RU2692659C1 - Method for stimulation of black soldier fly productivity and fertility - Google Patents

Abstract

FIELD: biotechnology.SUBSTANCE: invention represents a method for stimulation of productivity and fertility of a fly of a black lion's fluke, consisting in the following: to feed flies of black lion during period from moment of their release from pupae to moment of laying eggs, fodder substrate is used containing a mixture of carbohydrates: sucrose or glucose, lactose and starch, as well as succinic acid in amount of 0.05–0.15 % of substrate weight. Mixture of carbohydrates contains components preferably in the following ratio, pts.wt.: sucrose or glucose 1–8, lactose 8–1, starch 1.EFFECT: invention allows to increase egg production with simultaneous increase of the fraction of fertilized and viable eggs.1 cl, 4 ex

Description

The invention relates to the field of biotechnology, in particular to methods of increasing the productivity and fecundity of the black lioness fly and can be used in bioconversion technologies of organic waste in feed protein-lipid concentrate produced from the larvae of the indicated insect.

Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 2013, LXI, No. 1, p. 77-83 [3]; Stamer A. Insect proteins - a new source for animal feed. EMBO Reports. 2015. №16. P. 676-680 [4]; Tschirner M., Simon A. Influence of different growing substrates and processing on the nutrient composition of black soldier fly larvae destined for animal feed. Journal of Insects as Food and Feed. 2015. №1. P. 1-12 [5]; Maurer V., Holinger M., Amsler Z., Wohlfahrt J., Stamer A., Leiber F. Replacement of soybean cake by Hermetia illucens meal in diets for layers. Journal of Insects as Food and Feed. 2016. №2. P. 83-90 [6], Veldkamp Т., Bosch G. Insects: A protein-rich feed ingredient in pig and poultry diets. Animal Frontiers. 2015. №5. P. 45-50 [7]).It is known that black lion cub flies (Hermetia illucens L. from the family Diptera Muscidae) can be used as feed protein producers (Kogebaev B.J. Fly (Diptera Muscidae) as a feed protein producer for birds in eastern Kazakhstan. Diss. Art. Candidate of Agricultural Sciences, Semipalatinsk, 2003 [1]). The larvae are capable of processing organic waste, including sewage sludge and fish and meat processing waste, substandard fruits, vegetables, food waste and food products that have lost consumer qualities. An entomological zoogumus formed as a final product can be used as a component of substrates for growing plants (Sheppard et al., 2002. Rearing methods for the black fly (Diptera: Stratomyiadae) [2]). Biomass obtained from fly larvae is usually used in dried form. According to research data, flour from dried larvae contains 48-52% protein and up to 27% fat, and with the development on some nutrient substrates the fat content in the larvae exceeds 45% and the biomass is enriched with calcium, phosphorus, iron (

Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 2013, LXI, No. 1, p. 77-83 [3]; Stamer A. Insect proteins - a new source for animal feed. EMBO Reports. 2015. №16. P. 676-680 [4]; Tsiirner M., Simon A. Influence of larvae destined for animal feed. Journal of Insects as Food and Feed. 2015. №1. P. 1-12 [5]; Maurer V., Holinger, M., Amsler, Z., Wohlfahrt, J., Stamer, A., Leiber F. cake. Journal of Insects as Food and Feed. 2016. №2. P. 83-90 [6], Veldkamp T., Bosch G. Poultry diets. Animal Frontiers. 2015. №5. P. 45-50 [7]).

The additive to the feed of dry larval biomass is effectively reflected in the growth rate of chickens and young poultry.

A key role in biotechnology for processing waste and obtaining larval biomass with the participation of a black lioness plays the process of keeping adults of flies and obtaining egg-laying in insectarium conditions. The appropriate quantities of fertilized insect eggs determine the scale and logistics of the further stages of the technological process of obtaining the target product.

The process of obtaining egg-laying involves placing containers with pupae of flies in a prepared insectarium, where containers with a nutrient substrate are also placed, as well as cassettes for egg laying. In the preparation of food compositions, the fact of low intensity of nutrition of adults is taken into account. For this reason, substrates are formulated based on easily assimilable components, for example, low molecular weight sugars.

