RU2066949C1 - Method of preparing nutrient substrate for oyster mushroom culture growing - Google Patents

Abstract

FIELD: agriculture, biotechnology, mycology. SUBSTANCE: nutrient substrate is preparad by aqueous extraction of plant raw firstly at 60 C at ratio of plant mass and extract = 1:6.5. Then prepared pulp is subjected for increased pressure action 4.8 x 10⁵ Pa at 150 C for 30-35 min. Then pulp is centrifuged and water is separated. Substrate is used for esculent mushroom cultivation. EFFECT: improved method of nutrient substrate preparing.

Description

 The invention relates to mycology, and in particular to substrates for growing seed mycelium and fruit bodies of oyster mushroom.

 Known nutrient substrate for growing mycelium of champignons and the method of its preparation according to a. from. USSR N 835365. The substrate contains dry grain of wheat or millet 9.1-15.9% expanded clay 35.7-47.1% gypsum 0.3-0.5% chalk - 0.1-0.2% water the rest. In the known method, the grain is saturated with water, boiled, expanded clay is added to the boil and the mixture is boiled for 5-10 minutes, cooled, mixed with gypsum, chalk and sterilized.

 Known nutrient medium for growing mycelium of edible mushrooms as. USSR N 1099891. The medium contains buckwheat husk 60.0-70.0% chalk 2.5-3.5% gypsum 9.5-10.5% pellet else as a nutrient.

 Known nutrient medium for growing mycelium of edible mushrooms a. from. USSR N 1205828. The medium contains as a nutrient dried and powdered larvae of synatropic flies 1.53-3.12% starch 1.04-1.28% expanded clay 58.28-71.54% gypsum 0.03-0 , 05% chalk - 0.03-0.05% water the rest.

Known medium for obtaining seed mycelium of edible mushrooms by A. with. USSR N 1407445. Nutrient medium contains polyethylene 30.0-60.0% hardwood sawdust 25.0-63.0% nutritional supplement dry potato feed or a mixture of dry potato feed with protein-free potato juice concentrate 7.0-25.0%
Known nutrient medium for growing seed mushroom mycelium according to a. from. N 1512520, in which the wastes of hydrolysis-agar production of iodine are used as a nutrient medium (prototype according to claim 1).

 Known nutrient substrate for growing mycelium of edible mushrooms by A. with. USSR N 1576063, containing 0.3-0.5% gypsum, 0.1-0.2% chalk, as a filler, volcanic slag 49.3-69.6% and as a source of chlorella batteries in an amount of 30.0 -50.0% based on raw biomass.

 A known method of preparing a nutrient substrate for growing inoculum mycelium of oyster mushroom by A. with. USSR N 1593586, in which potato tops are used as the initial nutritional component.

 Known nutrient medium for growing a planting inoculum of wood-destroying fungi as.with. USSR N 1602411. The medium contains chopped grape vine 20-300 g per 1 liter of medium as wood waste, sucrose 10-30 g / l, 0.1% yeast autolysate 1-5 g / l and uncoated beer 6% - wort up to 1 liter The experiments were conducted on the cultivation of the planting inoculum Pleurotus ostreatus, Flammulina velutipes, Panes tigrinus.

 The known composition of the nutrient substrate and the method of its preparation for growing mycelium of mushrooms mushrooms (Panov MA "Growing champignons" M. 1956, S. 32-36). The method includes boiling oatmeal for 25-30 minutes. Then the broth is filtered and agar-agar is added in the following ratio of components, weight. oat flour 8.9, agar-agar 1.8, water 89.3, after which the mixture was poured into flasks and sterilized.

 A nutritious substrate and a method for producing it are known ("Vegetable Production" Transactions, vol. 77. Kishenev, 1971, p. 47-54) for growing mycelium of champignon mushrooms, in which the grain of corn is boiled or steamed for 15 minutes, and then gypsum and chalk in the following ratio of components, chalk weight 0.2, water 59.6, after which the mixture is poured into flasks and sterilized.

