RU2691571C1 - Method for production of sardine preserves - Google Patents

Abstract

FIELD: food industry.SUBSTANCE: invention relates to food industry, in particular, to fish industry, in particular, to method for production of preserves from Pacific sardine (Ivasi). Method involves preparing fish for salting, mixing it with a salting mixture, filling into jars and pouring with salt solution, after which the jars are delivered for aging. Salting is performed using a composition containing water-soluble chitosan in amount of 0.3 % of the raw material weight and a potato or rice vegetable proteolysis inhibitor in amount of 1.2 % of the raw material weight. Composition is added in amount of 1.5 % of the weight of the raw material into jars after placing the fish or into a saline solution.EFFECT: method provides antimicrobial, antioxidant stability and high quality of the end product at low salt content, preserves fish integrity, imparts functional properties and improves organoleptic properties over a long storage period.1 cl, 2 tbl, 3 ex

Description

The invention relates to the food industry, namely, to the fishing industry, in particular, to methods for producing preserves from Pacific sardines (Ivashi).

Analysis of scientific, technical and patent documentation showed that there are various ways of obtaining preserves from fish raw materials. At the same time, fish makers are used, in some cases, inhibitors and, to increase the shelf life, various preservatives.

However, the main disadvantage of the known methods is that the antioxidants, inhibitors and preservatives used in the salting of fish are mainly chemicals of the origin, which can lead to a decrease in the biological value of preserves due to the accumulation of secondary decomposition products during storage.

A known method for the production of salted herring, which consists in mixing fish with salt and / or saline. Moreover, before salting, herring is stored for ripening for 9 days at a temperature of -1 ° C or for 8 days at a temperature of + 3 ° C, or for 4 days at a temperature of + 6 ° C. Salt is added to the ripe semi-finished product in the required amount to obtain a given mass fraction of salt in the product. This allows you to get a high-quality product with a reduced salt content, a pleasant taste and smell (RF patent №2266657, AV 4/02, publ. 12/27/2005).

The disadvantage of this method is that in the process of maturation of fish (4-9 days) without the use of conservative methods, there are profound changes that lead to the denaturation of fish proteins, which reduces the quality of the final product.

In addition, the production involves a multi-stage process, which increases the production time of the product and production costs.

A known method of cooking gourmet fish preserves by pouring sauce pre-cooked fish. The sauce is prepared by whipping a mixture consisting of vegetable oil, acetic acid chitosan solution and 40-50% aqueous solution of soy concentrate, which is injected with constant whipping for 5-10 minutes into the mixture of oil and chitosan solution. After the formation of a stable emulsion, an aqueous solution of the smoke components is introduced into it and, as an option, phytoadditives are added to it. All components of the sauce take at a certain ratio of wt. % (patent No. 2287936, А23В 4/044, publ. November 27, 2006).

The disadvantage of this method is the use for the preparation of the sauce acetic acid solution of chitosan. Acetic acid solution negatively affects the structure of the fish, i.e. in the process of maturation, the fish meat softens, loses its elasticity, which reduces the quality of the product.

In addition, the presence of soy concentrate in an amount of 20-30% reduces the biological value of the product, which is explained by the specific properties of vegetable protein, which to a lesser extent contains essential amino acids and is hydrolyzed, unlike animal proteins, by enzymes of the gastrointestinal tract, which leads to some decrease in total protein digestibility.

A known method of cooking salted fish from rapidly maturing raw materials. The method involves cooling, washing fish, draining the liquid, after which the fish is rolled in a salting mixture, including salt, sugar and sodium benzoate (BKN). Then the fish is placed in cans and poured with cooled salt solution, to which is added the protein preparation from potato tubers obtained by precipitating the proteins of the potato extract or juice with sodium chloride. The protein preparation containing protease inhibitors is used in an amount corresponding to 1.8-2.4 antitrypsin units per 1 kg of fish (patent No. 1598946, A23L 3/3463, A23L 1/325, publ. 15.10.90).

The disadvantage of this method is the use of sodium benzoate, which can have a toxic effect on the liver and kidneys, provoking the formation of cancer. When interacting with vitamin C (E300), even within the recommended daily dose, it can turn into benzene - a dangerous carcinogen.

According to the authors of the invention, the protein preparation and sodium benzoate introduced in the process of salting are not capable of exerting an antioxidant effect sufficiently, which may result in undesirable organoleptic signs, such as a rancid taste and yellowing of the belly of the fish, in the finished product.

