CN112314536A

CN112314536A - New method for improving silkworm cocoon quality

Info

Publication number: CN112314536A
Application number: CN202011246052.9A
Authority: CN
Inventors: 胥晓; 补春兰; 郑蕊; 董廷发; 吴建梅; 黄盖群; 刘刚
Original assignee: China West Normal University
Current assignee: China West Normal University
Priority date: 2020-11-10
Filing date: 2020-11-10
Publication date: 2021-02-05
Anticipated expiration: 2040-11-10
Also published as: CN112314536B

Abstract

The invention relates to the technical field of silkworm breeding, in particular to a method for improving the quality of silkworm cocoons by utilizing a gender combined feeding mode of silkworms and mulberries, which comprises the following steps: feeding male silkworm seeds with young leaves of male and female mulberry trees in a mixed manner during the period of 1-2 years after the male silkworm seeds are subjected to green forcing and ant collection; feeding with mature leaves of male mulberry after 3-year-old feeding, and feeding 3-5 times a day until the final stage of 5 years; and (4) cocooning after the 5 th instar is finished, and picking cocoons 5-8 days after cocooning. The method considers the feeding combination of silkworm sex and mulberry sex, screens out the optimal silkworm sex combination mode from the 4 combination modes, and achieves the purpose of improving the quality of silkworm cocoons by changing the traditional feeding method, thereby improving the quality of silk and obtaining higher economic benefit.

Description

New method for improving silkworm cocoon quality

Technical Field

The invention belongs to the technical field of silkworm breeding, and particularly relates to a method for improving silkworm cocoon quality by utilizing a gender combined feeding mode of silkworms and mulberries.

Background

The silkworm is a cocoon woven by silk, the cocoon is woven by the silk with the length of 300-900 meters, the output and export amount of cocoon silk in China account for more than 70% of the total amount of the world at present, and the silkworm becomes a big cocoon silk country which can lead the price trend of the cocoon silk in the world.

As one of the biggest silk production and export countries in the world, export trade of cocoon silk in China plays an extremely important role in the silk market in the world. In order to stabilize the competitiveness of China in the silk market, attention is paid to the silkworm industry on what factors influence and how to improve the quality of silkworm cocoons (cocoon yield and silk quality). Previous researches show that the quality of the silkworm cocoons is related to the feeding and cocooning environments, and the proper temperature and humidity can improve the silk yield, the clean performance and the raw silk strength and elongation. In addition, some characteristics of the silkworm itself may affect the quality of the silkworm cocoon. For example, the quality of cocoons of different silkworm varieties is different, and the quality of cocoons of better silkworm varieties is better; compared with female silkworms, the cocoon quality of male silkworms has the characteristics of small cocoon granules, thin cocoon silk, high silk yield, long cocoon silk and the like. So that male silkworms are better suited for improving cocoon quality, while female silkworms are better suited for reproduction. In addition, mulberry leaves are one of the most important food for silkworms, and the quality of mulberry leaves has a direct influence on the evaluation of the quality of silkworm cocoons. In order to provide silkworms with more nutritious mulberry leaves, it is crucial to select an excellent silkworm variety and a suitable cultivation density and fertilizing amount.

Although there are many reports on the effect of mulberry leaf quality on the quality of silkworm cocoons, the influence of the difference in leaf quality between genders of mulberry belonging to a plant of a heterosexual plant on the quality of silkworm cocoons has not been paid attention. Related studies indicate that plants with different male and female plants have different nutrient distribution strategies due to different propagation requirements (female plants produce flowers, seeds and fruits, and male plants produce flowers), resulting in different nutrients in the same organs. Previous researches have indicated that the physiological and ecological differences of male and female mulberry leaves exist, for example, the fluorescence parameter Fv/Fm of the male mulberry leaves is significantly higher than that of the female mulberry leaves, and the relative water content of the male mulberry leaves is higher than that of the female mulberry leaves. Because the quality of male and female mulberry leaves is different and the quality of male and female silkworm cocoons is also different, the difference of the quality of male and female mulberry leaves can cause the quality of the silkworm cocoons of silkworms of different sexes after feeding to be different, and then related researches are not reported.

Disclosure of Invention

In view of the above, the present invention aims to provide a method for improving silkworm cocoon quality by matching silkworms with mulberry leaves fed to the silkworms.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a method for improving silkworm cocoon quality comprises feeding male silkworm with male mulberry to obtain silkworm cocoon;

specifically, the method specifically comprises the following steps:

1) harvesting ants after the male silkworm eggs are subjected to hatching;

2) feeding with young leaves of male and female mulberry trees in the period of 1-2 years after ant collection;

3) feeding with mature leaves of male mulberry after 3-year-old feeding, and feeding 3-5 times a day until the final stage of 5 years;

