Study of the Influence of Silkworm Feeding Conditions on the Quality of Cocoons and Properties of the Cocoon Shell

DOI: 10.4236/eng.2019.1111049   PDF   HTML   XML   335 Downloads   511 Views  


The article presents the results of a study of the influence of silkworm feeding conditions enriched with mulberry leaves on the quality of cocoons and properties of the cocoon shell.

Share and Cite:

Alisher, R. , Sharifjon, S. and Akmal, R. (2019) Study of the Influence of Silkworm Feeding Conditions on the Quality of Cocoons and Properties of the Cocoon Shell. Engineering, 11, 755-758. doi: 10.4236/eng.2019.1111049.

1. Introduction

According to the traditional method, in the production of cocoons, the activity of silkworm lasts from 25 to 30 days. At the same time, the caterpillars that came out of each box (29 grams) during 5 ages eat up from 1000 to 1080 kilograms of mulberry leaf and curl about 48 - 50 kg of raw cocoons, small (hemisphere diameter from 15 to 16 mm), medium (hemisphere diameter from 17 to 19 mm), large (hemisphere diameter from 20 to 22 mm) and very large (hemisphere diameter more than 22 mm) caliber. From the indicated volume of raw cocoons, 82.5% of varietal mixtures (first, second and varieties), 12.6% of non-varietal and 4.9% of defective cocoons not subject to processing at silk-winding factories are obtained [1] [2].

Silkworms in leading silkworm countries, such as Japan, China, South Korea, India, etc. in terms of yield (58.1 - 64.6 kg per box), uniformity (79.2% - 79.4% cocoons of medium caliber), cost-effectiveness of feed use (feed consumption during the whole feeding period, 800 - 900 kg per box grains), according to the varietal composition (more than 92.1% - 95.19% of cocoons of the first grade), differs from the above by the property of the cocoon shell. The positive results achieved in world sericulture make us think about conducting comprehensive research and development work in the field of production of silk cocoons and the search for internal reserves in the technology of domestic worm feeding [3].

2. Experimental Studies of the Possibility of Enrichment of Mulberry Leaves for the Uniform Development of Silkworms

The aim of this work is to study the possibility of enriching mulberry leaves for the uniform development of silkworms, reducing their ripening, improving the quality of cocoons and improving the properties of the cocoon shell.

The objects of study were silkworm cocoons of the Ipakchi-1 breed, Marhamat harvest of 2018 and 2019, biologically active substances consisting of ferrostimulator-2 and mulberry tree leaves of the Balkhut variety. The experiments were carried out directly in the sericulture farms of the Khojabad and Bulakbashi districts of Andijan region [4] [5].

The experiments were carried out in two versions: spring and autumn—feeding silkworms using biologically active substances by spraying a solution of biologically active substances in a concentration of 0.25, 0.5, 0.75, 1.0, 1.5 and 2.0 per mulberry leaves before feeding silkworms for 15 - 20 minutes.

The following parameters were taken as output parameters: uniform development of the silkworm, mass of cocoons and cocoon shell, silkiness of living cocoons, quality of cocoons.

An analysis of the experimental study showed that the use of biologically active substances in the first age of the silkworm positively influenced the quality of the cocoons, the mass and silkiness of the cocoon shell. In particular, the period of worm feeding is reduced by an average of 1 - 2 days compared to the control option, which leads to a reduction in labor costs for worm feeding, saving feed and reducing the cost of live cocoons. In all experimental variants, the mass of cocoons increased in comparison with the control version from 0.17 to 0.34 grams, the silk mass of the cocoon increased from 0.087 to 0.163 grams higher than in the control version, the silkiness of live cocoons increased from 2.42% to 4.08% The specific gravity in the total volume of produced varietal cocoons increased from 3.4% to 8.89% compared with the control variant [6] [7].

A series of experiments was carried out on feeding silkworms in the autumn season in order to increase the production of cocoons and increase its quality indicators.

Biologically active substances were also used to enrich the mulberry leaf of various concentrations in the experiment. The experiments were carried out in six versions with sufficient repetition to minimize the error of the obtained experimental results.