The main process parameters supported are: the population density of flies, which is about 2000 ind./m ³ ; air temperature in the mother liquor at the level of 28-35 ° С; air humidity 60-80%; lighting - at least 12 hours a day. Two days after the release of the pupae, the flies begin to mate. After another two days, the flies lay their eggs. If the above conditions are observed, hatchability of eggs is 80% or more [2].

There is a method of increasing the number of clutches of black fly lion cub. The method is characterized by the fact that for laying eggs, flies as a working material use natural and artificial honeycombs, performing the role of a matrix. (RU 2641622 C1, 01.18.2018 [8]). The disadvantages of this method include the low availability of the honeycomb material, as well as the impossibility of increasing the hatchability index of eggs, the limited re-use of the honeycombs.

There is a method of stimulating the productivity and fertility of bees by using a mixture based on sugar syrup with a biologically active substance, carnitine chloride, according to which when feeding sugar syrup with carnitine chloride when the ratio of components in the mixture is water: sugar: carnitine chloride is 3: 1: 0.0016 -0.016) at a dose of 0.25 kg per 1 kg of live weight of bees once every 5 days during the spring-summer period at least 16-18 times, it is possible to stimulate the daily egg production of the uterus of the honeybee by 1.8 times. The disadvantages of this invention may be the use of expensive carnitine, multiple procedures for making stimulating the drug, as well as the affiliation of the established positive effect of the drug to the field of beekeeping, which makes it difficult to extrapolate the results obtained to the biotechnology of processing organic waste using a black lioness fly (RU 2199210 C2, 27.02.2003 [ 9]).

There is a method of stimulating the reproduction of insects using a vitamin-ecdysterone stimulator of insects, mainly bees (WESP), which is a complex of biologically active substances in the form of tablets weighing 0.1 g, consisting of ecdysterone, vitamin B ₁₂ and filler in the following ratio of components: (wt .%) ecdysterone 0.0008-0.0012, vitamin B ₁₂ 0.0008-0.0012, filling - the rest. In concentrations that are determined on adequate test systems of cultures of insect cells, as well as on whole insects (Drosophila fruit fly), the drug has a positive physiological effect. The introduction of this drug into the nutrient medium on which insect eggs are placed in the amount of 0.2 g (2 tablets per 1 tube) helps reduce the pupation time and accelerates the release of the imago by 52.2% and 32.2%, respectively, relative to the control. The disadvantage of this method is the lack of information about the positive impact on egg productivity of insects and about the impact on the life cycle of the black lioness, as well as the low availability of the main functional substance of the drug - ecdysterone (RU 2034504 C2, 05.10.1995 [10]).

The closest in technological essence is a method of stimulating the fertility and productivity of bees of the Carpathian breed, according to which an inverted sugar syrup with the addition of succinic acid at a concentration of 0.1-0.3% was used as a top dressing, the feeding was performed twice at a rate of 1.0 liters per family bees with an interval of 6 days. At the same time, it was stated that the daily egg production of the honeybee of the Carpathian breed increased to 60.1% in relation to the control (Piryazev, KO. Fertility, productivity and biological features of the Carpathian bees when using succinic acid / KO.Pyryazev. Abstract. Diss. Candidate of Agricultural Sciences. Moscow, 2011 [11])

The disadvantage of this method is its limitations in the field of beekeeping and, as a result, the lack of information about the positive effect of succinic acid in this concentration on egg productivity, as well as the relative hatchability of the black lionkeeper’s eggs.

The technical problem solved by the proposed invention is the development of a method for stimulating the productivity and fecundity of the black lioness flies contained in insect conditions.

A technical problem is solved by a method of stimulating the productivity and fertility of a black lion cub fly, which uses the black lion cub for feeding flies during the period from the moment of their release from the pupae to the moment of laying eggs the feeding substrate containing a mixture of carbohydrates: sucrose or glucose, lactose and starch, as well as amber acid in an amount of 0.05-0.15% by weight of the substrate.