4) mounting after the 5 th instar is finished, and then picking cocoons;

further, the environmental temperature of four days before the green-forcing in the step 1) is 23 +/-1 ℃; the ambient temperature is 26 +/-1.5 ℃ on day 5-10;

further, the ant harvesting time in the step 1) is 7 to 9 hours in the morning;

further, the ambient temperature is 27 +/-2 ℃ during the period of 1 to 2 years of age in the step 2);

further, in the step 2), the ambient humidity is 80-90% during the period of 1-2 years old;

further, the mature leaves of the male mulberry in the step 3) are disinfected by 0.3% of bleaching powder clear liquor and used after being wiped dry;

further, the environmental temperature after 3 rd-age eating in the step 3) is 25 +/-1 ℃;

further, the environmental humidity after 3 rd-age eating in the step 3) is 65-75%;

further, in the step 4), cocoon picking is carried out 5-8 days after cocooning.

The invention has the beneficial effects that:

1) the conception is unique: the silkworms and the mulberry trees with different sexes are fed and combined, so that the optimal silkworm and mulberry sex combination mode is screened, and the quality of the silkworm cocoons is improved.

2) The method is simple and easy to popularize: the purpose of improving the quality of the silkworm cocoons can be achieved only by screening the sex of the mulberry and the silkworm.

Drawings

FIG. 1: 4 schematic diagrams of combinations of mulberry and silkworm of different sexes in example 1;

FIG. 2: histogram of drop-end situation in embodiment 3;

FIG. 3: a histogram of the milk nodes in example 3;

FIG. 4: histogram of filament length in example 3;

FIG. 5: histogram of silk weight in example 3;

FIG. 6: histogram of the unwinding filament length in example 3;

FIG. 7: histogram of the yield of fresh cocoons in example 3.

Detailed Description

Example 1

1.1 test materials and designs

The silkworm variety is 871 × 872 (from silkworm breeding farm in Wusheng county, Sichuan), and the mulberry variety is Yue sang 51 (from silkworm research institute of academy of agricultural sciences, Sichuan province). The test design is that the mulberry and the silkworm with different sexes are combined into 4 modes of female mulberry and male silkworm, male mulberry and male silkworm (see figure 1). Selecting 18 male and female mulberry trees with the age of 3 years, feeding silkworm seeds with young male and female mulberry leaves in a mixed manner in the period of 1-2 years after the silkworm seeds receive ants, dividing silkworms into 2 areas after 3 years of feeding, feeding 200 silkworms in each area, feeding mature leaves derived from male and female mulberry trees respectively, and feeding for 3 times every day until the final stage of 5 years. And after 5 years, partitioning and mounting cocoons, and after cocoons are picked, randomly selecting 100 cocoons from male and female mulberry leaf feeding groups for silk reeling. As the sex of the silkworm of the variety is difficult to identify in the early stage, the sex of the silkworm is classified by adopting a method of identifying the sex of silkworm chrysalis after the single silk reeling is finished.

1.2 index determination

1.2.1 silkworm cocoon characterization

Before measuring the appearance of the silkworm cocoon, the cocoon coat is peeled off, the length and width of the silkworm cocoon are measured by a digital caliper with the resolution of 0.01mm, the weight (total cocoon weight) of the silkworm cocoon is measured by an electronic balance with the accuracy of 0.01mg, and the volume of the silkworm cocoon is measured by a measuring cylinder with the specification of 50ml by a drainage method.

1.2.2 Silk quality determination

After the silkworm cocoon characteristics are measured, boiling the silkworm cocoons, performing single-grain reeling by using a black board machine, and respectively recording the number of end falling times, the total number of revolutions of the black board and the number of knots of the silks of the single cocoon, wherein the silk weight is measured by using an electronic balance with the accuracy of 0.01mg after the silks are naturally dried. On the basis, the drop ends, the nodes, the filament length, the filament weight, the reeled filament length and the fresh cocoon yield are respectively measured and calculated. Higher drop ends indicate lower filament continuity and easy breakage. The larger the knot value is, the poor clean result and the poor silk quality of the silk are shown. The reeled silk length reflects the silk length reeled once, and the larger the value, the better the silk quality. The calculation formulas of the silk length, the reeled silk length and the fresh cocoon yield are as follows:

filament length (m) equals to the total revolution of the blackboard × 400 (m)/566;

unwinding filament length (m) ═ filament length (m)/(1+ number of ends dropped);

the fresh cocoon yield (%) is [ weight of silk (g)/weight of cocoon (g) ] ×. 100%.

1.3 data processing

Statistical analysis of the data was performed using SPSS 22.0 software. One-way ANOVA (one-way ANOVA) was used to test whether each group of traits had significant differences, and the comparison between the mean values was tested by Duncan method (α ═ 0.05). Mapping was performed using OriginPro 8.0 software. Data in the graph are mean ± sem.

