JP7270687B2 - Method for producing plum wine - Google Patents

Description

TECHNICAL FIELD The present invention relates to plum wine and a method for producing the same, and more particularly to plum wine with enhanced fresh and fruity flavor and bright red color and a method for producing the same.

Plum wine has been made at home for a long time. In general, predetermined amounts of ume, distilled liquor with a high alcohol content such as shochu, and sugar are placed in airtight containers and steeped for several months to several years. is manufactured by Common plum wine that has been widely used in the past is almost pale yellow, and it was difficult to differentiate products by color.

It has been reported that ume fruits containing red pigments such as purple queen and dew madder are used for umeshu in order to differentiate the appearance. For example, Patent Literature 1 discloses a method of ripening dewmadder until it turns red. Further, in Patent Document 2, red plum fruit is extracted with ethanol and then concentrated to obtain a red pigment solution, the red pigment solution and the plum fruit are separated, the plum wine component containing the plum fruit is aged, and then the red pigment solution is obtained. A method for producing red plum wine is disclosed by mixing the aged plum wine ingredients with.

On the other hand, regarding hexyl acetate, Patent Document 3 discloses that umeshu with an excessive aged aroma is treated with activated carbon to remove unpleasant aged aroma, and hexyl acetate or the like is added to adjust the concentration to a specific range. It is disclosed that a feeling of plum wine can be imparted.

Patent Document 4 describes that hexyl acetate has a sweet, fruity scent and exhibits a bright and light pear-like scent, and that the content of hexyl acetate in commercially available ripe plums is about 1.5 mg/kg. Something is disclosed.

In addition, Patent Document 5 discloses a method for producing umeshu, in which ume are frozen, immersed in alcohol, and then sugar is added.

Patent Document 6 discloses freezing plum fruit and immersing the frozen plum fruit in a sugar solution at 15° C. or lower in order to produce a plum extract with less harshness.

However, there have been no reports of umeshu with satisfactory quality in terms of flavor and appearance.

JP 2012-191861 A JP 2013-192482 A JP 2016-054661 A WO2014/192826 Japanese Unexamined Patent Application Publication No. 2011-115118 JP 2012-165667 A

The present inventors recently produced umeshu by a specific production method after ripening and freezing ume fruits containing a red pigment. Found it. The present invention is based on such findings.

Accordingly, an object of the present invention is to provide umeshu with an enhanced fresh and fruity flavor and a bright red color.

According to the present invention, the following inventions are provided.
(1) Plum wine containing hexyl acetate at a concentration of 8 to 100,000 ppb and having an absorbance of 0.5 or more at a wavelength of 520 nm.
(2) The plum wine according to (1), wherein the concentration of hexyl acetate is 30 to 500 ppb.
(3) The plum wine according to (1) or (2), which has an absorbance of 1.0 or more at a wavelength of 520 nm.
(4) The umeshu according to any one of (1) to (3), which is a ume soaked liqueur.
(5) The plum liqueur according to any one of (1) to (4), wherein the plum ingredient is dewmadder.
(6) A method for producing umeshu, comprising freezing after-ripening red ume, immersing the peel and/or pulp in an alcohol-containing material, and adding sugars after the start of immersion.
(7) The method for producing plum wine according to (6), wherein the sugar is added within 1 to 14 days from the start of immersion.
(8) A method of enhancing the fresh and fruity flavor of umeshu and imparting a desirable bright red color to umeshu, comprising freezing ripened red ume, immersing the peel and/or pulp in an alcohol aqueous solution, and immersing A method comprising adding a sugar after initiation.

ADVANTAGE OF THE INVENTION According to this invention, the fresh and fruity flavor is enhanced and the plum wine which exhibits bright red can be provided. Furthermore, the plum wine can reduce harshness and astringency. In particular, red plum wine using red plums is known to have a strong harsh taste, and the present invention is advantageous in that the harsh taste can be reduced even in red plum wine using red plums.

