JP6209883B2 - Frozen food with reduced saltiness - Google Patents

Description

  The present invention relates to a frozen food in which saltiness attenuation due to cryopreservation is suppressed and a method for producing the same. Moreover, this invention relates to the suppression method of the salty taste attenuation of frozen food.

  Frozen foods have the characteristic that there is a difference in taste when eating before and after freezing. Specifically, frozen foods before cryopreservation have both high and low salt concentration, and the taste is sharp, but after cryopreservation, the salty taste diffuses and the whole taste becomes sharp. The salty taste is weaker than before freezing. In order to solve such a problem, a large amount of salt may be added in advance so as to obtain a salty taste having an appropriate strength after cryopreservation. However, frozen foods prepared so that the salty taste has an appropriate strength after cryopreservation have a higher salt content than home dishes having the same degree of salty taste. There is a problem of conflict.

  As a method of ensuring an appropriate salty taste after cryopreservation without increasing the salt content in food, a method of imparting a salty taste without using salt, or a method of suppressing the diffusion of salty taste (taste blur) Has been reported.

  Specifically, Patent Document 1 discloses a salt substitute in which the taste of potassium salt is improved with an organic acid. Patent Document 2 discloses a salty taste enhancer in which potassium chloride and bittern are mixed at a ratio of 5: 5 to 9: 1. All of these propose a method for suppressing the taste of salt substitutes mainly composed of salts such as potassium salts, but the taste imparted by these salt substitutes is different from the salt taste of salt. . In addition, there is a problem that the added amount of these salt substitutes and their different tastes have a linear concentration dependency, and even when added in a small amount, they have a weaker taste.

  Patent Document 3 discloses a salt reducing seasoning using a bittern containing magnesium chloride and potassium chloride. However, since the said seasoning contains salt, there exists a problem that content of salt increases depending on addition amount.

  In addition, none of the methods described in Patent Documents 1 to 3 focus on changes in taste during cryopreservation.

  As a method for suppressing the diffusion of salty taste, Patent Document 4 discloses a method of coating sodium chloride with a waxy substance derived from animals and plants. According to this method, it is possible to suppress a change in taste from about 48 hours after the production, but considering the time from the production of the frozen food to the eating by general consumers, it is sufficient for application to the frozen food. Not. In addition, when a waxy substance is used, there is a problem that a sense of incongruity occurs when eating.

JP 2010-4767 A JP 2007-215489 A JP 59-198953 A JP 2005-295987 A

  The present invention has been made in view of the circumstances as described above, and the problem to be solved is that, without increasing the salt content, the salty taste is reduced by freezing storage, It is to provide frozen foods that do not feel uncomfortable.

Even in a frozen state, frozen foods cause diffusion of taste components (such as salt) through antifreeze water. This phenomenon is a cause of losing sharpness after freezing storage. As a result of intensive studies on the mechanism for antagonizing the salty taste attenuation due to the phenomenon, the frozen food prepared by adding magnesium chloride so that the magnesium ion concentration of the frozen food becomes a specific concentration is frozen. The inventors have found that an appropriate salty taste is maintained even after storage, and have further studied based on this finding, thereby completing the present invention.
That is, the present invention is as follows.

