KR100937152B1 - A larva of the protaetia brevitarsis seulensis which used a mulberry and a feed production way of an imago - Google Patents

Abstract

PURPOSE: A manufacturing method for feed of larvae and imagoes of protaetia brevitarsis seulensis using a mulberry tree is provided to breed a large number of the larvae and imagoes indoors easily with the feed of high quality. CONSTITUTION: A manufacturing method for feed of larvae and imagoes of protaetia brevitarsis seulensis using a mulberry tree is a step for mixing straw and the rice hulls with the range of 20-40% based on the 80-60% volume of mulberry sawdust. The 10-20% of rice bran is added to the raw mulberry sawdust. The manufacturing method for the feed further includes a step for fermenting the mulberry sawdust with waste of larva and rice bran.

Description

A larva of the Protaetia brevitarsis seulensis which used a mulberry and a feed production way of an imago

The present invention relates to a feed for feeding a large number of larvae (aka: slugs) and adult adults of white spotted flower radish, in particular to feed the slugs using mulberry sawdust to shorten the life cycle of slugs in a short period of time To provide slugs.

In general, the larvae of the radish scarab have been widely used as a medicinal treatment for the treatment of liver disease, and many people have tried to collect large amounts of the scarab, but at present it has been difficult to collect wild beetle. In other words, the larvae of the scarab beetle lived mainly on the roofs of thatched houses, but these scarab beetles are extinct due to various environmental pollution such as the roof improvement business of rural houses and the pollution of the air due to the abuse of pesticides. I couldn't see it.

In order to solve this problem, various breeding methods regarding the larvae of the flower scarab have been tried.

Looking for a method of rearing the larva of the conventional flower scarab beetle is as follows. Attempts were made to raise flower beetles by using manure of various kinds of livestock or by using straw, etc. However, they are harmful to the human body due to pesticides or various filthy ingredients included in livestock manure. Difficulties in setting the conditions and high mortality had problems.

According to the domestic patent registration No. 10-0398862 (artificial breeding method of flower radish beetle using oak sawdust) to solve the problems as described above, supplying sugar juice and water to oak sawdust and mud crushed oak Produce large amounts of radish scarab larvae. Here is how to breed.

This is because the flower beetle grows from spawning to adulthood and breeds every year, and when young larvae collected in nature are put into the breeding ground in March-April, it becomes an adult. After growing, it becomes a beetle through the pupa process, and the beetle has a lifespan of about one month. During this period, the young larvae that lay in the fermented sawdust layer, bred about two weeks, hatched after about two weeks. After growing until November, the mud layer will be winter, so the slugs will be harvested continuously from May to October.

In addition, according to Korean Patent Registration No. 10-0629279 (Slug breeding method using slug enteric microorganisms and manufacturing method of slug feed and slug enteric intestine isolated microorganisms), the bacteria that secrete cellulase in the slug intestine By separating, identifying and using them for breeding slugs, it has been shown that the slugs can be greatly improved and the slug feed source, which was previously limited to oak, can be diversified.

In other words, the fact that slugs are nutrients from wood cellulose and that cellulose is degraded by C1-cellulase of bacterial origin in some areas of slugs intestinal tract isolating cellulose degrading bacteria in slugs intestine, By identifying and using the cellulose-degrading bacteria to induce the cellulose degradation of wood from the outside, it has been suggested to increase the digestive absorption rate of the slugs by promoting the development.

In addition, when slugs induce cellulose degradation from the outside by using cellulose-degrading bacteria separated in the intestine, other wood based on cellulose can be used as slugs in addition to oak, especially pruning trees and mushroom waste trees in orchards. It suggests that sludge is used as a feed for slugs.

In addition, in order to determine the optimal slug feed composition, flour was mixed in a certain proportion in addition to sawdust using wood, and the growth effect according to the mixing ratio was tested. It is described that it is effective in the development of.

However, as can be seen from the above, the flower slugs as nutrients of wood cellulose, so old waste wood or mushroom cultivation and discarded waste wood was not desirable to use the feed of slugs because the fiber of the wood is destroyed.

Therefore, high-quality slugs must be produced and supplied in large quantities in a short period of time to benefit farm household income. For high-quality nutrients, the most efficient wood among the wood sawdust mentioned above should be used as a nutritional source. Along with the study of the subsidiary materials, various experiments are required for the multiplication.

In other words, the present invention is to feed the slugs using mulberry sawdust to improve the feed of the larvae and adults of the slugs to breed high-quality slugs and at the same time to shorten the life cycle of slugs to breed large slugs in a short period of time. To do it.