Example 2

Influence of silkworm and mulberry combined feeding modes of different sexes on silkworm cocoon characteristics

As shown in table 1, the silkworm cocoon characteristics were significantly affected by the combined feeding mode of silkworms of different sexes. Female silkworm cocoons fed with female mulberry are significantly higher (by 22.5% and 5.4% respectively) than male silkworm cocoons in cocoon weight and cocoon volume. Female silkworm cocoons fed with male mulberries are significantly higher (by 2.7%, 3.4%, 27.2% and 9.4%, respectively) than male silkworm cocoons in cocoon length, cocoon width, cocoon weight and cocoon volume. In the 4 modes, the form of the silkworm cocoon in the male mulberry plus male silkworm mode is the smallest in cocoon weight, and the form of the silkworm cocoon in the female mulberry plus male silkworm mode is the largest.

TABLE 1 Effect of silkworm and mulberry combination feeding modes of different sexes on silkworm cocoon characteristics

Treatment of	Cocoon number (number)	Cocoon length (mm)	Cocoon width (mm)	Cocoon weight (g)	Cocoon volume (cm)³)
						FF	52	32.97±0.20a	19.07±0.11a	1.85±0.02a	6.86±0.11a
FM	48	32.60±0.21ab	18.82±0.09a	1.51±0.02b	6.51±0.10b
						MF	50	32.89±0.20a	19.06±0.13a	1.87±0.02a	6.78±0.12ab
MM	50	32.04±0.21b	18.44±0.11b	1.47±0.01b	6.20±0.10c

FF is male parent, mulberry and male parent; FM, male parent mulberry and male parent silkworm; MF, male mulberry and female silkworm; MM is mulberry and silkworm. The different lower case letters in the same column indicate significant differences between treatments (P < 0.05).

Example 3

Influence of silkworm and mulberry combined feeding modes of different sexes on silk quality

The cocoon silk dropping, silk length and fresh cocoon silk yield after male silkworms are fed with female silkworms are obviously higher than those of female silkworms (respectively higher by 76.5%, 6.7% and 25.4%) (see figures 1,3 and 6). The silk length and the fresh cocoon silk yield of the cocoon silk after male silkworms are fed with male silkworms are obviously higher than those of female silkworms (respectively 4.8 percent and 20.4 percent higher) (see attached figures 3 and 6), and the silk weight is obviously lower than that of the female silkworms (see attached figure 4). In the 4 modes, the silk length and the fresh cocoon yield of the silkworm cocoons are the largest and the nodes are the smallest in the female mulberry plus female silkworm mode, and the silk length and the fresh cocoon yield of the silkworm cocoons are the smallest and the reeled silk length is the longest and the nodes are large in number in the female mulberry plus female silkworm mode (see the attached

drawings

2,3,5 and 6). Thus, the silkworm cocoons are large and heavy, but the silk quality of the silkworm cocoons is not good, and the cocoon silk quality of the male silkworm cocoons is superior to that of the female silkworm cocoons; the quality of the silkworm cocoons is related to the combined feeding mode of the silkworms of different sexes, the mode of the holandra and the holandra is optimal, and the quality of the silkworm cocoons has the characteristics of small cocoon granules, good cleanliness, long cocoon silk and high fresh cocoon silk yield.

In conclusion, the combined feeding of the silkworms of different sexes can cause the cocoon quality and the silk quality to be remarkably different, and the combined feeding of the male silkworms and the male silkworms can obtain better cocoon quality and silk quality. Therefore, the quality of the silkworm cocoon can be improved in consideration of the sex of the silkworm and the combination of both in the production of the silkworm industry.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims

1. A novel method for improving the quality of silkworm cocoons is characterized in that male silkworms are fed by male mulberries to obtain the silkworm cocoons.

2. The method according to claim 1, characterized in that it comprises in particular the steps of:

1) harvesting ants after the male silkworm eggs are subjected to hatching;

4) and after the 5 th instar is finished, mounting and then picking cocoons.

3. The method according to claim 2, wherein the ambient temperature four days before the hastening in step 1) is 23 ± 1 ℃; the ambient temperature is 26 +/-1.5 ℃ on days 5-10.

4. The method according to claim 2, wherein said step 1) comprises a time of 7 to 9 a.m.

5. The method as claimed in claim 2, wherein the ambient temperature is 27 ± 2 ℃ during the 1 to 2 years of age in step 2).

6. The method as claimed in claim 2, wherein the ambient humidity is 80-90% during the 1-2 years of age in step 2).

7. The method as claimed in claim 2, wherein the mature leaves of male mulberry in step 3) are sterilized with 0.3% bleaching powder and dried for use.

8. The method of claim 2, wherein the ambient temperature after the 3 rd stage of eating in step 3) is 25 ± 1 ℃.

9. The method as claimed in claim 2, wherein the ambient humidity after 3-year-old response in step 3) is 65-75%.

10. The method as recited in claim 2, wherein in the step 4), cocoon picking is performed 5 to 8 days after cocooning.