[1] containing magnesium chloride,
The magnesium ion concentration of the frozen food is 0.2 mmol / 100 g or more, and
A frozen food that satisfies the relationship of formula (I) when the potassium ion concentration and the sodium ion concentration of the frozen food are X mmol / 100 g and Y mmol / 100 g, respectively.
X / Y ≦ 0.55 (I)
[2] The frozen food according to [1], wherein the magnesium ion concentration is 3.0 mmol / 100 g or less.
[3] One selected from the group consisting of trisodium phosphate, disodium monohydrogen phosphate, trisodium citrate, pentasodium tripolyphosphate, sodium acetate, disodium inosinate and sodium glutamate, disodium succinate, or The frozen food according to [1] or [2], comprising two or more sodium compounds.
[4] A step of adding magnesium chloride so that the magnesium ion concentration of the frozen food is 0.2 mmol / 100 g or more, and
When the frozen food has a potassium ion concentration and a sodium ion concentration of X mmol / 100 g and Y mmol / 100 g, respectively, the step of adjusting the X and Y to satisfy the relationship of formula (I) Production method.
X / Y ≦ 0.55 (I)
[5] The production method of [4], wherein the magnesium ion concentration is 3.0 mmol / 100 g or less.
[6] A step of adding magnesium chloride so that the magnesium ion concentration of the frozen food is 0.2 mmol / 100 g or more, and
When the frozen food has a potassium ion concentration and a sodium ion concentration of X mmol / 100 g and Y mmol / 100 g, respectively, the step of adjusting the X and Y to satisfy the relationship of formula (I) A method to suppress saltiness loss.
X / Y ≦ 0.55 (I)
[7] The suppression method according to [6], wherein the magnesium ion concentration is 3.0 mmol / 100 g or less.
[8] The suppression method according to [6] or [7], wherein the salty taste attenuation of the frozen food is caused by freezing the frozen food.

ADVANTAGE OF THE INVENTION According to this invention, the salty taste attenuation | damage by freezing preservation | save is suppressed, without increasing content of salt, Moreover, the frozen food which does not have an unpleasant taste and uncomfortable feeling at the time of eating, and its manufacturing method can be provided.
Moreover, according to this invention, the method of suppressing the attenuation of the salty taste of the frozen food by freezing preservation | save can be provided, without increasing content of salt and producing the unpleasant taste and unnatural feeling at the time of eating.

1. Frozen food The frozen food of the present invention contains magnesium chloride, the magnesium ion concentration of the frozen food is a specific concentration, and the potassium ion concentration and the sodium ion concentration of the frozen food satisfy a specific relationship. And

  Magnesium chloride used in the present invention may be in any form of hydrate (eg, hexahydrate, etc.) and anhydride. In this specification, the term “magnesium chloride” It is a concept that includes any of anhydrides.

In the present invention, the magnesium ion concentration of the frozen food is usually 0.2 mmol / 100 g or more, preferably 0.3 mmol / 100 g or more, more preferably 0.4 mmol / 100 g or more. When the magnesium ion concentration is less than 0.2 mmol / 100 g, the salty taste is not sufficiently suppressed due to freezing storage.
The magnesium ion concentration is preferably 3.0 mmol / 100 g or less, more preferably 2.8 mmol / 100 g or less, and particularly preferably 2.7 mmol / 100 g or less. When the magnesium ion concentration exceeds 3.0 mmol / 100 g, the bitterness tends to be exhibited when eating.
Here, “magnesium ion concentration of frozen food” is measured by capillary electrophoresis.

  The magnesium ion concentration of the frozen food can be adjusted, for example, by adding magnesium chloride.

In the present invention, when the potassium ion concentration and the sodium ion concentration of the frozen food are X mmol / 100 g and Y mmol / 100 g, respectively, it is important that the X and Y satisfy the relationship of the formula (I).
X / Y ≦ 0.55 (I)
When X and Y do not satisfy the relationship of formula (I), the ratio of potassium chloride in the frozen food tends to increase and tend to exhibit a bitter taste.
More preferably, X and Y satisfy the relationship of formula (I ′).
X / Y ≦ 0.50 (I ′)

  As a specific method for adjusting the above X and Y so as to satisfy the relationship of the formula (I) (preferably the formula (I ′)), for example, a sodium compound described later may be added. Can be mentioned.

  The frozen food of the present invention is selected from the group consisting of trisodium phosphate, disodium monohydrogen phosphate, trisodium citrate, pentasodium tripolyphosphate, sodium acetate, disodium inosinate, disodium succinate and sodium glutamate. It is preferable that one or more sodium compounds are included. By including such a sodium compound, the salty taste expression effect by magnesium chloride can be obtained more remarkably.

