JP7199961B2 - Umeshu and its production method - 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 depth of taste and/or enhanced lingering aftertaste and a method for producing the same.

Plum wine has been made at home for a long time, and is generally made by putting predetermined amounts of ume, distilled liquor with a high alcohol content such as shochu, and sugar in airtight containers and steeping them for about a year. there is In recent years, breweries have also developed and produced umeshu that can be easily drunk.

Furthermore, if the umeshu to be developed and produced as described above is umeshu that is not authentic umeshu, that is, non-genuine umeshu, in order to improve its palatability, it is necessary to search for flavor-enhancing ingredients that enhance the authenticity of umeshu. power is being applied.

On the other hand, the following knowledge is known about eugenol. In Patent Document 1, when a fruit liquor such as wine obtained by alcoholic fermentation of fruit juice by the action of yeast contains specific amounts of eugenol, d-limonin and citric acid, the fruit aroma persists when warmed. It is described that the feeling of irritation is reduced.

However, there is no report on the relationship between the combination of eugenol and caffeic acid and the enhancement of taste depth and/or enhancement of aftertaste.

JP 2016-049051 A

The present inventors found that by adding eugenol and caffeic acid to plum wine at predetermined concentrations, the depth of taste of plum wine is enhanced and the lingering aftertaste is enhanced. The present invention is based on such findings.

Accordingly, an object of the present invention is to provide umeshu with enhanced depth of taste and/or enhanced lingering aftertaste.

According to the present invention, the following inventions are provided.
(1) Plum wine containing eugenol at a concentration of 800 ppb to 5000 ppb and caffeic acid at a concentration of 500 ppb or more.
(2) The plum wine according to (1), which has a benzaldehyde concentration of 2 to 50 ppm.
(3) The plum wine according to (1) or (2), wherein the plum wine is non-genuine plum wine.
(4) A method for producing plum wine, comprising adjusting the concentration of eugenol in plum wine to 800 ppb to 5000 ppb and adjusting the concentration of caffeic acid to 500 pbb or more.
(5) The method according to (4), wherein the concentration of benzaldehyde is adjusted to 2-50 ppm.
(6) A method for enhancing the depth of flavor of plum wine, comprising adjusting the concentration of eugenol in plum wine to 800 ppb to 5000 ppb and adjusting the concentration of caffeic acid to 500 pbb or more.
(7) The method according to (6), wherein the concentration of benzaldehyde is adjusted to 2-50 ppm.
(8) A method for enhancing aftertaste, comprising adjusting the concentration of eugenol in plum wine to 800 ppb to 5000 ppb and adjusting the concentration of caffeic acid to 500 pbb or more.
(9) The method according to (8), wherein the concentration of benzaldehyde is adjusted to 2-50 ppm.

According to the present invention, by making plum wine containing eugenol and caffeic acid as described above, it is possible to enhance the depth of taste and/or enhance the lingering aftertaste. It is advantageous in that it is possible to have a full-fledged taste like plum wine by enhancing the depth of taste and the lingering aftertaste. Furthermore, according to the present invention, it is also possible to enhance the brilliance of the aroma and/or the complexity of the taste.

Specific description of the invention

The plum wine of the present invention contains eugenol and caffeic acid. In the present invention, by adjusting the concentrations of eugenol and caffeic acid in umeshu to respective predetermined ranges, it is possible to enhance the depth of taste of umeshu and/or enhance the lingering aftertaste. Such umeshu can be produced by adjusting the concentrations of eugenol and caffeic acid in the production process of umeshu containing eugenol and caffeic acid. The concentration of eugenol and caffeic acid may be adjusted by adding eugenol and/or caffeic acid, or by blending raw materials containing eugenol and/or caffeic acid, or by increasing or decreasing the blending amount. You can do it by