In order to achieve the above object of the present invention, as a comparison group, the oak sawdust, which is most often used as food for slugs, was studied and compared with the mulberry sawdust of the present invention. It was found that the progress was faster.

Thus, the present invention obtained the experimental results that the content of crests and chaff is about 20% to 40% of the content of about 80% ~ 60% of mulberry raw sawdust as a feed feed, and the rice bran for a faster life cycle Add 10% to 20%, or finely crushed mulberry mulberry sawdust was found to be used to add crest and chaff by content.

In addition, it was found that the fermentation of the larvae mixed with the fermentation of the larvae and then dried and ground to help the digestive absorption of the larvae has a higher effect.

In addition to the larval feed of the above larva was found to be an adult feeding feed made by mixing 1g of casein per 16g of commercial jelly over 2-3 times a week is effective for spawning adult.

The present invention was found that the life history progressed more than three weeks faster than the conventional oak sawdust-containing group, can be easily artificially reared in large quantities indoor larvae and adults of clean slugs by high-quality feed The white spots, which are extinct due to pollution, can increase the growth of flower ignorance, increase farm income, and be very useful for reviving consumer needs.

Hereinafter, described with reference to the accompanying drawings and detailed description for achieving the object of the present invention.

However, the scope of the present invention is not limited by the experiments or the examples presented in the specification of the present invention, and the technical idea of the present invention and the patents described below by those skilled in the art to which the present invention pertains. It is to be understood that various modifications and variations can be made within the scope of the claims.

The present invention is to study and improve the food feed of larvae and adults of the slugs and to feed the slugs using mulberry sawdust to breed high-quality slugs and at the same time to shorten the life cycle of slugs in a short period of time a large amount of slugs It is to be able to breed.

Example 1

Caterpillar feed (Used as produced sawdust)

-Test insects: Randomly selected first-larvae larvae that hatch simultaneously from eggs laid indoors are used for the experiment.

-Experimental Method: Caterpillars were prepared in the composition ratio as shown in the table below, and were reared in 10 repetitions in two breeding containers (10 cm in diameter and 4 cm in height) and weighed every week.

feed kind of oak mulberry tree Crest + chaff (%) sawdust(%) Crest + chaff (%) sawdust(%) One 0 100 0 100 2 20 80 20 80 3 40 60 40 60 4 60 40 60 40 5 80 20 80 20 6 100 0 100 0

Results: As shown in Example 1, the weight of the larvae was increased while adding crests and chaff at a certain rate to oak sawdust and mulberry sawdust, and the weight of the larvae per larval feed of the larva of FIG. 1 was increased. As shown in the table, it was found that the lifecycle of the mulberry sawdust-containing group progressed more than three weeks faster than the oak sawdust-containing group, and the contents of the crests and the chaff were found to be in the proper range of about 20% to 40%. .

In other words, in the oak sawdust containing group, the larvae weight reached about 2g after about 10 weeks, but in the mulberry sawdust containing group, the larvae weight reached about 2.5g ~ 2.8g between about 6 ~ 7 weeks. Compared to the oak-containing group, the life cycle progressed more than three weeks in the mulberry-containing group, and especially in the mulberry-containing group, the weight of the larvae has been reduced since the eighth week. It can be confirmed.

Meanwhile, the crest and chaff used in the present invention refers to a finely pulverized state, and should be understood as being the same size or similar to sawdust.

Example 2

Caterpillar feed (Mulberry sawdust)

-Test insects: Randomly selected first-larvae larvae that hatch simultaneously from eggs laid indoors are used for the experiment.

-Experimental Method: Caterpillars were prepared in the composition ratio as shown in the table below, and were reared in 10 repetitions in two breeding containers (10 cm in diameter and 4 cm in height) and weighed every week.

-Measured by setting a commercial sawdust (oak) as a control.

feed Feed composition One Sawdust (Oak) 2 Raw Sawdust (Mulberry) + Slugs Droppings 3 Raw Sawdust (Mulberry) 4 Sawdust (Mulberry) 5 Raw sawdust (mulberry) + rice bran 10% 6 Raw sawdust (mulberry) + rice bran 20%

-Results: Compared with the commercial sawdust (oak) as in Example 2, it was found that the weight of the larvae significantly increased in the mulberry tree sawdust + rice bran 10% -20% test plots (for larva of Figure 2 attached) Larvae weight increase table by feed)

Therefore, as can be seen in Examples 1 and 2, it can be seen that the weight of the larvae in the mulberry-containing group is faster than the oak-containing group, in particular, the content of crests and chaff ranges from about 20% to 40%, and rice bran 10% to In the 20% range, the life cycle of larvae is rapidly developing.