Comparison of raw and frozen ume (without and with after-ripening) (10% red coloring): (A) Produced by conventional method using raw or frozen ume (without or with after-ripening, respectively) (B) Comparison of total anthocyanin (T-ANT) concentration in plum wine produced by a conventional method using fresh or frozen plums (with or without after-ripening) Comparison of fresh ume and frozen ume (with and without after-ripening) (10% red coloring): Plum wine produced by conventional methods using fresh or frozen ume (without or with after-ripening, respectively) Comparison of hexyl acetate concentration in Comparison by difference in production method (frozen plum, ripening, red coloring 10%): (A) Comparison of OD520 of plum wine produced by the conventional method or the method of the present invention, (B) Conventional method or the method of the present invention Comparison of T-ANT concentration in plum wine produced by the method Comparison by different manufacturing methods (frozen plums, after-ripening, red colored 10%): Comparison of hexyl acetate concentration in umeshu produced by the conventional method and the method of the present invention Comparison of plums with different degrees of maturity (frozen plums, with ripening): (A) OD520 of plum wine produced by the method of the present invention using red colored 10%, 40%, 80% or overripe plums Comparison, (B) Comparison of T-ANT concentration in plum wine produced by the method of the present invention using red-colored 10%, 40%, 80% or overripe plums Comparison of plums with different degrees of maturity (frozen plums, with ripening): Hexyl acetate concentration in plum wine produced by the method of the present invention using red colored 10%, 40%, 80% or overripe plums comparison Comparison of commercial product and plum wine produced by the method of the present invention: (A) Comparison of OD520 of commercial product and plum wine produced by the method of the present invention (frozen plum, ripened, red coloring 10%), (B) Comparison of hexyl acetate concentration in commercial product and plum wine produced by the method of the present invention (frozen plum, ripened, red coloring 10%)

Specific description of the invention

Plum wine The plum wine of the present invention contains a predetermined concentration of hexyl acetate and exhibits an absorbance at a wavelength of 520 nm of a predetermined value or higher. In the present invention, by setting the concentration of hexyl acetate in plum wine within a predetermined range, the fresh and fruity flavor is enhanced. Such plum wine can be produced by freezing ripening plums in the process of producing plum wine. According to a preferred embodiment of the present invention, the plum wine of the present invention is produced by a method comprising freezing ripened plums, immersing the peel and/or pulp in an aqueous alcohol solution, and adding sugars after the start of immersion. be able to. Also, the concentration of hexyl acetate may be adjusted by adding hexyl acetate, or by adding a material containing hexyl acetate or increasing or decreasing the dose thereof. The plum wine of the present invention is preferably red plum wine.

The concentration of hexyl acetate in the umeshu of the present invention is 8 to 100,000 ppb, preferably 30 to 500 ppb. Here, "ppb" indicates parts per billion, and 1 ppb corresponds to 1 μg/L. The lower limit of the hexyl acetate concentration in the umeshu of the present invention is, for example, 8 ppb, preferably 30 ppb, and the upper limit is, for example, 100,000 ppb, preferably 6,000 ppb, more preferably 500 ppb. The hexyl acetate concentration in plum wine can be measured by gas chromatography/mass spectrometry (GC/MS). Such measurements can be conveniently performed by using a commercially available gas chromatograph/mass spectrometer (for example, manufactured by Shimadzu Corporation).

The absorbance at a wavelength of 520 nm of the plum wine of the present invention is 0.5 or more, preferably 1.0 or more, more preferably 1.5 or more, and still more preferably 2.0 or more, from the viewpoint that its appearance exhibits a bright red color. be done. The absorbance of plum wine can be measured by absorptiometry. Such measurements can be easily performed by using a commercially available spectrophotometer (for example, manufactured by Shimadzu Corporation).

The red color of the umeshu of the present invention can also be confirmed by measuring the concentration of total anthocyanins in the umeshu. The total anthocyanin concentration in the plum wine of the present invention is, for example, 30 ppm or more, preferably 70 ppm or more, more preferably 80 ppm or more. Here, "ppm" indicates parts per million, and 1 ppm corresponds to 1 mg/L. The concentration of total anthocyanins in plum wine can be measured by a colorimetric method. Such measurements can be easily performed by using a spectrophotometer (for example, manufactured by Shimadzu Corporation).