The eugenol concentration in the umeshu of the present invention is 800-5000 ppb, preferably 800-4000 ppb, more preferably 800-3000 ppb, still more preferably 1000-2500 ppb, still more preferably 1000-2000 ppb. Here, "ppb" indicates parts per billion, and 1 ppb corresponds to 1 μg/L. A preferred lower limit of the eugenol concentration in the plum wine of the present invention is 1000 ppb, and a preferred upper limit is 3000 ppb, more preferably 2500 ppb, and even more preferably 2000 ppb. The eugenol concentration in plum wine can be measured by a high performance liquid chromatography (HPLC) method. Such measurements can be conveniently carried out using a commercially available HPLC apparatus (eg, manufactured by Shimadzu Corporation) and a column (eg, CAPCELLPAK C18 UG 120 Å (SHISEIDO)). The above measurement can be performed under the following conditions, for example. Analyzer: LC20 system manufactured by Shimadzu Corporation, column: CAPCELLPAK C18 UG 120 Å (SHISEIDO), column size: 4.6 × 250 mm, particle size: 5 µm, solution A: 0.4% (v/v) aqueous solution of phosphoric acid, B solution: 80% (v/v) acetonitrile for high-performance liquid chromatography + 20% (v/v) A solution, flow rate: 1.0 mL/min, injection volume: 10 μL, column temperature: 40°C, detection: UV280 nm , B liquid ratio (%(v/v)) Time program: 0 min 5%(v/v), 0 → 25 min 25%(v/v), 25 → 30 min 100%(v/v), 30 → 35 min 100%(v/v), 35.01 min 5%(v/v), 50 min STOP. Here, for more accurate concentration measurement, it is desirable to use a calibration curve prepared based on measured values of several standard solutions or control samples having known concentrations.

The concentration of caffeic acid in the umeshu of the present invention is, for example, 500 ppb or more, preferably 500 to 5000 ppb, more preferably 1000 to 5000 ppb. The preferred lower limit of the caffeic acid concentration in the plum wine of the present invention is 1000 ppb, and the preferred upper limit is 5000 ppb from the viewpoint of cost. The caffeic acid concentration in plum wine can be measured by a high performance liquid chromatography (HPLC) method. Such measurements can be conveniently carried out using a commercially available HPLC apparatus (eg, manufactured by Shimadzu Corporation) and a column (eg, CAPCELLPAK C18 UG 120 Å (SHISEIDO)). The above measurement can be performed under the following conditions, for example. Analyzer: LC20 system manufactured by Shimadzu Corporation, column: CAPCELLPAK C18 UG 120 Å (SHISEIDO), column size: 4.6 × 250 mm, particle size: 5 µm, solution A: 0.4% (v/v) aqueous solution of phosphoric acid, B solution: 80% (v/v) acetonitrile for high-performance liquid chromatography + 20% (v/v) A solution, flow rate: 1.0 mL/min, injection volume: 10 μL, column temperature: 40°C, detection: UV280 nm , B liquid ratio (%(v/v)) Time program: 0 min 5%(v/v), 0 → 25 min 25%(v/v), 25 → 30 min 100%(v/v), 30 → 35 min 100%(v/v), 35.01 min 5%(v/v), 50 min STOP. Here, for more accurate concentration measurement, it is desirable to use a calibration curve prepared based on measured values of several standard solutions or control samples having known concentrations.

In the plum wine of the present invention, the mass ratio of eugenol and caffeic acid (eugenol: caffeic acid) may be 1:0.1 to 1:7, preferably 1:0.2 to 1:6, more preferably is 1:0.3 to 1:5.

In addition, it is known that benzaldehyde is present as one of the aromatic components of authentic plum wine. Therefore, the umeshu of the present invention may also contain benzaldehyde, and the concentration of such benzaldehyde may be adjusted. In the plum wine of the present invention, the concentrations of eugenol and caffeic acid are adjusted within a predetermined range, and the concentration of benzaldehyde is adjusted to further enhance the richness of the taste of plum wine and/or further enhance the lingering aftertaste. can do. Such umeshu can be produced by adjusting the concentration of benzaldehyde in the production process of benzaldehyde-containing umeshu. The concentration of benzaldehyde may be adjusted by adding benzaldehyde, or by blending a raw material containing benzaldehyde, or by increasing or decreasing the blending amount.

