitor diluted with a diluent such as water.