The closest to the claimed method is a method of cooking food fish products (patent No. 2103887, A23L 1/325, A23L 3/3463, publ. 10.02.19980). The essence of the method consists in the following: a proteolysis inhibitor obtained from soybean processing waste, rice, beans, in the amount of 6000-40000 ATE per 1 kg of raw material is introduced into food fish products at different stages of production. A method of cooking preserves from Pacific herring is proposed. Prepared intact fat herring is weighed in portions for each can separately. The finished salting mixture is metered into jars and transferred to the packaging. The fish from the prepared portion is enveloped by the salting mixture. Salt fill with proteininase inhibitor with a density of 1.11 g / cm is chilled to 0 ° C and placed into fish banks. In salt casting, a portion of the soy chaff inhibitor is dissolved at the rate of 8000 antitrypsin units per 1 kg of fish. Recipe of the corresponding salt solution for 1000 accounting cans, kg: salt - 4.3; water - 29.0. Banks roll and sent for storage at minus 6-8 ° C. Herring in preserves 2.5 months of storage with the addition of an inhibitor of proteinases from soybean has a denser consistency.

A significant drawback of the invention is the short shelf life of preserves, if you do not use preservatives.

In the case of the use of sodium benzoate (as in example 6 of this method), the biological value of the product is reduced due to the chemical nature of this preservative.

The objective of the invention is to develop a method for the production of preserves from sardines to obtain high quality fish products with a low salt content.

The task is solved by the fact that in the method of production of preserves from sardine, including preparing fish for salting, mixing it with salting mixture, laying in jars, pouring saline and maturation, the salting is carried out using a composition that includes 0.3% water-soluble chitosan to the mass of raw materials and an inhibitor of proteolysis of plant origin from potatoes or rice in the amount of 1.2% by weight of raw materials, while the composition is introduced in an amount of 1.5% by weight of raw materials in cans after laying fish or in saline.

The technical result is the preservation of antimicrobial and antioxidant stability with reduced salt content in the product during the shelf life, which ensures high quality of the final product. The technical result is achieved due to the use of a water-soluble chitosan-inhibitor of plant origin when salting fish.

Experimental studies have shown that the use of a water-soluble chitosan-vegetable inhibitor composition when salting fish not only provides antioxidant and antimicrobial stability of the product, which allows the high quality of the final product to be maintained throughout its long shelf life even with reduced salt content, but also contributes to making the finished product functional properties.

Since an inhibitor of plant origin has the property of reducing the activity of proteolytic enzymes, its presence in the composition limits the proteolysis of myofibrillary proteins, which contributes to the preservation of the microstructure of sardine muscle tissue and preserves the integrity of the fish, which is very important for a quality product.

However, the use of a plant origin inhibitor alone does not ensure the antioxidant stability of the product, therefore, it was proposed to use water-soluble chitosan for the solution of the problem when salting sardine.

The use of water-soluble chitosan when salting fish helps to suppress the growth of microorganisms, as a result of which the shelf life is prolonged and the organoleptic properties of the final product are improved.

Moreover, this form of chitosan is technological and easy to use, it is well absorbed by the body, is a useful natural biopolymer and does not adversely affect the processes of changing the consistency of fish.

In addition, chitosan, being a functional ingredient, has high sorption properties, is able to excrete toxins from the body, absorbs cholesterol in the digestive tract, has a lipotropic and detoxifying effect when it is consumed, therefore, its presence in the finished product gives it functional properties that provides preventive the effect of the final product, increasing its consumer ability.

To achieve the claimed technical result, it was proposed to use a water-soluble chitosan composition - an inhibitor of plant origin in an amount of 1.5% by weight of the raw material.

This amount of the composition is capable of inhibition of enzymes, antioxidant and antimicrobial stability of the finished product, which leads to an improvement in organoleptic characteristics in comparison with the known analogues, and also provides it with functional properties, while increasing the shelf life.

Reducing the composition to less than 1.5% is not enough to achieve the stated technical result, and its increase is impractical because It was established experimentally that all the technological properties of the finished product correspond to high rates when the amount of the composition is 1.5% by weight of the raw material.

By experimental studies, it was established that the composition contains, based on the weight of the raw material: water-soluble chitosan in an amount of 0.3% and a plant inhibitor - 1.2%.

An increase in water-soluble chitosan in the composition of more than 0.3% to the weight of the raw material leads to the appearance of a binder taste, and less than 0.3% leads to premature oxidation of lipids and microbial spoilage, i.e. reduced barrier threshold, which leads to a decrease in the shelf life of finished products and the deterioration of organoleptics.

An increase in the inhibitor of plant origin in the composition of more than 1.2% leads to the "undermatching" of salty products due to excessive inhibition of proteolytic enzymes, and a decrease in this limit leads to the destruction of the microstructure of fish tissues under the action of proteolytic enzymes, which negatively affects the integrity of the fish carcass.

Thus, the combined use of water-soluble chitosan and a plant-derived inhibitor has a complex effect, providing not only the antimicrobial and antioxidant stability of salted products, which preserves the integrity of the fish during storage, but also gives functional properties, which as a result provides high quality of the final product and increases consumer demand.