The benzaldehyde concentration in the plum wine of the present invention is preferably 2 to 50 ppm, more preferably 2 to 40 ppm, still more preferably 2 to 36 ppm. Here, "ppm" indicates parts per million, and 1 ppm corresponds to 1 mg/L. The benzaldehyde concentration in plum wine can be measured by a high performance liquid chromatography (HPLC) method. Such measurements can be conveniently carried out using a commercially available HPLC apparatus (eg, manufactured by Shimadzu Corporation) and a column (eg, CAPCELLPAK C18 UG 120 Å (SHISEIDO)). The above measurement can be performed under the following conditions, for example. Analyzer: LC20 system manufactured by Shimadzu Corporation, column: CAPCELLPAK C18 UG 120 Å (SHISEIDO), column size: 4.6 × 250 mm, particle size: 5 µm, solution A: 0.4% (v/v) aqueous solution of phosphoric acid, B solution: 80% (v/v) acetonitrile for high-performance liquid chromatography + 20% (v/v) A solution, flow rate: 1.0 mL/min, injection volume: 10 μL, column temperature: 40°C, detection: UV280 nm , B liquid ratio (%(v/v)) Time program: 0 min 5%(v/v), 0 → 25 min 25%(v/v), 25 → 30 min 100%(v/v), 30 → 35 min 100%(v/v), 35.01 min 5%(v/v), 50 min STOP. Here, for more accurate concentration measurement, it is desirable to use a calibration curve prepared based on measured values of several standard solutions or control samples having known concentrations.

In the plum wine of the present invention, the mass ratio of eugenol and benzaldehyde (eugenol:benzaldehyde) may be 1:0.4 to 1:100, preferably 1:0.7 to 1:45, more preferably 1 : 1 to 1:36. In the plum wine of the present invention, the mass ratio of caffeic acid and benzaldehyde (caffeic acid:benzaldehyde) may be 1:0.4 to 1:100, preferably 1:0.6 to 1:40, More preferably 1:1 to 1:36.

"Plum wine" in the present invention includes liqueurs defined 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 means alcoholic beverages. 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. Also in the present invention, non-genuine plum wine is advantageous in that it enhances the depth of taste and/or enhances the lingering aftertaste. On the other hand, authentic plum wine may be used from the viewpoint of further enhancing the depth of taste and/or further enhancing the lingering aftertaste.

The plums used in the above-mentioned plum wine can be any plums that can be used in plum wine, such as unripe plums, ripening plums, and fully ripened plums.

Alcohol in the umeshu of the present invention can be provided by blending an ethanol-containing material. Raw material alcohol and spirits can be used as the ethanol-containing material, and examples of preferable distilled spirits include vodka, gin, shochu, tequila, rum, brandy, and whiskey. According to a preferred embodiment of the present invention, the alcohol source is raw material alcohol, shochu, brandy or gin, more preferably raw material alcohol, shochu or brandy.

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.

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.

The umeshu of the present invention can be produced according to a conventional method for producing umeshu, except for adjusting the concentrations of eugenol and caffeic acid, and optionally adjusting the concentration of benzaldehyde. For example, umeshu 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, although there is no particular limitation on the storage conditions of the plums immersed in the ethanol-containing material, the plums can be used as they are (for example, normal temperature or low temperature) or frozen. The umeshu of the present invention can be produced by appropriately adding eugenol, caffeic acid, benzaldehyde, or a raw material containing eugenol, caffeic acid or benzaldehyde at any stage of the production process.