The plum wine of the present invention refers to liquor containing plum components. The plum wine of the present invention preferably contains liqueurs stipulated in Article 3, Item 21 of the Liquor Tax Law (Law No. 6 of 1953), which are obtained by soaking plums in alcoholic beverages and leaching the components of the plums. It is considered to be an alcoholic beverage, that is, ume soaked sake. In addition, in terms of operational handling, alcoholic beverages containing ume components leached by immersing ume in alcoholic beverages refer to alcoholic beverages made by leaching ume components by immersing ume in alcoholic beverages, as well as sugar, sour, and (Including those with foaming properties). Furthermore, plum wine is classified into “genuine plum wine” and “non-genuine plum wine”. Here, "genuine plum wine" means plum wine made using only plums, sugars and alcoholic beverages. On the other hand, "non-genuine umeshu" refers to umeshu that is not "genuine umeshu", that is, umeshu mixed with acidulants, coloring agents, flavors, and other alcoholic beverages. The plum wine of the present invention may be either "genuine plum wine" or "non-genuine plum wine".

The ume used as a raw material in the umeshu of the present invention is not particularly limited as long as it has the effect of the present invention, and red ume (a variety containing a red pigment) can be mentioned. Varieties containing a red pigment include Tsuyumadder, Purple Queen, Sumomome, Beni no Mai, Purple Nanko, Shihobai and the like, and Tsuyumadder is preferred. In addition, even when a variety that does not contain a red pigment is used, a raw material containing a red pigment such as red perilla or a red pigment such as anthocyanin can be used. In this case, in order to obtain a fresh and fruity flavor, a predetermined amount of hexyl acetate may be added to the red plum wine by a method such as addition.

The degree of ripeness (degree of coloring) of the plums to be used is not particularly limited as long as the effect of the present invention is achieved, but preferably red coloring 10% to complete arrival (red coloring 100%), more preferably red coloring 10% to 80% is. A person skilled in the art can appropriately determine the degree of coloring using a color chart or the like. For example, judging the degree of coloration of Tsuyu-madder plum is based on a color chart distributed by the Plum Research Institute of the Wakayama Prefectural Orchard Experiment Station (edited and published by the Plum Research Institute of the Wakayama Prefectural Fruit Experiment Station). Technical Cultivation Management Manual (March 2016)).

The plums used in the present invention may be ripened. After-ripening can be performed by a known after-ripening treatment. For example, plums having the above degree of ripeness can be further ripened by storing and ripening them at 15 to 35° C. for about 2 to 6 days. The appropriate storage ripening period varies depending on the degree of ripeness of the ume fruit, but the optimum degree of ripeness is reached in about 2 to 6 days. In that case, ripening can be performed more satisfactorily by exposing to air in an open system rather than under closed conditions. Ripening can also be carried out by adding an ethylene generator to the harvested plum fruit, sealing the fruit, and storing and ripening the fruit at 15 to 35°C for about 2 to 6 days. Appropriate storage ripening conditions using an ethylene generator vary depending on the degree of ripeness of plum fruit, but are preferably room temperature (15 to 25° C.) for two days. When ripening using an ethylene generator, any known ethylene generator can be used without particular limitation. Specific examples of the ethylene generator include "Jedus" (Ohe Chemical Industry Co., Ltd.). Furthermore, after storage ripening using an ethylene generating agent, the fruit may be ripened in an open system, preferably in an open system at room temperature (15 to 25° C.) for 2 days.

Alcohol in the umeshu of the present invention can be provided by blending alcoholic beverages (ethanol-containing materials). As the ethanol-containing material, raw material alcohol and distilled liquor (spirits) can be used, and examples of preferable distilled liquor include vodka, gin, shochu, tequila, rum, brandy, whiskey, awamori, white liquor, aquavit, White liquor etc. are mentioned. According to a preferred embodiment of the present invention, the alcohol source is material alcohol, shochu, brandy, gin, and white liquor. The alcohol concentration (alcohol content) of the alcohol-containing material used during production should be in the range of 20 to 50% (V/V%), more preferably in the range of 20 to 35% (V/V%) in terms of flavor. more preferably in the range of 20-30% (V/V %).

The sugars in the plum wine of the present invention are not particularly limited, and suitable sugars such as monosaccharides (e.g., fructose, glucose), disaccharides (e.g., sucrose, lactose), oligosaccharides, and polysaccharides are used. It can be used, and specifically, crystal sugar, sugar, isomerized sugar, liquid sugar, brown sugar, brown sugar and the like may be used. Preferred sugars are sugars such as white sugar.