In the present invention, the sodium ion concentration of the frozen food is preferably 1 to 20 mmol / 100 g, more preferably 5 to 18 mmol / 100 g, and particularly preferably 9 to 14 mmol / 100 g, from the viewpoint of the salty taste effect by magnesium chloride.
Here, the “sodium ion concentration of frozen food” is measured by capillary electrophoresis.

  The sodium ion concentration of the frozen food can be adjusted by appropriately adding an additive containing sodium ions. As an additive containing a sodium ion, the above-mentioned sodium compound etc. are mentioned, for example.

In the present invention, the potassium ion concentration of the frozen food is preferably 10 mmol / 100 g or less, more preferably 5 mmol / 100 g or less, and particularly preferably 4 mmol / 100 g or less, from the viewpoint of the salty taste effect of magnesium chloride.
Here, “potassium ion concentration of frozen food” is measured by capillary electrophoresis.

The content of sodium chloride in the frozen food is preferably 0.1% by weight or more, and more preferably 0.3% by weight or more. The salt in the present invention is not particularly limited as long as it is generally used in cooking, and examples thereof include purified salt, rock salt, arab salt, algal salt, sun salt, etc., and it consists only of sodium chloride. There may be.
The upper limit of the salt content in the frozen food is not particularly limited.

  In the present invention, the frozen food is not particularly limited as long as it can have a salty taste at the time of eating. The type of the frozen food is not particularly limited, and examples thereof include livestock frozen food, marine frozen food, agricultural frozen food, cooked frozen food, etc. Frozen rice cakes, frozen spring rolls, frozen hamburg steaks, frozen meat balls, frozen fish hamburgers, frozen fish balls, frozen cooked rice and frozen noodles are preferred. The frozen storage temperature of the frozen food is usually −10 to −30 ° C., preferably −15 to −25 ° C.

  As the frozen food of the present invention has a reduced salty taste due to frozen storage without increasing the salt content, the frozen food for the elderly with reduced sensitivity to taste (eg, nursing food) Can be used.

2. Method for producing frozen food The method for producing frozen food of the present invention (hereinafter also referred to as “the method of production of the present invention”) is a step of adding magnesium chloride so that the magnesium ion concentration of the frozen food becomes a specific concentration. And it is characterized by including the process of adjusting so that the potassium ion concentration and sodium ion concentration of frozen food may satisfy a specific relationship.

In the production method of the present invention, the magnesium chloride concentration of the frozen food is usually 0.2 mmol / 100 g or more, preferably 0.3 mmol / 100 g or more, more preferably 0.4 mmol / 100 g or more. It is important to include a step of adding. When the magnesium ion concentration is less than 0.2 mmol / 100 g, the salty taste is not sufficiently suppressed due to freezing storage.
The magnesium ion concentration is preferably 3.0 mmol / 100 g or less, more preferably 2.8 mmol / 100 g or less, and particularly preferably 2.7 mmol / 100 g or less. When the magnesium ion concentration exceeds 3.0 mmol / 100 g, the bitterness tends to be exhibited when eating.

  In the production method of the present invention, the timing of adding magnesium chloride is not particularly limited as long as it is before frozen frozen food is preserved. For example, it may be mixed with raw materials when producing frozen food, or frozen after production. It may be added to food.

In the production method of the present invention, when the potassium ion concentration and the sodium ion concentration of the frozen food are X mmol / 100 g and Y mmol / 100 g, respectively, the X and Y are adjusted so as to satisfy the relationship of the formula (I). It is important to include a process.
X / Y ≦ 0.55 (I)
When X and Y do not satisfy the relationship of formula (I), the ratio of potassium chloride in the frozen food tends to increase and tend to exhibit a bitter taste.
More preferably, X and Y satisfy the relationship of formula (I ′).
X / Y ≦ 0.50 (I ′)

  The time when X and Y are adjusted to satisfy the relationship of formula (I) (preferably formula (I ′)) is not particularly limited as long as the frozen food is stored frozen.