In the present invention, by adjusting the concentration of eugenol and caffeic acid in plum wine within a certain range, the depth of taste of plum wine is enhanced. Therefore, according to another aspect of the present invention, there is provided a method for enhancing the depth of taste of plum wine, the method comprising adjusting the concentration of eugenol in plum wine to 800 ppb to 5000 ppb and the concentration of caffeic acid to 500 pbb or more. comprising coordinating.

Furthermore, in the present invention, the lingering aftertaste is enhanced by adjusting the concentration of eugenol and caffeic acid in plum wine within a certain range. Therefore, according to still another aspect of the present invention, there is provided a method for enhancing the lingering aftertaste of plum wine, the method comprising adjusting the concentration of eugenol in plum wine to 800 ppb to 5000 ppb and the concentration of caffeic acid to 500 pbb or more. and adjusting to

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. 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.

Test Example 1: Measurement of eugenol content in plum wine products1 . Samples Commercially available plum wine was used as samples, and samples A to H were used. Here, samples A to D are non-genuine plum wine, and samples E to H are authentic plum wine.

2. Measurement method Eugenol in plum wine was quantified by high performance liquid chromatography (HPLC). The measurement was performed by an absolute calibration curve method using Eugenol (Tokyo Chemical Industry Co., Ltd.).
(1) Sample pretreatment A sample was filtered through a membrane filter (cellulose acetate type) with a pore size of 0.45 µm and subjected to analysis.

(2) HPLC measurements were carried out under the following conditions using the following equipment.
・Analysis device: LC20 system manufactured by Shimadzu Corporation
・Column: CAPCELLPAK C18 UG 120Å (SHISEIDO)
・Column size: 4.6×250 mm
・Particle size: 5 μm
・A solution: 0.4% (v/v) phosphoric acid aqueous solution ・B solution: 80% (v/v) acetonitrile for high performance liquid chromatography + 20% (v/v) A solution ・Flow rate: 1.0 mL/min
・Injection volume: 10 μL
・Column temperature: 40℃
・Detection: UV280 nm (Confirm the spectrum with a PDA detector for components)
B liquid ratio (% (v / v)) Time program:
0 min 5%(v/v), 0 → 25 min 25%(v/v), 25 → 30 min 100%(v/v), 30 → 35 min 100%(v/v), 35.01 min 5% (v/v), 50 min STOP

3. Results The test results of Test Example 1 are shown in Table 1.

Test Example 2: Measurement of caffeic acid content in plum wine products1 . Samples Samples A to H of Test Example 1 were used as samples.

2. Measurement method Caffeic acid in plum wine was quantified in the same manner as in Test Example 1, except that caffeic acid (Tokyo Chemical Industry Co., Ltd.) was used and the absolute calibration curve method was used.

3. Results The test results of Test Example 2 are shown in Table 2.

Test Example 3: Measurement of benzaldehyde content in plum wine products1 . Samples As samples, samples A, B, E and F of Test Example 1 and further sample I were used. Here, sample I is genuine plum wine.

2. Measurement Method Quantification of benzaldehyde in plum wine was performed in the same manner as in Test Example 1, except that Benzaldehyde (Sigma-Aldrich Japan) was used and quantified by an absolute calibration curve method.

3. Results The test results of Test Example 3 are shown in Table 3.

Test Example 4-1: Sensory evaluation of eugenol-added plum wine product (sample A) (1)
1. Samples Sample A to which eugenol was added was used as a sample. The concentration of eugenol in Sample A after adding eugenol was 177 ppb, 227 ppb, 277 ppb, 377 ppb, or 477 ppb.

2. Evaluation method A sensory evaluation was performed by three panelists specializing in plum wine. Here, the umeshu expert panel is a person who has passed the certification test based on ISO 9000 and has five years or more of practical experience in producing umeshu.