The plum wine of the present invention may contain other ingredients used in the production of plum wine. Such other ingredients include, for example, sweeteners (e.g., sugar alcohols, high-intensity sweeteners, honey, etc.), acidulants (e.g., phosphoric acid, citric acid, malic acid, ascorbic acid, tartaric acid, succinic acid). , lactic acid, gluconic acid, fumaric acid, acetic acid, or salts thereof, etc.), coloring agents, flavoring agents, food additives (e.g., foaming/foam retention improvers, bittering agents, preservatives, antioxidants, thickening and stabilizing agents , emulsifiers, dietary fibers, pH adjusters, etc.) can be added as appropriate.

Method for Producing Plum Liquor The plum wine of the present invention can be produced according to a conventional method for producing plum wine without any limitation as long as the effects of the present invention are exhibited. For example, plum wine can be produced by soaking plums, sugars, etc. in alcoholic beverages (ethanol-containing material). Here, the saccharides may be added to the ethanol-containing material before the plums are soaked, at the same time as the plums are soaked, or after the plums are soaked. In addition, there is no particular limitation on the storage conditions of the plums to be immersed in the ethanol-containing material, but it is preferable to use after-ripened and frozen plums.

Furthermore, the inventors of the present invention relate to ume fruit containing a red pigment, freezing ripening ume, immersing the peel and/or pulp in an alcohol aqueous solution, and adding sugars after the start of immersion. By adopting the method, it was found that the fresh and fruity flavor was enhanced at a significantly higher level than the conventional method, and it was possible to produce umeshu with a bright red color. Details of this method are described below.

Each step of the method for producing plum wine (1) Freezing treatment of ripened plums First, after washing the ripened plum fruits with water or an appropriate aqueous solution for washing, either wipe off the moisture, or sand the plum fruits without washing them. Remove or wipe away dust and dirt. Next, the ripened plum fruit is frozen. The freezing method is not particularly limited, and any freezing method can be adopted. For example, air freezing method, air blast freezing method, contact freezing method, brine freezing method, freezing method using liquid nitrogen, liquefied gas freezing method, cell-alive system freezing method, etc. Any freezing means may be used, but the air freezing method is preferable.

(2) Immersion The frozen plums are immersed in the alcohol-containing material in a frozen state, but depending on the situation, they may be immersed in the alcohol-containing material during or after thawing. The frozen afterripe plums may be immersed in the alcohol-containing material without crushing, i.e., the peel and/or pulp may be immersed in the alcohol-containing material, preferably only the portion consisting of the peel and/or pulp is in direct contact with the alcohol-containing material. immersed in an alcohol-containing material.

When immersing frozen plums, the ratio of plums (kg): alcohol-containing material (L): sugars (kg) is usually 1: (1.0-3.0): (0.0-2.0 ) can be within the range of From the viewpoint of flavor extraction, the ratio of plum (kg): alcohol-containing material (L): sugar (kg), which is the condition for adding sugars, is 1: (1.0 to 3.0): (0. 1 to 1.0), more preferably 1:(1.0 to 3.0):(0.3 to 0.5).

The timing of addition of sugars to the alcohol-containing material is, for example, within 0 to 28 days, preferably within 3 to 14 days, more preferably within 5 to 10 days after the frozen plums are immersed in the alcohol-containing material. Moreover, you may add what melt|dissolved by mixing saccharides and alcohol previously.

The total period of immersion of frozen afterripe plums in the alcohol-containing material and the immersion in the sugar and alcohol-containing material is, for example, 8 days to 6 months, or 2 weeks to 6 months. From the viewpoint of flavor, preferably, It is immersed for 8 days to 2 months, or 2 weeks to 2 months, more preferably 2 weeks to 1 month. After the soaking period, the plum fruit can be separated and provided as plum wine.

The temperature during immersion is not particularly limited as long as it does not interfere with the effects of the present invention. ~23°C, more preferably 18°C to 22°C.