 Known nutrient medium for growing mycelium of edible mushrooms (Dubka I.A. et al. "Oyster mushroom", Kiev, "Naukova Dumka", 1976, pp. 25-26) containing sunflower husk 26-36% soy flour 0.5- 1.5% chalk - 2.5-3.5% wheat bran the rest.

A known nutrient medium (Wissenschaft 1971, N 1m c. 19-27) for growing mycelium of fungi, containing perlite 33% chalk 2% gypsum 5% wheat bran 60%
A known method of growing fruit bodies of oyster mushroom (Pleurotus ostreatus), including harvesting cuttings of hardwood, inoculating them with mycelium of the fungus, placing them with germinated mycelium in the soil (A.S. USSR N 1007604).

A known substrate for growing champignons and a method for its production by A. with. USSR N 1083960. The substrate includes wheat straw 30-40% bird droppings 30-40% hydrolysis lignin 10-15% water the rest. Wheat straw is soaked with water to a moisture content of 65-75%. 34.0-38.0% of the total weight of bird droppings with the entire volume of hydrolytic lignin is fermented for 1.5-2 months, after which the resulting mixture is introduced into the bird fermented with the rest litter the straw at the time of the second breakdown and carry out their joint fermentation at a moisture content of 65-75%
Known substrate for growing edible oyster mushroom ordinary a. from. USSR N 1242050 (prototype according to claim 2), in which the waste of cotton production of nuts and fluff of the second pass is used as a substrate.

 A known method of growing oyster mushrooms on cuts of hardwood (Wessly E. Schweizerische Leitschrift for Pilznurale, 1969, N 47, p. 4-12), in which hardwood is infected with grafting mycelium.

 There is a method of growing oyster mushrooms ("Oyster mushroom", Kiev, 1976, S. 10-11), according to which felled trees are divided into cuts, soaked in water, laid in trenches and inoculated, then the cuttings are transferred after 1-2 months on the plantation and bury 1/3 part in the ground.

 A well-known substrate for growing champignons ("Industrial cultivation of edible mushrooms" Kiev, Naukova Dumka, 1978, pp. 61-64) containing straw of cereal crops, composted with the addition of fertilizers in the following proportions: per 1 ton of straw 20 kg of calcium carbonate, 20 kg of calcium cyanamide, 30 kg of calcium sulfate, 10 kg of urea.

 A known substrate for growing edible oyster mushrooms according to US Pat. Hungary N 458985 on production waste that does not have economic value.

The disadvantages of the closest analogue are:
low growth process of the mycelium;
low yield of mycelium biomass per weight unit of systrate.

The disadvantages of the prototype according to p. 2 (AS USSR N 1242050) are:
relatively low yield of fruiting bodies;
low growth process of fruiting bodies.

 The aim of the invention is to increase the yield of mycelium biomass and accelerate the growth process.

 In addition, the aim of the invention is to increase the yield of oyster mushroom ordinary and accelerate the growth process of fruiting bodies.

 To achieve this goal, as a nutrient substrate for growing seed mycelium and a substrate for growing fruit bodies of oyster mushrooms, a solid fraction (raffinate) is used, which is a waste product of phytoextracts obtained by their extraction and heat treatment.

The significance of the differences of the proposed invention is as follows:
technical solutions meet the criteria of the invention of "novelty", because they use the new raffinate waste product as the basis for the substrate when producing a biologically active substance of a plant condensed extract (Herakonda).

 In known technical solutions, cereal grain, hardwood, tops, cereal straw, husk, bran or husk, hardwood sawdust, expanded clay, volcanic slag, shredded grapevine or cotton waste are used as a substrate (or nutrient media) production, waste hydrolysis-agar production.

 The positive (super-total) effect is as follows: compared with the known technical solutions, valuable food raw materials exclude cereal crops and fodder, which simplifies the process of growing mycelium by stimulating growth processes; the technology of additional sterilization of the raffinate is excluded, since the technology of its preparation at high temperature and under pressure ensures its initial sterility.