3. Results The results of the sensory evaluation by a panel specializing in umeshu are shown below.
227 ppb: The splendor of the top fragrance was reduced, and a spicy feeling appeared. The taste was also refreshing.
277 ppb: The spiciness of the top fragrance was reduced, and the fragrance had a slightly full-fledged plum wine fragrance.
377 ppb: The body feeling (thickness) in the middle to the latter half increased slightly, and the bitter aftertaste was alleviated. At 277 ppb, the taste was slightly more authentic than plum wine, and the balance was improved.
477 ppb: It has a full-fledged flavor that is slightly more like plum wine than 377 ppb. The scent was also slightly brighter.

Test Example 4-2: Sensory evaluation of eugenol-added plum wine product (sample A) (2)
1. Samples Sample A to which eugenol was added was used as a sample. The concentration of eugenol in sample A after adding eugenol was 177 ppb, 677 ppb, 1177 ppb, 3177 ppb, 4177 ppb, or 5177 ppb.

2. Evaluation Method As in Test Example 4-1, sensory evaluation was performed by three panelists specializing in umeshu.

3. Results The results of the sensory evaluation by a panel specializing in umeshu are shown below.
677 ppb: Compared to 177 ppb, the top aroma was slightly more gorgeous, and the depth of taste and the lingering aftertaste were slightly stronger.
1177 ppb: From the middle stage to the latter half, the thickness of the taste and the lingering aftertaste increased slightly compared to 677 ppb. Compared to 677 ppb, it has a full-fledged flavor that is slightly like plum wine, and the balance is improved.
3177 ppb: Compared to 1177 ppb, a full-fledged umeshu aroma appeared slightly in the top incense. It had just the right amount of authentic thickness and complex flavors typical of pickled plum wine.
4177 ppb: Compared to 3177 ppb, the top fragrance was splendid and had a spicy feeling. The full-fledged, complex flavor typical of pickled plum wine is still present, but the aftertaste is somewhat refreshing.
5177 ppb: A spicy feeling derived from eugenol appeared in the top scent, and the umeshu-likeness was somewhat lost. The depth and complexity of the taste increased further, but a slight bitterness began to appear in the aftertaste.
From the above, it was confirmed that eugenol tends to make the taste thicker and the aftertaste stronger in a dose-dependent manner.

Test Example 5: Sensory evaluation of plum wine product (sample A) to which caffeic acid was added 1. Sample Sample A to which caffeic acid was added was used as a sample. The concentration of caffeic acid in Sample A after adding caffeic acid was 40 ppb, 140 ppb, 1040 ppb, or 10040 ppb.

2. Evaluation Method As in Test Example 4-1, sensory evaluation was performed by three panelists specializing in umeshu.

3. Results The results of the sensory evaluation by a panel specializing in umeshu are shown below.
40 ppb: The thickness of the taste increased slightly from the middle stage to the latter half.
140 ppb: Compared to 40 ppb, the thickness of the taste increased slightly, the complexity was felt, and the bitterness of the aftertaste was alleviated.
1040 ppb: Compared to 140 ppb, the depth of flavor was slightly increased, and the flavor was slightly more complex like authentic plum wine.
10040 ppb: From 1040 ppb, the depth and complexity of the taste increased slightly.
From the above, it was confirmed that caffeic acid dose-dependently increased the depth of taste and the aftertaste.

Test Example 6: Sensory evaluation of plum wine product (Sample A) to which a constant amount of caffeic acid and eugenol were added in stages From the results of Test Examples 4 and 5, it was found that eugenol and caffeic acid had a dose-dependent taste. Since there was a tendency to increase thickness and aftertaste, we investigated the combination of eugenol and caffeic acid.
1. Sample Sample A was used as a sample, to which eugenol and caffeic acid were added so that the concentrations of eugenol and caffeic acid in plum wine were as shown in Table 4, respectively. As shown in Table 4, the concentration of caffeic acid was kept constant and the concentration of eugenol was increased stepwise. Here, sample A is non-genuine plum wine.