In the present invention, by adjusting the concentration of hexyl acetate in plum wine within a predetermined range and increasing the absorbance at a wavelength of 520 nm to a predetermined value or more, fresh and fruity flavor is enhanced and bright red color is exhibited. Therefore, according to another aspect of the present invention, there is provided a method of enhancing the fresh and fruity flavor of umeshu and imparting a desirable bright red color to umeshu, the method comprising freezing ripened ume and removing the pericarp. and/or immersing the pulp in an aqueous alcohol solution and adding sugars after the immersion is started.

Furthermore, in the present invention, the hexyl acetate concentration in plum wine is adjusted within a predetermined range, and the absorbance at a wavelength of 520 nm is set to a predetermined value or higher, thereby reducing harshness and astringency. Therefore, according to another aspect of the present invention, there is provided a method for reducing harshness or astringency, comprising freezing ripening plums, soaking the peel and/or pulp in an aqueous alcohol solution, soaking adding sugar after initiation.

EXAMPLES The present invention will be described in more detail below with reference to Examples, but the present invention is not limited to these Examples. In the examples, "%" means "% by mass" unless otherwise specified. Evaluation of each test was evaluated independently for each test. In addition, the units and measurement methods of the present invention comply with JIS unless otherwise specified.

Measurement of absorbance at 520 nm (OD520), measurement of concentrations of total anthocyanin (T-ANT) and hexyl acetate, and sensory evaluation in the following test examples were carried out as follows.

I. Measurement of OD520 The absorbance of the sample at a wavelength of 520 nm was measured using a spectrophotometer (manufactured by Shimadzu Corporation).

II. Measurement of Total Anthocyanin (T-ANT) Concentration Measurement of total anthocyanin was performed by a colorimetric method (in terms of malvidin-3-glucoside). The sample was appropriately diluted with 1N-hydrochloric acid, and after 60 minutes, the absorbance at a wavelength of 520 nm was measured with a spectrophotometer (manufactured by Shimadzu Corporation).

III. Determination of Hexyl Acetate Concentration1 . Pretreatment of sample (i) 11 g of sodium chloride, 40 mL of sample, 0.2 mL of 100 mg/L internal standard solution (cyclohexanol), and 2 mL of n-pentane were added to a separating funnel and shaken for 10 minutes with a shaker.
(ii) The upper layer was collected and dehydrated using anhydrous sodium sulfate.
(iii) Filter (0.45 μm) filtered test solution was measured by GC/MS (internal standard method).
2. GS/MS measurements were performed under the following conditions using the following equipment.
・ Apparatus: Gas chromatograph GC2010 (manufactured by Shimadzu Corporation)
・ Detector: GSMS QP2010 (manufactured by Shimadzu Corporation)
・Column: HP-1MS (1909is-936) (J&W Scientific)
length 60m inner diameter 0.25mm film thickness 0.25μm
・Carrier gas: He
・Column flow rate: 0.97 mL/min
・Injection volume: 1 μl
・Split ratio: 10:1
・Temperature rising conditions: 70°C/min, hold for 15 minutes -10°C/min temperature rise 110°C/0 min hold -5°C/min temperature rise 140°C/0 minute hold -10°C/min temperature rise 220°C/0 minute hold -10°C/min temperature rise to 325°C, hold for 0 minutes, vaporization chamber temperature: 240°C
・Detector temperature: 250°C
・Ion source temperature: 200°C
・Interface temperature: 240°C
・Analysis time: 43.5 minutes

IV. Sensory evaluation of flavor (Test Examples 2 to 5)
The sensory evaluation was conducted by four expert panelists on (1) fruity flavor, (2) fresh flavor, (3) harsh aftertaste and astringent taste, (4) red color tone (appearance), and (5) overall evaluation. was evaluated by a 5-point method. A higher score means more favorable.
For (1) fruity flavor and (2) fresh flavor, comparative tasting was conducted and each was evaluated stepwise from 1 (weak) to 5 (strong). Here, (1) fruity flavor refers to plum-like fruity flavor. In addition, (2) the fresh flavor refers to a flavor reminiscent of freshly picked plums.
(3) Harsh and astringent aftertastes were evaluated by comparative tasting from 1 (strong) to 5 (weak). Here, the acrid taste includes an astringent taste.
(4) Regarding the red color tone (appearance), whether or not the red color tone (bright red) peculiar to dew madder is maintained is used as a criterion, and it is evaluated in stages from 1 (poor) to 5 (good). .
Evaluation was made by averaging the scores of the panels, and those with an average score of 3 or more were judged to be suitable, and those with an average score of 4 or more were judged to be particularly suitable.
As a reference, a comparative tasting was conducted with a commercially available product using unscented unripe plums.
(5) Comprehensive evaluation was evaluated by the total score of (1) to (4) (◎: total score 16 points or more, ○: total score 12 points or more and less than 16 points, △: total score 8 points or more less than 12 points, x: total less than 8 points).