  Specific methods for adjusting the above X and Y so as to satisfy the relationship of the formula (I) (preferably the formula (I ′)) include, for example, trisodium phosphate, dihydrogen phosphate 2 Addition of one or more sodium compounds selected from the group consisting of sodium, trisodium citrate, pentasodium tripolyphosphate, sodium acetate, disodium inosinate, disodium succinate and sodium glutamate, etc. It is done.

  When the production method of the present invention includes the step of adding the sodium compound, the timing of adding the sodium compound is not particularly limited as long as the frozen food is stored frozen, and is mixed with the raw material during the production of the frozen food. Alternatively, it may be added to the frozen food after production.

Examples of the frozen food obtained by the production method of the present invention include the same as those exemplified in the description of the frozen food of the present invention.
The manufacturing method of this invention may use suitably the manufacturing method of frozen food known per se in the range which does not impair the objective of this invention according to the kind etc. of the frozen food to manufacture. Moreover, the raw material of frozen food is not specifically limited, According to the kind etc. of the frozen food to manufacture, you may use a well-known foodstuff suitably in the range which does not impair the objective of this invention.

  The frozen storage temperature of the frozen food obtained by the production method of the present invention is usually −10 to −30 ° C., preferably −15 to −25 ° C.

  The potassium ion concentration of the frozen food obtained by the production method of the present invention is preferably 10 mmol / 100 g or less, more preferably 5 mmol / 100 g or less, and particularly preferably 4 mmol / 100 g or less, from the viewpoint of the salty taste effect of magnesium chloride.

The sodium ion concentration of the frozen food obtained by the production method of the present invention is preferably 1 to 20 mmol / 100 g, more preferably 5 to 18 mmol / 100 g, and particularly preferably 9 to 14 mmol / 100 g from the viewpoint of the salty taste effect by magnesium chloride. preferable.
The sodium ion concentration of the frozen food can be adjusted by the method described in the description of the frozen food of the present invention. The time for adjusting the sodium ion concentration is not particularly limited as long as the frozen food is stored frozen.

3. Method for inhibiting salty taste attenuation of frozen foods The method for inhibiting salty taste attenuation of frozen foods of the present invention (hereinafter also referred to as “inhibition method of the present invention”) is carried out so that the magnesium ion concentration of frozen foods becomes a specific concentration. The main features include a step of adding magnesium to the frozen food, and a step of adjusting the potassium ion concentration and the sodium ion concentration of the frozen food to satisfy a specific relationship.
The suppression method of the present invention is useful for suppressing salty taste attenuation of frozen foods, particularly salty taste attenuation caused by freezing and storing frozen foods. The saltiness attenuation generally occurs about 2 weeks after the start of cryopreservation. The frozen storage temperature of the frozen food is usually −10 to −30 ° C., preferably −15 to −25 ° C.

In the suppression method of the present invention, the magnesium chloride concentration of the frozen food is usually 0.2 mmol / 100 g or more, preferably 0.3 mmol / 100 g or more, more preferably 0.4 mmol / 100 g or more. It is important to include a step of adding. When the magnesium ion concentration is less than 0.2 mmol / 100 g, the salty taste is not sufficiently suppressed due to freezing storage.
The magnesium ion concentration is preferably 3.0 mmol / 100 g or less, more preferably 2.8 mmol / 100 g or less, and particularly preferably 2.7 mmol / 100 g or less. When the magnesium ion concentration exceeds 3.0 mmol / 100 g, there is a tendency to exhibit a bitter taste at the time of eating.

  In the suppression method of the present invention, the timing of adding magnesium chloride to the frozen food is not particularly limited as long as it is before frozen storage of the frozen food. For example, it may be mixed with the raw material when manufacturing the frozen food, or manufactured. It may be added to later frozen foods.