2. Evaluation method The sensory evaluation was conducted by a panel of three plum wine specialists, using a 5-point method for (1) the gorgeousness of the aroma, (2) the depth of the taste, (3) the lingering aftertaste (persistence), and (4) the complexity of the taste. made an evaluation.
(1) brilliance of aroma, (2) thickness of taste, (3) lingering aftertaste (persistence), and (4) complexity of taste, each of which is graded from 1 (weak) to 5 (strong). The score of sample A, which is non-genuine plum wine, was set to 1, and the score of sample E, which is authentic plum wine, was set to 4. Sample E was used as a positive control with particularly good depth of taste and lingering aftertaste. Moreover, when the score is higher than 4, it indicates that the umeshu has a more authentic taste than the sample E. Here, (1) gorgeousness of fragrance relates to fragrance, and refers to gorgeous benzaldehyde-like fragrance peculiar to plum wine. (2) Thickness of taste relates to taste, and refers to the state in which the taste spreads in the mouth and the taste is felt. (4) Complexity of taste relates to taste, and refers to a variety of tastes, such as amino acids and organic acids, that are satisfying to drink as a beverage.
The evaluations of (1) to (4) are the average scores of plum wine specialist panels. In (1) and (2), those with an average score of 1.5 points or more were judged to be suitable, and those with an average score of 2 points or more were judged to be particularly suitable. In (3) and (4), those with an average score of 2 points or more were judged to be suitable, and those with an average score of 2.5 points or more were judged to be particularly suitable.

3. Results Table 4 shows the sensory evaluation results of Test Example 6.

When the caffeic acid concentration is 540 ppb, the increase in eugenol improves (1) the gorgeousness of the aroma, (2) the depth of the taste, (3) the lingering aftertaste (persistence), and (4) the complexity of the taste. Enhanced. Especially for (1), (3) and (4), significant enhancement was observed in a dose-dependent manner. From this, when caffeic acid was included together with eugenol, the effect of eugenol was remarkably recognized. Therefore, the combination of eugenol and caffeic acid is considered to be an effective ingredient for enhancing the depth of taste and the lingering aftertaste. From the results shown in Table 4, the preferable lower limit of the eugenol concentration in plum wine is considered to be about 800 ppb. Apart from the evaluation items (1) to (4) above, it was found that when the eugenol content was 4177 bbp or more, only the clove scent became conspicuous, which was not preferable. Therefore, the upper limit of the eugenol concentration in plum wine is considered to be preferably 4000 ppb, more preferably 3000 ppb, still more preferably 2500 ppb, and even more preferably 2000 ppb.
Here, although the evaluation of sample A, which is non-authentic plum wine, is 1, considering that sample A is actually sold non-authentic plum wine, the taste of non-authentic plum wine to which eugenol and caffeic acid are added The enhancement of thickness and aftertaste is surprising.

Test Example 7: Sensory evaluation of plum wine product (Sample A) to which constant amount of eugenol and stepwise increase of caffeic acid were added . Sample Sample A was used as a sample, in which eugenol and caffeic acid were added so that the concentrations of eugenol and caffeic acid in plum wine were as shown in Table 5, respectively. As shown in Table 5, the concentration of eugenol was kept constant and the concentration of caffeic acid was increased stepwise. Here, sample A is non-genuine plum wine.

2. Evaluation method Sensory evaluation was performed in the same manner as in Test Example 6.

3. Results Table 5 shows the sensory evaluation results of Test Example 7.

When the concentration of eugenol was 977 ppb, the increase in caffeic acid enhanced (2) depth of taste, (3) lingering aftertaste (persistence), and (4) complexity of taste. In particular, (3) was significantly enhanced in a dose-dependent manner at a caffeic acid concentration of 500 ppb or more. From this, when eugenol was contained together with caffeic acid, the effect of caffeic acid was remarkably recognized. Therefore, the combination of eugenol and caffeic acid is considered to be an effective ingredient for enhancing the depth of taste and the lingering aftertaste. From the results shown in Table 5, the preferable lower limit of caffeic acid concentration in plum wine is considered to be about 1000 ppb.
Here, although the evaluation of sample A, which is non-authentic plum wine, is 1, considering that sample A is actually sold non-authentic plum wine, the taste of non-authentic plum wine to which eugenol and caffeic acid are added The enhancement of thickness and aftertaste is surprising.