V. Sensory evaluation of fragrance (Test Example 6)
The sensory evaluation was conducted by a panel of four specialists, who evaluated the nose-smelling scent (standing scent) of umeshu using a 5-point method for (1) fruity scent, (2) fresh scent, and (3) overall evaluation. . A higher score means more favorable.
(1) fruity scent and (2) fresh scent were evaluated in a stepwise manner from 1 (weak) to 5 (strong). Here, (1) fruity aroma refers to a plum-like fruity flavor. Furthermore, since Test Example 6 is obtained by adding hexyl acetate to plum wine, it is assumed that the scent is suitable for plum wine. In other words, when the concentration of hexyl acetate increases, the pear-like aroma becomes stronger, making it unsuitable for umeshu. Therefore, in Test Example 6, whether or not the fruity aroma is strong is evaluated on the premise that it has an umeshu-like aroma. In addition, (2) fresh flavor refers to a scent reminiscent of freshly picked plums.
(3) Comprehensive evaluation was evaluated based on the total score of (1) fruity scent and (2) fresh scent (◎: total score of 8 points or more, ○: total score of 6 to 8 points, △ : Total score of 4 or more and less than 6, ×: Total score of less than 4).

Test Example 1: Investigation of the Plum Wine Producing Method of the Present Invention Optimal conditions for the method of producing the plum wine of the present invention were examined.
The method for producing umeshu of the present invention comprises freezing ripened ume, immersing the peel and/or pulp in an alcohol-containing material, and adding saccharides after the start of immersion.
In the above production method, the following conditions were examined, and the optimal conditions were those in which "OD520" and "T-ANT" were the highest and/or where the evaluation was high in sensory evaluation. In Test Group 5, priority was given to the results of the sensory evaluation.
(Test section 1) Alcohol concentration during immersion (Test section 2) Immersion temperature (Test section 3) Immersion period (Test section 4) Amount of sugars during immersion (sugar/plum (kg/kg))
(Test Group 5) Addition Timing of Sugars The plums used in Test Example 1 were after-ripened and frozen dewmadder (red coloring 10%), which will be described later.
Table 1 shows the results.

Plum wine in the following test examples was produced as follows.

1) Harvesting of plum fruit Dewmadder was used as a raw material of plum. Plum fruits were harvested in one of four stages: 10%, 40%, 80% red coloration, and overripeness. The judgment of 10%, 40%, and 80% of the above red coloring is based on the color chart distributed by the Plum Research Institute, Wakayama Prefectural Fruit Experiment Station (edited and published by the Plum Research Institute, Wakayama Prefectural Fruit Experiment Station). and high-quality fruit supply technology Cultivation management manual March 2016). Judgment of overripeness is not described in the color chart, but in this test, it was defined as when it turned yellow on the tree and harvested.
2) After-ripening For the after-ripening process, an ethylene generator is added to the harvested dew madder, sealed, left to stand at room temperature (15-25°C) for 48 hours, then unsealed and left to stand for another 48 hours. It was done by It was then stored below 10°C for about 24 hours. On the other hand, for those not subjected to the after-ripening treatment, the harvested plums were stored as they were at 10° C. or lower for about 24 hours.
3) Freezing treatment The madder madder that had undergone the after-ripening treatment or the madder without further-ripening treatment was frozen by standing in a freezer at -20°C for 24 hours or more. Hereinafter, the frozen madder is also referred to as frozen ume, and the unfrozen madder is also referred to as fresh ume.
4) Manufacturing method of plum wine by conventional method Raw plums or frozen plums were mixed at a ratio of plum (kg): 35% (V / V%) alcohol (L): sugars (kg) = 1: 1.8: 0.5 It was immersed so as to be In addition, as saccharides, white sugar was used and it was immersed at 20° C. for 6 months.
5) Method for producing plum wine by the method of the present invention First, soak fresh plums or frozen plums at a ratio of plum (kg): 20% (V / V %) alcohol (L) = 1: 1.8. , and immersed in 20% alcohol at 20°C. Seven days after soaking the plums, white sugar was added so that the ratio of plums (kg):20% alcohol (L):sugars (kg)=1:1.8:0.5. After that, soaking of the plums was continued, and the plums were soaked at 20°C for 21 days after soaking.