The suppression method of this invention adjusts so that X and Y may satisfy | fill the relationship of Formula (I), when the potassium ion concentration and sodium ion concentration of frozen food are set to Xmmol / 100g and Ymmol / 100g, respectively. It is important to include a process.
X / Y ≦ 0.55 (I)
When X and Y do not satisfy the relationship of formula (I), the ratio of potassium chloride in the frozen food tends to increase and tend to exhibit a bitter taste.
More preferably, X and Y satisfy the relationship of formula (I ′).
X / Y ≦ 0.50 (I ′)

  The time when X and Y are adjusted to satisfy the relationship of formula (I) (preferably formula (I ′)) is not particularly limited as long as the frozen food is stored frozen.

  Specific methods for adjusting the above X and Y so as to satisfy the relationship of the formula (I) (preferably the formula (I ′)) include, for example, trisodium phosphate, dihydrogen phosphate 2 Add one or more sodium compounds selected from the group consisting of sodium, trisodium citrate, pentasodium tripolyphosphate, sodium acetate, disodium inosinate, disodium succinate and sodium glutamate to the frozen food And so on.

  When the suppression method of the present invention includes the step of adding the above-mentioned sodium compound to frozen food, the timing of adding the sodium compound is not particularly limited as long as the frozen food is stored frozen, and the production of frozen food Sometimes it may be mixed with the raw material or added to the frozen food after production.

  Examples of the frozen food to which the suppression method of the present invention is applied include the same as those exemplified in the description of the frozen food of the present invention.

  The potassium ion concentration of the frozen food is preferably 10 mmol / 100 g or less, more preferably 5 mmol / 100 g or less, and particularly preferably 4 mmol / 100 g or less, from the viewpoint of the salty taste effect of magnesium chloride.

The sodium ion concentration of the frozen food is preferably 1 to 20 mmol / 100 g, more preferably 5 to 18 mmol / 100 g, and particularly preferably 9 to 14 mmol / 100 g from the viewpoint of the salty taste effect of magnesium chloride.
The sodium ion concentration of the frozen food can be adjusted by the method described in the description of the frozen food of the present invention. The time for adjusting the sodium ion concentration is not particularly limited as long as the frozen food is stored frozen.

  The present invention will be described more specifically in the following examples, but the present invention is not limited to these examples.

(Test Example 1)
[Production of sample food]
Add salt, sodium glutamate, trisodium phosphate, disodium hydrogen phosphate, disodium succinate and dextrin to the minced meat and stir at 45 rpm for 0.5 minutes using a stand mixer (Kitchen Aid, K5SS). After mixing, water in which magnesium chloride was dissolved was added and mixed by stirring at 45 rpm for 9.5 minutes. 23 g of the resulting mixture was sampled and compressed and stretched to a thickness of 1 cm, and then steamed at 98 ° C. for 10 minutes using a combination oven (Fujimac Co., Ltd., FCCP6) to produce sample foods of Examples 1 and 2. .
A sample food of Comparative Example 1 was produced in the same manner as in Example 1 except that water in which magnesium chloride was not dissolved was used instead of water in which magnesium chloride was dissolved.

  Table 1 shows the amount (unit: g) of each food used in the production of the sample foods of Examples 1 and 2 and Comparative Example 1.

[Measurement of magnesium ion concentration, potassium ion concentration and sodium ion concentration]
Magnesium ion concentration (mmol / 100 g), potassium ion concentration (mmol / 100 g) and sodium ion concentration (mmol / 100 g) in the production of the sample foods of Examples 1 and 2 and Comparative Example 1 were measured by capillary electrophoresis, respectively. .
The results are shown in Table 2.