Test Example 8-1: Sensory evaluation of plum wine product (sample A) to which eugenol and caffeic acid were added 1. Sample Sample A was used as a sample, to which eugenol and caffeic acid were added so that the concentrations of eugenol and caffeic acid in plum wine were as shown in Table 6, respectively. Here, sample A is non-genuine plum wine.

2. Evaluation method Sensory evaluation was carried out by a panel of five plum wine specialists. did
(1) Thickness of taste and (2) Aftertaste (persistence) are evaluated in stages from 1 (weak) to 5 (strong), respectively. , and the rating of sample E, which is authentic plum wine, was set to 4. A score higher than 4 indicates that the plum wine has a more authentic taste than sample E. Here, the depth of taste relates to the taste, and refers to the state in which the taste spreads in the mouth and the taste is felt.
(3) Comprehensive evaluation is the sum of (1) richness of taste and (2) lingering aftertaste (persistence). bottom. Here, the full-fledged taste like plum wine refers to the taste like plum wine pickled at home.
The evaluations of (1) and (2) were obtained by averaging the scores of plum wine specialist panels. In (1), those with an average score of 1.5 points or more were judged to be suitable, and those with an average score of 2 points or more were judged to be particularly suitable. In (2), those with an average score of 2 points or more were judged to be suitable, and those with an average score of 2.5 points or more were judged to be particularly suitable.
Based on the evaluations of (1) and (2), a final judgment was made in (3) overall evaluation.

3. Results Table 6 shows the sensory evaluation results of Test Example 8-1.

Samples with a eugenol concentration of 800 ppb or more and a caffeic acid concentration of 500 ppb or more gave good results in all items of richness of taste and lingering aftertaste, demonstrating authentic taste typical of umeshu. Furthermore, it was found that as the amount of eugenol and/or caffeic acid increased, the flavor approached a more authentic taste like umeshu.
Here, although the evaluation of sample A, which is non-authentic plum wine, is 1, considering that sample A is actually sold non-authentic plum wine, the taste of non-authentic plum wine to which eugenol and caffeic acid are added The enhancement of thickness and aftertaste is surprising.

Test Example 8-2: Sensory evaluation of eugenol and caffeic acid-added plum wine product (Sample A) (reproducibility test)
A reproducibility test of Test Example 8-1 was performed.
1. Sample The sample was the same as in Test Example 8-1.

2. Evaluation method The sensory evaluation was performed by four panelists specializing in plum wine. did
(1) Thickness of taste and (2) Aftertaste (persistence) are evaluated in stages from 1 (weak) to 5 (strong), respectively. , the rating of sample E, which is authentic plum wine, was set to 5. Here, the depth of taste relates to the taste, and refers to the state in which the taste spreads in the mouth and the taste is felt.
(3) Comprehensive evaluation is the sum of (1) richness of taste and (2) lingering aftertaste (persistence). bottom.
The evaluations of (1) and (2) were obtained by averaging the scores of plum wine specialist panels. In (1), those with an average score of 1.5 points or more were judged to be suitable, and those with an average score of 2 points or more were judged to be particularly suitable. In (2), those with an average score of 2 points or more were judged to be suitable, and those with an average score of 2.5 points or more were judged to be particularly suitable.
Based on the evaluations of (1) and (2), a final judgment was made in (3) overall evaluation.

3. Results Table 7 shows the sensory evaluation results of Test Example 8-2.

A result similar to that of Test Example 8-1 was obtained.