Test Example 2: Comparison of Redness and Flavor Components in Umeshu Produced Using Unripened Fresh Tsuyumadder, Unripened Frozen Tsuyumadder, Ripe Raw Tsuyumadder, or Ripened Frozen Tsuyumadder This Test Example In the above, 10% red-colored dewmadder was used as plum, and plum wine produced by a conventional method was used. Flavor components were confirmed by comparing the red color of the produced umeshu with or without ripening of the ume used in the production of umeshu and with or without freezing treatment (hereinafter, with freezing treatment: frozen ume, without freezing treatment: raw ume). OD520 and T-ANT concentration were analyzed for comparison of the red color of umeshu. Furthermore, in order to confirm the flavor component, the concentration of hexyl acetate was compared.
The results are shown in Tables 2-5 and Figures 1-2.

Plum wine using after-ripened frozen plums had an OD520 and T-ANT concentration that were 9 times or more higher than plum wine using frozen plums that were not ripened (Tables 2, 3 and Fig. 1 ( A) (B)).
Plum liqueur using after-ripened frozen ume had similar OD520 and T-ANT concentration compared to ume liqueur using after-ripened raw ume (Tables 2, 3 and FIG. 1 (A ) (B)).
From the above results, it was found that by using the after-ripened dewmadder, it is possible to obtain umeshu with a specific deep red color (crimson color).

Hexyl acetate was below the detection limit in umeshu made from unripened ume and umeshu made from afterripened raw ume, while 19.4 μg/L was detected in umeshu made from afterripened frozen ume. was done. (Table 4 and Figure 2)

In the above sensory evaluation, unscented plum wine made from unripe plums of Nanko plums, which is commonly available on the market, was used as an object for comparative tasting.
In the sensory evaluation, the fruity aroma and fresh aroma were felt to be slightly stronger in the umeshu using after-ripened frozen plums than in the umeshu using after-ripened raw ume (Table 5).
From the above results, it can be said that umeshu with an excellent flavor balance can be produced by using after-ripening ume after freezing.

Test Example 3: Comparison of Red Color and Flavor Components by Different Manufacturing Methods of Plum Wine The flavor components were confirmed by comparing the red color of umeshu due to differences in method). OD520 and T-ANT concentration were analyzed in order to compare the red color of the produced plum wine. Furthermore, in order to confirm the flavor component, the concentration of hexyl acetate was compared.

Compared to the plum wine produced by the conventional method, the plum wine produced by the method of the present invention had an OD520 and a T-ANT concentration that were twice or more (Tables 6, 7 and 3 (A) (B )).
From the above results, it was found that the production by the method of the present invention specifically yields deep red (crimson) plum wine.

The concentration of hexyl acetate in the umeshu produced by the method of the present invention was about 3.2 times higher than that in the umeshu produced by the conventional method (Table 8 and FIG. 4).

In the above sensory evaluation, unscented plum wine made from unripe plums of Nanko plums, which is commonly available on the market, was used as an object for comparative tasting.
In the sensory evaluation, the plum wine produced by the method of the present invention was felt to have a stronger fruity and fresh aroma than the plum wine produced by the conventional method. The umeshu produced by the method of the present invention was less harsh and astringent than the umeshu produced by the conventional method (Table 9).
From the above results, it can be said that umeshu with excellent flavor balance can be produced by producing by the method of the present invention.