In a preferred embodiment, a mixture of carbohydrates contains components in the following ratio, mass. parts:

sucrose or glucose 1-8 lactose 8-1 starch one

The essence of the invention lies in the fact that in the base feed substrate (a mixture of easily digestible carbohydrates) at the stage of its preparation contribute succinic acid, based on the final content of the drug at the level of the established physiologically significant range of 0.05-0.15 wt. % (average 0.1 wt.%).

Mass values of the content of succinic acid outside the specified interval do not contribute to the achievement of the effect of stimulation or are not economically feasible. The ratio of carbohydrates was chosen empirically. In this work, a wide range of trivial, ubiquitous and economically accessible carbohydrates was used, which are representatives of the relevant classes of the indicated category of bio-organic substances, namely mono-, oligo, and polysaccharides. Also, as the criterion for the selection of carbohydrates, the effectiveness of biochemical assimilation by the black larvae of the fly larvae was used. As part of these studies, the following carbohydrates were selected: glucose, fructose, galactose, mannose, rhamnose, sucrose, lactose, maltose, potato starch. On the basis of these carbohydrates, various combinations were made in order to achieve the optimal combination, which allows to realize the maximum productivity and fecundity of the black lion's fly in insectarium conditions. According to the results of these studies, it was found that the effective realization of the potential of the egg production of the insect manifests itself in mixtures of the following carbohydrates in various proportions: glucose, lactose, starch and sucrose, lactose, starch. Starch was included in the composition mainly as a binder, forming the consistency of the substrate. In all cases, its amount, which determines the optimum consistency, was constant with respect to other components and amounted to 10% of the total mass of the substrate. Thus, these mixtures of carbohydrates in various ratios, not limited to the above ratio, were used as base substrates and were considered as a trophic background, to which succinic acid was added in order to realize the full potential of the black lioness's productive potential and fertility.

Used succinic acid is a commercial reagent having a degree of purity not lower than the class "h" according to GOST 6341-75. The resulting mixture is distributed in containers, which are subsequently placed in the insect. At the same time, strict rules for the quantitative distribution of the substrate in containers are not adhered to, since the process of its feeding by adult flies has natural limitations due to the physiological time interval from the moment of emergence from the pupa to the moment of mating and egg-laying.

Simultaneously with the procedure for placing the feed substrate, the insect pelvic containers are placed in the insect pupae. The number of pupae is determined from the expected density of distribution of the imago in the insect volume. Usually, the density of the artificial population of flies is maintained at the level of 2000 ind./m ³ . The ratio of males and females is relatively constant, close to 1: 1. The temperature of the air in the mother liquor is maintained within the range of 28-35 ° C; air humidity 60-80%; lighting - at least 12 hours a day. Two days after the release of the pupae, the flies begin to mate. After another two days the flies lay their eggs. During the period from the moment of emergence from the pupae to the moment of mating, the flies feed on a substrate containing succinic acid.

Succinic acid (succinate) is the most important biochemical product that plays a decisive role in the regulation of metabolic processes, in particular, occurring in the Krebs cycle, as well as the respiratory electron transport chain of mitochondrial membranes. The activity of the enzyme succinate dehydrogenase can depend on the succinate status of the cell, and, consequently, its influence on the coenzyme Q 10 system, which in turn acts as a universal acceptor of hydrogen coming from organic sources in the energy processes of the cells, may manifest itself (Metzler, D. Biochemistry, Moscow : World, 1980, p. 325) [12])

The processes of insect morphogenesis are characterized by high energy intensity. For this reason, the use of succinic acid in the role of a biochemical regulator and activator can be considered as a progressive technological approach in the artificial cultivation of a black lioness.

The technical result achieved using the feed mixture, enriched with succinic acid, is a higher egg productivity with a simultaneous increase in the proportion of fertilized and viable eggs.