Experimental verification of the claimed method was carried out by issuing an experimental batch of fish and examining the quality of the finished product during storage.

The ambassador was carried out in accordance with the recipe indicated in Table 1. Comparative experiments were carried out to identify the best quality indicators of the finished product.

Control 1 - salting fish with the addition of BKN, control 2 by adding BKN and an inhibitor of plant origin, control 3 - adding only chitosan. Example 1 - salting fish using the composition according to the claimed method.

Determination of the quality indicators of salted products was carried out by comprehensive studies using standard methods of all indicators characteristic of this product: organoleptic, physicochemical, biochemical, and microbiological after a 7-month storage period.

The experimental data are shown in table 2.

Presents the results show that the product manufactured by the claimed method (example 1), compared with the control samples, has the best performance.

High levels of buffering and proteolysis levels in controls 1 and 3 indicate poor product quality, in particular, impaired muscle structure (falling apart). Compared with them, the indicators of example 1 have buffering values and the degree of proteolysis is much lower, which indicates a higher quality of production, in particular, the fish has a complete structure, which corresponds to the high quality of the finished product.

Indicators of the level of MDA and KMAFAnM in control 1 and 2 indicate the beginning of oxidative and microbial deterioration.

Lower levels of MDA and KMAFanM in control 3 and example 1 compared with control 1 and 2 indicate a pronounced antioxidant and antimicrobial effect. However, the antioxidant effect of control 3 is observed due to the presence of BKN (chemical preservative) in the product, while in example 1 it is not contained, and the antioxidant effect is provided by the presence of chitosan.

Thus, the product manufactured according to the claimed method (Example 1) has an advantage over the known analogues, with a low salt concentration without the use of chemical preservatives, it has an integral muscle structure and pronounced antioxidant and microbial stability.

The inventive method of obtaining preserves as follows.

The fish prepared for salting is mixed with the salting mixture and placed in jars. At the same time prepare saline solution for pouring into banks. To do this, a water-soluble chitosan - an inhibitor of plant origin - is added to the salt solution. Banks pour the resulting brine, roll and send for maturation within 15-20 days. Alternatively, the composition is applied to the jars after laying the fish in them and poured with standard saline.

After the specified time, the fish acquires the consistency characteristic of salted fish without negative changes.

Examples of the method.

Example 1. Prepared intact sardines are weighed in portions for each can separately. The fish from the 1 kg portion is mixed with a salting mixture consisting of sugar (5.0 g) and salt (50.0 g) and laid in rows in a container. At the same time prepare a salt solution of a density of 1.1 g / cm ³ . First mix 3.0 g (0.3% by weight of the raw material) water-soluble chitosan and 12.0 g (1.2% by weight of the raw material) of the potato inhibitor. The resulting composition in the amount of 15.0 g (1.5% by weight of the raw material) is added to 400 ml of brine. The prepared salt solution is poured into jars with fish until it is completely covered. Banks are sealed and sent to maturity within 15-20 days.

The finished product has a good appearance, a complete structure, the consistency is dense, delicate, without any extraneous changes, the slightly salted, pleasant taste, typical of fish of special salting.

Example 2. Take a portion of 0.5 kg of prepared undivided sardines, mixed with the salting mixture and placed in rows in banks. At the same time prepare a salt solution of a density of 1.1 g / cm. First, mix 1.5 g (0.3% by weight of raw materials) of water-soluble chitosan and 6.0 g (1.2% by weight of raw materials) of rice inhibitor. The resulting composition in the amount of 7.5 g (1.5% by weight of the raw material) is added to 200 ml of brine. The prepared salt solution is poured into jars until the fish are completely covered, the banks are sealed and sent for maturation.

The finished product has a good appearance, a complete structure, a consistency characteristic of salted fish without any extraneous changes, a slightly salty, pleasant taste, typical of a special salted fish.

Example 3. Carried out as in example 1. Take 1 kg of thawed, washed, undivided sardines, mixed with the salting mixture and placed in rows in jars. But the prepared composition in the amount of 15.0 g is applied to the jars. Then pour the saline solution into the cans of fish until it is completely covered. Banks are sealed and sent to maturity.

The finished product has a good appearance, a complete structure, a dense consistency, typical of salted fish without any extraneous changes, a pleasant light-salted taste.

Claims (1)

Method for the production of preserves from sardine, including preparing fish for salting, mixing it with salting mixture, laying in jars, pouring saline and maturation, characterized in that the salting is carried out using a composition that includes water-soluble chitosan in an amount of 0.3% by weight of raw materials and an inhibitor of proteolysis of plant origin from potatoes or rice in the amount of 1.2% by weight of raw materials, while the composition is introduced in an amount of 1.5% by weight of raw materials in cans after laying fish or in saline.