[Evaluation of salty strength]
The sample foods of Examples 1 and 2 and Comparative Example 1 were frozen at −80 ° C. and then frozen and stored at −18 ° C. for a predetermined period (2, 5, 8 and 13 days). The sample food frozen at -18 ° C and the sample food before being frozen at -18 ° C were thawed by microwave heating (500 W, 1 minute), respectively, and the strength of salty taste was evaluated by 7 expert panelists. did. Evaluation of the strength of saltiness was performed according to the following criteria, with the saltiness of the sample food of Comparative Example 1 before being frozen and stored at −18 ° C. being three points.
[Evaluation criteria]
1 point: light salty compared to the sample food of Comparative Example 1 before cryopreservation 2 points: slightly salty compared to the sample food of Comparative Example 1 before cryopreservation 3 points: Comparative Example 1 before cryopreservation 4 points: Slightly salty compared to the sample food of Comparative Example 1 before cryopreservation 5 points: Slightly salty compared to the sample food of Comparative Example 1 before cryopreservation

  The results are shown in Table 3. In Table 3, the storage days of the sample food before being frozen and stored at -18 ° C. is expressed as “0 days” for convenience.

As shown in Table 3, in Comparative Example 1, the saltiness was attenuated in the storage days of 5 to 13 days.
On the other hand, the salt content of Example 1 was the same as that of Comparative Example 1, but Example 1 had enhanced saltiness in the storage days of 2 to 13 days. Since Example 1 was able to suppress the decrease in salty taste even when the salt content was the same as that in Comparative Example 1, the present invention can be applied to frozen foods for the elderly whose sensitivity to taste has decreased. It is.
Further, the salt content of Example 2 is less than that of Comparative Example 1, and therefore the salty taste of Example 2 before being frozen and stored at −18 ° C. (that is, 0 days of storage) is Comparative Example 1. Weaker than However, in Example 2, the salty taste was enhanced after 2 days of storage, showed a salty taste equivalent to that of Comparative Example 1 in 8 days of storage, and showed a stronger salty taste than Comparative Example 1 in 13 days of storage. It was. Since Example 2 obtained a salty taste with a strength equal to or higher than that of Comparative Example 1 after cryopreservation even when the content of sodium chloride was smaller than that of Comparative Example 1, the present invention was applied after cryopreservation. It is possible to prevent an excessive amount of salt from being added in anticipation of a decrease in salty taste. Moreover, according to the present invention, the same salty strength as that immediately after the production can be obtained even after cryopreservation.

(Test Example 2)
[Production of sample food]
Sample foods of Examples 3 to 5 were produced in the same manner as in Example 1 except that the amount of magnesium chloride was changed so that the magnesium ion concentration became the concentration shown in Table 4 .

[Measurement of magnesium ion concentration]
In the same manner as in Test Example 1, the magnesium ion concentration (mmol / 100 g) of the sample foods of Examples 3 to 5 was measured. The results are shown in Table 4.

[Evaluation of inhibitory effect on saltiness reduction]
After scoring the salty strength of the sample foods of Examples 1 and 3 to 5 in the same manner as in Test Example 1, except that the period of cryopreservation at −18 ° C. was 2, 7 and 13 days From the scores for each of the storage days of Examples 1, 3 to 5 and Comparative Example 1, the score of the sample food before being frozen and stored at -18 ° C. (that is, 0 days of storage) is subtracted, and the difference in the scores is calculated. Calculated. The lower the calculated score difference, the more salty is attenuated. The results are shown in Table 5.

As shown in Table 5, in Comparative Example 1, the salty taste was attenuated, and the inhibitory effect of salty taste attenuation could not be confirmed.
On the other hand, in Examples 1 and 3 to 5, even after cryopreserving at −18 ° C., the same salty strength as before the cryopreservation at −18 ° C. was maintained, and the suppression effect of salty taste attenuation was confirmed. It was. Example 1 sometimes exhibited some bitterness derived from magnesium chloride before being cryopreserved at -18 ° C.

(Test Example 3)
[Production of sample food]
Sample foods of Example 6 and Comparative Examples 2 and 3 were produced in the same manner as Example 2 except that 1.09 g, 1.83 g or 2.56 g of potassium chloride was added.