Example 1

To conduct an experiment to determine the effect of succinic acid, two variants were formed - experimental and control, each of which included five insectariums of 2.0 m ³ each. In insectariums, two containers with a dry feed substrate weighing 100 g each were placed. To achieve the expected effect, succinic acid was introduced into the prepared substrate consisting of a mixture of chemically individual carbohydrates of the following composition (mass): 6 parts of glucose, 3 parts of lactose and 1 part of starch (6: 3: 1). Then, succinic acid was added to the carbohydrate mixture for the experimental variant on the basis of its final content at the average value of the physiologically significant range detected from 0.05 to 0.15%, i.e. 0.1 wt. % (dry matter). No succinic acid was added to the nutrient substrate of the control variant. The next technological step was the placement of the pupae in the insectarium, the number of which was calculated from the estimated density of adults at the level of 2000 ind./m ³ and, thus, amounted to 4000 individuals per insect of both experimental and control variants. Also in insectarium housed cassettes for laying eggs. To determine the total egg production, the cassettes were weighed before being placed in the insect and, respectively, after extraction. The difference in the values obtained determined the mass of eggs. Determination of the degree of fertilization was performed by counting and matching the hatched larvae to the initial number of eggs. For this, eggs obtained from the experimental and control variants using a stereomicroscope (MBS-10) were selectively distributed into local groups of 100 pcs. Then placed for incubation in individual containers. From the initial sample, five groups were formed in each variant.

It was determined that the total mass of eggs obtained from the insects of the experimental variant averaged (five times) was 29.8 ± 3.0 g. The weight of eggs obtained from the insects of the control variant respectively (five times) was 21.0 ± 2. , 5 g. In percentage terms, the increase in this indicator relative to the control was 41.9%.

Evaluation of the proportion of fertilized eggs revealed a positive effect of the feed substrate enriched with succinic acid on the indicator under consideration. Thus, the number of hatched larvae per 100 eggs (on average in five replications) was 85.8%, whereas in the control variant (on average in five replications), the corresponding figure was 74.8%.

Example 2

To conduct an experiment to determine the effect of succinic acid, two variants were formed - experimental and control, each of which included five insectariums of 2.0 m ³ each. In insectariums, two containers with a dry feed substrate weighing 100 g each were placed. To achieve the expected effect, succinic acid was introduced into the prepared substrate consisting of a mixture of chemically individual carbohydrates of the following composition (mass): 3 parts of glucose, 6 parts of lactose and 1 part of starch (3: 6: 1). Then, succinic acid was added to the carbohydrate mixture for the experimental variant on the basis of its final content of 0.05 wt. % (dry matter). No succinic acid was added to the nutrient substrate of the control variant. The next technological step was the placement of the pupae in the insectarium, the number of which was calculated from the estimated density of adults at the level of 2000 ind./m ³ and, thus, amounted to 4000 individuals per insect of both experimental and control variants. Also in insectarium housed cassettes for laying eggs. To determine the total egg production, the cassettes were weighed before being placed in the insect and, respectively, after extraction. The difference in the values obtained determined the mass of eggs. Determination of the degree of fertilization was performed by counting and matching the hatched larvae to the initial number of eggs. For this, eggs obtained from the experimental and control variants using a stereomicroscope (MBS-10) were selectively distributed into local groups of 100 pcs. Then placed for incubation in individual containers. From the initial sample, five groups were formed in each variant.

It was determined that the total mass of eggs obtained from the insects of the experimental variant averaged (in five replications) was 25.5 ± 2.4 g. The weight of eggs obtained from the insects of the control variant respectively (in five replications) was 17.2 ± 3. , 2 g. In percentage terms, the increase in this indicator relative to the control was 48.3%.

Evaluation of the proportion of fertilized eggs revealed a positive effect of the feed substrate enriched with succinic acid on the indicator under consideration. Thus, the number of hatched larvae per 100 eggs (on average, five replications) was 90.2%, whereas in the control variant (on average, five replications), the corresponding figure was 74.2%.

Example 3

To conduct an experiment to determine the effect of succinic acid, two variants were formed - experimental and control, each of which included five insectariums of 2.0 m ³ each. In insectariums, two containers were placed with a dry feed substrate weighing 100 g each. To achieve the expected effect, succinic acid was introduced into the prepared substrate consisting of a mixture of chemically individual carbohydrates of the following composition (mass): 1 part of sucrose, 8 parts of lactose and 1 part of starch (1: 8: 1). Then, succinic acid was added to the carbohydrate mixture for the experimental variant on the basis of its final content of 0.15 wt. % (dry matter). No succinic acid was added to the nutrient substrate of the control variant.