An analysis of the results of the study shows that the cocoons obtained during autumn feeding were different from the cocoons of spring feeding on geometrical features [8]. That is, the cocoons of spring fodder turned out to be larger compared to autumn. Obviously, such results were obtained due to the ongoing structural changes in the leaves of the mulberry trees, depending on climatic conditions. In the summer season, due to the high temperature, moisture evaporates in the leaves of the mulberry tree and contributes to an increase in fatty substances [9] [10]. The high fat content in the leaves of the mulberry trees increases the saturation of the mulberry fodder. The silkworm ceases to eat quickly, without having accumulated enough silk in the body; as a result, the cocoons curled by such silkworms remain small. But when using feeds enriched with biologically active substances for feeding silkworms at the first age, the maturation period of the caterpillars is reduced by 1.0 - 1.5 days and the volume of silk mass in one cocoon increases from 0.006 to 0.056 grams, the silkiness of live cocoons increased from 1, 0% to 4.01%, the proportion of first-class cocoons from 10.09% to 16.09%, the proportion of non-high-grade cocoons was in the range from 3.48% to 6.18%, and defective cocoons were from 0.41% to 1.13%.

3. Conclusions

Based on the foregoing, the following conclusions can be made.

1) Feeding silkworms using biologically active substances positively affects the development of caterpillar life;

2) Reduces the ripening period, reduces labor costs associated with feeding worms;

3) Saves feed, reduces the cost of production of cocoons;

4) When enriched mulberry leaves are used at an early age, the silkworm increases the mass and shells of cocoons, its silkiness and the proportion of varietal cocoons in their total volume;

5) And also decreases the proportion of non-varietal cocoons.

Conflicts of Interest

The authors declare no conflicts of interest regarding the publication of this paper.


[1] Rakhimov, A.Y. (2008) The Influence of Biological Active Substances the Volume of Procurement of Cocoons and Their Quality. Textile Problems. 3, 65-67.
[2] Rakhimov, A.Y. (2009) The Influence of the Process of Growing Cocoon on the Property of the Shell. Textile Problems, 1, 101-104.
[3] Rakhimov, A.Y. (2009) Cocoon Shell Property. Textile Problems, 2, 89-92.
[4] Rakhimov, A.Y. Sulaimanov Sh. A., Abdurakhmanov A.A. (2009) The Effect of the Shelf Life of Modified Cocoons with Surface-Active Solutions on the Yield of Raw Silk. Textile Problems, 3, 47-50.
[5] Rakhimov, A.Y. (2009) The Effect of the Properties of the Cocoon Shell on the Quality of the Cocoon. Scientific and Technical Journal Ferghana Polytechnic Institute, 1, 50-54.
[6] Sulaimanov, S.A., Rakhimov, A.Y. and Qobulova, N.Z. (2010) Methods of Protection against Various Factors of the Shell of a Dry Cocoon Using Chemicals. Textile Problems. 4, 24-26.
[7] Sulaimanov, S.A. and Qobulova, N.Z. (2010) Elimination of Defect-Forming Factors by Modification of Chemicals while Preserving Cocoons. Textile Problems, 4, 74-77.
[8] Rakhimov, A.Y. and Rakhimov, A.A. (2015) The Influence of Artificial Cocoons on the Quality of Cocoons during Their Curling during the Feeding of Silkworms. Prospects of the Uzbek Textile Culture: Traditions and Innovations IPTD Uzbekistan 2015, Tashkent.
[9] Rakhimov, A.Y., Sulaimanov S.A. and Abdurakhmanov A.A. (2015) The Study of the State of Use of Flaying Cotton Wool and Ways to Improve the Quality of Cocoon Raw Materials. Magazine of Scientific Publications of Graduate Students and Doctoral Students, 4, 152-157.
[10] Abdukarimovich, M.O., Ibragimovich, A.K. and Sharipjanovich, S.O. (2018) Designing a New Design of a Loading Cylinder for Pneumomechanical Spinning Machines. Engineering, 10, 345-356.

comments powered by Disqus

Copyright © 2020 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.