Test Example 9-1: Sensory evaluation of eugenol and caffeic acid-added plum wine product (sample F) 1. Sample Sample F was used as a sample, in which eugenol and caffeic acid were added so that the concentrations of eugenol and caffeic acid in plum wine were as shown in Table 8, respectively. Here, sample F is genuine plum wine.

2. Evaluation Method Sensory evaluation was performed in the same manner as in Test Example 8-1.

3. Results Table 8 shows the sensory evaluation results of Test Example 9-1.

Sample F, which is authentic umeshu, produced the same results as non-authentic umeshu (Sample A). It turned out that a special taste is imparted. That is, it was found that the thickness of the taste and the lingering aftertaste were enhanced not only in non-authentic plum wine but also in authentic plum wine by adjusting the concentrations of eugenol and caffeic acid to predetermined concentrations.

Test Example 9-2: Sensory evaluation of eugenol and caffeic acid-added plum wine product (Sample F) (reproducibility test)
1. Sample The sample was the same as in Test Example 9-1.

2. Evaluation Method Sensory evaluation was performed in the same manner as in Test Example 8-2.

3. Results Table 9 shows the sensory evaluation results of Test Example 9-2.

Results similar to those of Test Example 9-1 were obtained.

Test Example 10-1: Sensory evaluation of umeshu product (sample B) to which eugenol, caffeic acid and benzaldehyde were added 1. Sample Sample B was used as a sample, in which eugenol, caffeic acid and benzaldehyde were added so that the concentrations of eugenol, caffeic acid and benzaldehyde in umeshu were as shown in Table 10, respectively. Here, sample B is non-genuine plum wine.

2. Evaluation Method Sensory evaluation was performed in the same manner as in Test Example 8-1.

3. Results Table 10 shows the sensory evaluation results of Test Example 10-1.

It was found that by adding benzaldehyde together with eugenol and caffeic acid, a full-fledged flavor can be imparted to umeshu. From the results shown in Table 10, the preferable upper limit of the benzaldehyde concentration in plum wine is considered to be about 40 ppm.
Here, although the evaluation of sample B, which is non-authentic plum wine, is 1, considering that sample B is actually sold non-authentic plum wine, in addition to eugenol and caffeic acid, benzaldehyde should be added. It is surprising that the depth of taste and the lingering aftertaste of non-genuine umeshu are further enhanced by this.

Test Example 10-2: Sensory evaluation of eugenol, caffeic acid and benzaldehyde-added plum wine product (Sample B) (reproducibility test)
1. Sample The sample was the same as in Test Example 10-1.

2. Evaluation Method Sensory evaluation was performed in the same manner as in Test Example 8-2.

3. Results Table 11 shows the sensory evaluation results of Test Example 10-2.

A result similar to that of Test Example 10-1 was obtained.

Claims (9)

Plum wine containing eugenol at a concentration of 800 ppb to 5000 ppb and caffeic acid at a concentration of 500 ppb or more. The plum wine according to claim 1, wherein the concentration of benzaldehyde is 2-50 ppm. 3. The plum wine according to claim 1 or 2, wherein the plum wine is non-genuine plum wine. A method for producing plum wine, comprising adjusting the concentration of eugenol in plum wine to 800 ppb to 5000 ppb and adjusting the concentration of caffeic acid to 500 pbb or more. The method according to claim 4, wherein the concentration of benzaldehyde is adjusted to 2-50 ppm. A method for enhancing the depth of taste of plum wine, comprising adjusting the concentration of eugenol in plum wine to 800 ppb to 5000 ppb and adjusting the concentration of caffeic acid to 500 pbb or more. The method according to claim 6, wherein the concentration of benzaldehyde is adjusted to 2-50 ppm. A method for enhancing aftertaste, comprising adjusting the concentration of eugenol in plum wine to 800 ppb to 5000 ppb and adjusting the concentration of caffeic acid to 500 pbb or more. A method according to claim 8, wherein the concentration of benzaldehyde is adjusted to 2-50 ppm.