The next technological step was the placement of the pupae in the insectarium, the number of which was calculated from the estimated density of adults at the level of 2000 ind./m ³ and, thus, amounted to 4000 individuals per insect of both experimental and control variants. Also in insectarium housed cassettes for laying eggs. To determine the total egg production, the cassettes were weighed before being placed in the insect and, respectively, after extraction. The difference in the values obtained determined the mass of eggs. Determination of the degree of fertilization was performed by counting and matching the hatched larvae to the initial number of eggs. For this, eggs obtained from the experimental and control variants using a stereomicroscope (MBS-10) were selectively distributed into local groups of 100 pcs. Then placed for incubation in individual containers. From the initial sample, five groups were formed in each variant.

It was determined that the total mass of eggs obtained from the insects of the experimental variant, on average (in five replications), was 24.3 ± 2.2 g. The average weight of the eggs, obtained from the insects of the control variant, was (in five replications) 20.1 ± 1.8 g. In percentage terms, the increase in this indicator relative to the control was 20.1%.

Evaluation of the proportion of fertilized eggs also revealed a positive effect of the feed substrate, enriched with succinic acid on the indicator under consideration. Thus, the number of hatched larvae per 100 eggs (on average over five replicates) was 88.7%, whereas in the control variant (on average over five replications), the same indicator was 80.5%.

Example 4

To conduct an experiment to determine the effect of succinic acid, two variants were formed - experimental and control, each of which included five insectariums of 2.0 m ³ each. In insectariums, two containers were placed with a dry feed substrate weighing 100 g each. To achieve the expected effect, succinic acid was introduced into the prepared substrate consisting of a mixture of chemically individual carbohydrates of the following composition (mass): 8 parts of sucrose, 1 part of lactose and 1 part of starch (8: 1: 1). Then, succinic acid was added to this mixture for the experimental variant on the basis of its final content at the average value of the physiologically significant range detected from 0.05 to 0.15%, i.e. at the level of 0.1% (on dry basis). No succinic acid was added to the nutrient substrate of the control variant. The next technological step was the placement of the pupae in the insectarium, the number of which was calculated from the estimated density of adults at the level of 2000 ind./m ³ and, thus, amounted to 4000 individuals per insect of both experimental and control variants. Also in insectarium housed cassettes for laying eggs. To determine the total egg production, the cassettes were weighed before being placed in the insect and, respectively, after extraction. The difference in the values obtained determined the mass of eggs. Determination of the degree of fertilization was performed by counting and matching the hatched larvae to the initial number of eggs. For this, eggs obtained from the experimental and control variants using a stereomicroscope (MBS-10) were selectively distributed into local groups of 100 pcs. Then placed for incubation in individual containers. From the initial sample, five groups were formed in each variant.

It was determined that the total mass of eggs obtained from the insects of the experimental variant averaged (five replications) was 22.4 ± 1.6 g. The weight of eggs obtained from the insects of the control variant, respectively (five replications) was 17.9 ± 1 , 7 g. In percentage terms, the increase in this indicator relative to the control was 25.1%.

Evaluation of the proportion of fertilized eggs revealed a positive effect of the feed substrate enriched with succinic acid on the indicator under consideration. Thus, the number of hatched larvae per 100 eggs (on average, five replications) was 94.2%, whereas in the control variant (on average, five replications), the corresponding figure was 82.8%.

Claims (3)

1. A method of stimulating the productivity and fertility of a black lion's fly, which uses a black lioness to feed flies during the period from the moment of their emergence from the pupae to the time of laying eggs, the feed substrate containing a mixture of carbohydrates: sucrose or glucose, lactose and starch, as well as succinic acid in the amount of 0.05-0.15% by weight of the substrate. 2. A method according to claim 1, wherein the mixture of carbohydrates contains components in the following ratio, mass. including: sucrose or glucose 1-8 lactose 8-1 starch one