 The method allows to increase productivity by improving growth processes.

Obtaining raffinate: plant materials are crushed, for example, to linear sizes of 5-8 mm and placed in a mixer. At the same time, an extractant enters the mixer. The ratio of biomass of plant materials and extractant 1: 6.5. The resulting mixture enters the extractor-dispersant, where extraction occurs at a temperature of not more than 60 ^o C. The pulp obtained in this way enters the storage tank of the pulp, from where it is pumped into measuring tanks and processed with an increased pressure of 4.8x10 ⁵ Pa at a temperature of 150 ^o C within 30/35 minutes. Then the pressure level is dumped to 1.0x10 ⁵ Pa, the pulp is cooled to 50 ^o C and separated using a precipitation centrifuge into extract and raffinate. The raffinate enters the raffinate collection and is subsequently used to grow mycelium and fruit bodies of oyster mushroom.

 The substrate is prepared as follows.

The raffinate is packaged in glass jars with a capacity of 2-3 liters, moistened with 1 liter of tap water. The jars are covered with parchment paper and sterilized in an autoclave for 1 hour at 1.0 atm and cooled. The raffinate prepared in this way, which is a substrate for growing mycelium, is inoculated with a fungal culture. The inoculum is grown on a microbiological medium, which includes: un hopped beer wort 15 ^o B 200 ml, agar-agar 20 g, tap water 800 ml. The inoculum medium is heated until the agar agar is completely dissolved and poured into 3-5 ml tubes. The tubes are closed with cotton swabs and sterilized in an autoclave for 30 minutes at 0.5 atm. After cooling the medium, it is inoculated with mycelium of the oyster mushroom fungus, for example Pleurotus ostcatus or Pleurotus paemonarruis. The transfer of the inoculum to the substrate is made in boxing. Mycelium growing on wort agar is transferred to the substrate in banks. Banks are covered with parchment paper and placed in a room where they are stored on shelves under normal room conditions. Full fouling of the substrate with mycelium occurs after about two weeks.

 The planting material obtained by the described method is used for further cultivation of fruiting bodies.

Grown mycelium under sterile conditions is uniformly applied to a layer of raffinate 4-5 cm high, placed in plastic containers. From the top of the mycelium layer and the lower raffinate layer, the top raffinate layer is distributed 5-6 cm high. The containers are closed with a lid and placed on racks in a row in the growing room at a temperature of +23, +26 ^o C. In this state, the containers are kept for 30 days, then to stimulate formation of the fruiting bodies racks placed in a specially equipped room temperature decreases to 3-5 ^o C. After standing at low temperature mode is returned to the racks of containers for cultivation room, open the lid, asking the perature at +24 ^o C and light bulb with a calculation software irradiation intensity raffinate surface at 1-1.5 thousand. suite. After harvesting the 1st generation on day 40-45, the containers are kept in a predetermined mode for another 2 weeks until the 2nd generation of mushrooms and the subsequent harvest.

 The cultivation of oyster mushroom ordinary on the proposed substrate is more economical than on substrates from straw, tops, corn cobs and other agricultural waste.

 Compared with the prototype, the use of an ordinary solid fraction of oyster mushrooms as a culture medium for the cultivation of plant mycelium during the processing of plant materials allows to reduce the cost of production of the finished product as a result of the use of material that is production waste.

 Along with the possibility of obtaining sufficiently high yields of valuable edible oyster mushroom, the problem of environmental purification is simultaneously solved by the non-reagent biological processing of production waste.

Claims (1)

A method of preparing a nutrient substrate for growing a culture of oyster mushroom, including the processing of plant materials, characterized in that the processing of plant materials is carried out by water extraction at a temperature of 60 ^{° C.} initially, with a ratio of plant mass and extract 1: 6.5, and then the resulting pulp is subjected the influence of increased pressure of 4.8 • 10 ⁵ Pa at a temperature of 150 ° C for 30 to 35 minutes, after which the pulp is centrifuged.