RU2226815C1 - Fruit surface protection method - Google Patents

Abstract

FIELD: agriculture, in particular, treatment of fruits before laying for storage. SUBSTANCE: method involves applying ethereal oils and epiphytic substances of raw plant cuticular layer onto their surface from mycelium produced by extracting of Mortierella gamsii micromycet biomass with the use of non-polar extractant in above-critical state. EFFECT: reliable protection of fruit surface from microbial decay. 3 ex

Description

The invention relates to a technology for processing fruits before storing.

A known method of protecting the surface of the fruit, including cleaning its surface from mechanical impurities and applying to it essential oils of the same fruits together with the epiphytic substances of the cuticular layer of plant materials by condensing them from a supercritical medium used as a carrier (RU 2060671 C1, 05/27/1996) .

The disadvantage of this method is the low reliability of the protection of the fruits from microbial spoilage.

The technical result of the invention is to increase the reliability of fruit protection against microbial spoilage and increase the shelf life of the fruit.

This result is achieved in that in a method for protecting the surface of fruits, including cleaning their surface from mechanical impurities and applying to it essential oils of the same fruits together with the epiphytic substances of the cuticular layer of plant materials by condensing them from a supercritical medium used as a carrier, according to the invention miscella obtained after extraction of the biomass of micromycete Mortierella gamsii with a non-polar extractant with supercritical parameters of the last one.

The method is implemented as follows,

The surface of the fruit prepared for storage is cleaned of mechanical impurities by any known method, for example, washing. If liquids were used to remove impurities, then the surface of the fruit is dried, and then the fruit is transferred to apply a protective coating.

The dry biomass of micromycete Mortierella gamsii is extracted with a non-polar extractant, for example carbon dioxide or hexane, in a supercritical state. The resulting miscella is mixed with essential oils of the same fruits as those processed, and epiphytic substances of the cuticular layer of any plant material. The resulting mixture is sent to a protective coating on the surface of the fruit.

To ensure uniform coating on the surface of the processed fruit, the parameters of the carrier medium are reduced below critical. This leads to condensation of the mixture of epiphytic substances of the cuticular layer of plant material, essential oils and extractives of the biomass of micromycete Mortierella gamsii on the surface of the processed fruits. Extractive substances of the biomass of micromycete Mortierella gamsii include mainly higher fatty acids, mainly polyunsaturated, including eicosatetraenoic and eicosapentaenoic, which have immunostimulating activity against higher plants.

It has been experimentally established that in the composition of essential oils of fruits and epiphytic substances of the cuticular layer of higher plants there are no substances that can suppress or inhibit this type of activity of these acids. As a result, the coating applied to the surface of the fruit not only protects the fruit from drying out and has antiseptic properties, as in the closest analogue, but also stimulates the protective reactions of the fruit, which increases their shelf life by reducing the likelihood of microbial spoilage during secondary contamination.

It should be especially noted that the use of protective coating components in the above combination allows to increase the efficiency of use of its components. Epiphytic substances of the cuticular layer of plant materials slow down the oxidation and evaporation of essential oils and the oxidation of polyunsaturated fatty acids that are part of the extractives of the biomass of micromycete Mortierella gamsii. Essential oils neutralize the weakly expressed mushroom smell and taste of the biomass extractives of micromycete Mortierella gamsii. Polyunsaturated fatty acids of the biomass extract substances of the micromycete Mortierella gamsii slow down the oxidation of the essential oils in the coating and dyes in the surface layers of the fruits. These processes have a positive effect on increasing the shelf life of the fruit.

Example 1

Dry biomass of micromycete Mortierella gamsii is extracted with supercritical carbon dioxide and the miscella is separated without changing the parameters of the extractant. Oranges are washed, dried and treated with the resulting micelle with the addition of orange essential oil and epiphytic substances of the cuticular layer. In the control, the same epiphytic substances and essential oils are applied from supercritical pure carbon dioxide. An experimental batch of oranges, compared with the control, retains its presentation for 20% longer, losses from microbial spoilage during 4 months of storage are reduced by 3 times.

Example 2

Cherries are processed analogously to example 1, but using hexane and epiphytic substances from the cuticular layer of spinach. The shelf life of the experimental batch of cherries has been increased by 2 times, losses from microbial spoilage during monthly storage in a modified gas environment have been reduced by 1.5 times.

Example 3

Apples are processed analogously to example 1, but using nitrous oxide and epiphytic substances of the cuticular layer of lettuce. The shelf life of the experimental batch was increased by 20%, losses from microbial spoilage after 3 months of storage were reduced by 50%.

Thus, the proposed method can reduce losses from microbial spoilage and increase the shelf life of the fruit.

Claims (1)

A method of protecting the surface of fruits, including cleaning their surfaces from mechanical impurities and applying to them essential oils of the same fruits together with the epiphytic substances of the cuticular layer of plant materials by condensing them from a supercritical medium used as a carrier, characterized in that they use supercritical medium miscella obtained after extraction of the biomass of micromycete Mortierella gamsii with a non-polar extractant with supercritical parameters of the latter.