Test Example 4: Comparison of red color and flavor components of umeshu produced using plums of different degrees of maturity In this test example, the red color and flavor components of umeshu manufactured using tsuke-madder of different degrees of maturity were compared. OD520 and T-ANT concentration were analyzed in order to compare the red color of the produced plum wine.
Furthermore, in order to confirm the flavor component, the concentration of hexyl acetate was compared. The degree of maturity was divided into 4 levels: 10% red, 40%, 80%, and overripe. The umeshu of this test example is umeshu produced by the method of the present invention using after-ripened and frozen dewmadder as ume.

Plum wine made from red-colored 10% reddish madder had an OD520 and T-ANT concentration that were more than five times higher than those made from overripe reddish madder (Tables 10, 11 and FIG. 5 ( A) (B)).
From the above results, it can be seen that by using 10% of the red-colored frozen dew madder that has been ripened and produced by the method of the present invention, it is possible to obtain plum wine with a specific deep red color (bright red color). rice field.

Hexyl acetate was the most abundant in umeshu made from red-colored 10% dewmadder (Table 12 and Figure 6).

In the above sensory evaluation, unscented plum wine made from unripe plums of Nanko plums, which is commonly available on the market, was used as an object for comparative tasting.
In the sensory evaluation, a strong fruity fragrance and fresh fragrance were felt in the test group with 10% red coloring. All of the umeshu produced by the method of the present invention were less harsh and astringent in taste (Table 13).
From the above results, it was found that umeshu with an excellent flavor balance can be obtained by using 10% red-colored, frozen after-ripe madder and producing it by the method of the present invention.

Test Example 5: Comparison with other company's commercial products Furthermore, plum wine with the deepest red color and excellent flavor balance produced by the method of the present invention (10% red coloring, with after-ripening, with freezing, produced by the method of the present invention) ), a commercial red umeshu using dewmadder and a commercial red umeshu using pigments (red perilla and vegetable pigments) were comparatively evaluated.

In the sensory evaluation, commercial red umeshu using dewmadder and commercial red umeshu using pigments (red shiso and vegetable pigments) were used as objects for comparative tasting. Only commercial product F is a commercial red plum wine using pigments (red shiso and vegetable pigments), and commercial products B to E are commercial red plum wines using dewmadder.
In the sensory evaluation, the umeshu of the present invention had a stronger fruity aroma and fresher aroma than other companies' commercial products. The umeshu of the present invention also had a less harsh aftertaste and astringent taste than other companies' commercial products. In addition, many commercial products using dewmadder had a strong brown color, but the plum wine of the present invention had a very good reddish color (crimson) peculiar to dewmadder ( Table 14).

The OD520 analysis results of the plum wine of the present invention were more than three times higher than those of other companies' commercial products (Table 15).

The hexyl acetate concentration of the umeshu of the present invention was more than 9 times higher than that of other companies' commercial products (Table 16).
From the above results, it can be said that the umeshu of the present invention has a deeper red color and a better flavor balance than other companies' commercial products.

Test Example 6: Sensory evaluation of plum wine products to which hexyl acetate was added Hexyl Acetate (purity >99.0% (Tokyo Chemical Industry Co., Ltd.)) was added to the solution and used as a sample.
0, 8, 10, 30, 50, 100, 500, 750, 1000, 3000, 6000, 10000, 100000, 200000 μg/L
A sensory evaluation was performed on the above samples.
The results are shown in Table 17.

From the results of sensory evaluation, it can be said that the concentration of hexyl acetate is 8 to 100,000 ppb, preferably 30 to 500 ppb, from the viewpoint of fruity fragrance and fresh fragrance.

Claims (3)

A method for producing umeshu having a bright red color , comprising freezing ripened red ume, immersing the peel and/or pulp in an alcohol-containing material, adding sugar after the start of immersion , and further adding total anthocyanin to the umeshu. A method comprising adjusting the concentration to 30 ppm or more and the absorbance at a wavelength of 520 nm to 0.5 or more . The method for producing plum wine according to claim 1, wherein the sugar is added within 1 to 14 days from the start of immersion. A method for enhancing the fresh and fruity flavor of umeshu and imparting a desirable bright red color to umeshu, comprising freezing ripened red ume, immersing the peel and/or pulp in an aqueous alcohol solution, and adding saccharide after the start of immersion. and further adjusting the total anthocyanin concentration of the plum wine to 30 ppm or more and the absorbance at a wavelength of 520 nm to 0.5 or more .

Images