On the other hand, in the preliminary experiments of Examples 1 and 2, it was observed that the rice bran content in the feed was preferably controlled within 20%. If the rice bran content is too high, the young slug larvae suffocate and die due to mold and fermentation gas. Could.

Therefore, in order to prevent such mortality, the rice bran was mixed with slug and manure, fermented for about 1 to 2 weeks, dried, pulverized in a blender, and found safe to use.

Example 3

Feed larvae feed (Used after grinding the sawdust with a blender)

-Test insects: Randomly selected first-larvae larvae that hatch simultaneously from eggs laid indoors are used for the experiment.

-Experimental Method: Caterpillars were prepared in the composition ratio as shown in the table below, and were reared in 10 repetitions in two breeding containers (10 cm in diameter and 4 cm in height) and weighed every week.

-100% of the crest + chaff liver (1: 1) was measured as a control.

feed Treatment Details One 100% of mulberry house 2 Mulberry-boiled 80% + crest, chaff 20% 3 Mulberry-boiled 60% + crest, chaff 40% 4 Mulberry-boiled egg 40% + crest, chaff 60% 5 Mulberry bran 20% + crest, chaff 80% 6 Crest, chaff 100%

-Result: In the experiment of Example 3, the fine mulberry crushed mulberry sawdust finely added to the crest and chaff by the test results as shown in the attached test 3 group 1 (Mulberry Sawdust 100%) and test 2 In the group (Mulberry 80% + crest, chaff 20%), it was confirmed that the larvae grew to the seed larva in about 6 weeks.

Therefore, compared to oak group, mulberry group has a rapid progress in life history, and it is more preferable to contain boiled sawdust and rice bran rather than raw sawdust, which is much more helpful for the growth of larva, and it is more preferable to use it after fermenting slugs with rice bran. Confirmed in the experiment.

On the other hand, the white-spotted flower nymphs can be seen to be concentrated in slugs, mainly in trees, watermelons, and melons. In addition to the feed feed used in the invention it was observed that feeding is added by feeding the adult feed feed made by mixing 1g of casein per 16g of commercial jelly over 2-3 times a week.
Jelly is a food made by coagulation of pectin, gelatin, agar, alginic acid, etc. It is a kind of jam that can be found on the market.

Figure 1 is a graph chart showing the weight increase of larvae feed feed containing crests and rice husks in mulberry sawdust of the present invention.

Figure 2 is a graph chart showing the weight increase of larvae feed feed containing control and rice bran in mulberry sawdust of the present invention.

Figure 3 is a graph chart showing the weight increase of larvae feed feed pulverized together with crest and rice husk in mulberry mature sawdust of the present invention.

Claims (11)

In the feed production method of white spotted flower radish, For mulberry raw sawdust 80% to 60% by volume; Finely chopped crests and rice husks mixed in a ratio of 1: 1 to 20% to 40%; Feeding method of the white spotted flower larva larvae using mulberry, characterized in that used as a feed of white spotted flower larva larvae breeding in large quantities. In the feed production method of white spotted flower radish, Raw mulberry 90% ~ 80% volume of rice bran larvae using white mulberry larvae, characterized in that it is used as food feed of larvae by mixing 10% -20% of rice bran. delete In the feed production method of white spotted flower radish, 90% to 80% of mulberry raw sawdust mixed with fermentation of rice bran and larvae, fermented, dried, and then mixed with 10% to 20% of finely ground pulverized powder. Manufacturing method. In the feed production method of white spotted flower radish, Feeding method of white spotted radish larvae using mulberry wood, characterized in that the mulberry bark sawdust 80% ~ 60% mixed crests and chaff 20% ~ 40% is used as a feed for the larvae. delete In the feed production method of white spotted flower radish, Mulberry raw sawdust from 80% to 60% with crests and chaff 10% to 20%; Mixing fermentation of larvae excreted in rice bran and dried, mixed with 10% to 20% of finely ground powder with a blender to use as a feed for larvae white spotted flower larvae feed production method. In the feed production method of white spotted flower radish, Mulberry wood sawdust 80% ~ 60% crest and rice husk 10% ~ 20%; Mixing fermentation of larvae excreted in rice bran and dried, mixed with 10% to 20% of finely ground powder with a blender to use as a feed for larvae white spotted flower larvae feed production method. delete delete delete

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