[Measurement of potassium ion concentration and sodium ion concentration]
By the same method as in Test Example 1, the potassium ion concentration (mmol / 100 g) and sodium ion concentration (mmol / 100 g) of the sample foods of Example 6 and Comparative Examples 2 and 3 were measured. The results are shown in Table 6.

[Evaluation of inhibitory effect on saltiness reduction]
The salty strength of the sample foods of Examples 2 and 6 and Comparative Examples 2 and 3 was the same as in Test Example 1 except that the period of cryopreservation at -18 ° C was 2, 7 and 13 days. After the scoring, the scores of the sample foods before being frozen and stored at -18 ° C. (that is, the storage days of 0 days) are subtracted from the scores of each of the storage days of Examples 2 and 6 and Comparative Examples 2 and 3. The score difference was calculated. The lower the calculated score difference, the more salty is attenuated. The results are shown in Table 7.

As shown in Table 7, in Examples 2 and 6, the same salty strength as that before the cryopreservation at −18 ° C. was maintained after the cryopreservation at −18 ° C. Moreover, these did not produce a bitter taste after freezing at -18 ° C.
On the other hand, in Comparative Examples 2 and 3, the saltiness was attenuated, and the inhibitory effect of salty taste attenuation could not be confirmed.

ADVANTAGE OF THE INVENTION According to this invention, the salty taste attenuation | damage by freezing preservation | save is suppressed, without increasing content of salt, Moreover, the frozen food which does not have an unpleasant taste and uncomfortable feeling at the time of eating, and its manufacturing method can be provided.
Moreover, according to this invention, the method of suppressing the attenuation of the salty taste of the frozen food by freezing preservation | save can be provided, without increasing content of salt and producing the unpleasant taste and unnatural feeling at the time of eating.

Claims (6)

Containing magnesium chloride,
The magnesium ion concentration of the frozen food is 0.2 mmol / 100 g or more and 3.0 mmol / 100 g or less , and
A frozen food that satisfies the relationship of formula (I) when the potassium ion concentration and the sodium ion concentration of the frozen food are X mmol / 100 g and Y mmol / 100 g, respectively.
X / Y ≦ 0.55 (I) One or more selected from the group consisting of trisodium phosphate, disodium monohydrogen phosphate, trisodium citrate, pentasodium tripolyphosphate, sodium acetate, disodium inosinate and sodium glutamate, disodium succinate containing sodium compound, according to claim 1 Symbol placing frozen food. The frozen food is selected from the group consisting of frozen fried foods, frozen fried foods, frozen sweet potatoes, frozen gyoza, frozen spring rolls, frozen hamburg steaks, frozen meatballs, frozen fish hamburgers, frozen fish balls, frozen cooked rice and frozen noodles The frozen food according to claim 1 or 2, wherein Adding magnesium chloride such that the magnesium ion concentration of the frozen food is 0.2 mmol / 100 g or more and 3.0 mmol / 100 g or less , and
When the frozen food has a potassium ion concentration and a sodium ion concentration of X mmol / 100 g and Y mmol / 100 g, respectively, the step of adjusting the X and Y to satisfy the relationship of formula (I) Production method.
X / Y ≦ 0.55 (I) Adding magnesium chloride so that the magnesium ion concentration of the frozen food is 0.2 mmol / 100 g or more and 3.0 mmol / 100 g or less ,
Potassium and sodium ion concentrations of Frozen foods, when the Xmmol / 100g and Ymmol / 100g respectively, step of said X and Y are adjusted to satisfy the relationship of formula (I), and,
A method for suppressing a decrease in salty taste of a frozen food, comprising a step of freezing and storing the frozen food.
X / Y ≦ 0.55 (I) The suppression method according to claim 5 , wherein the salty taste attenuation of the frozen food is due to frozen storage of the frozen food.