Abstract
To liquidate the larvae, the methyl violet (C24H28N3Cl), used against fungal diseases in fish farming, was used. The goal is to establish physiological responses in different phases of development after treating local and introduced mulberry silkworm breeds of with aqueous solutions of methyl violet. Exogenous exposure to eggs led to the formation of a negative reaction. It has been established that treatment of silkworm eggs with water and a 0.001% solution of methyl violet (from October 20 to November 15, 2018) reduces the weight of the silk layer of cocoons with statistical accuracy by 33.0% (−78.5 mg) and 22.5% (−49 .0 mg) respectively (p<0.001). A negative effect also occurs in other physiological indicators: there is a difference in the weight of caterpillars, cocoons and pupae, and a slight deviation occurs in the weight of caterpillars before cocooning in the aquatic version. The results of this research can be used in developing issues such as identifying more stable and promising mulberry silkworm breeds in the conditions of Azerbaijan, as a prerequisite for predicting the successful introduction of mulberry silkworm.
Publisher
Publishing Center Science and Practice
Reference15 articles.
1. Harinatha Reddy, A. Effect of Aspergillus Fumigatus Infection on The Silkgland of Bombyx Mori L. Int J Recent Sci Res., 2017. 8 (11). pp, 21731-21733.
2. Xu, H., Liu, Y., Wang, F., Yuan, L., Wang, Y., Ma, S., ... & Xia, Q. (2014). Overexpression and functional characterization of an Aspergillus niger phytase in the fat body of transgenic silkworm, Bombyx mori. Transgenic research, 23, 669-677. https://doi.org/10.1007/s11248-014-9797-9
3. Shobha, R., Reddy, A., & Venkatappa, B. (2016). Catalase activity in haemolymph of silkworm (Bombyx mori L.) following fungal infection. J Biol and Nature, 5, 148-153.
4. Bagirova, G. D., & Kulieva, Kh. F. (2021). Fiziologicheskaya reaktsiya u mestnykh i introdutsirovannykh porod tutovogo shelkopryada na izmenenie uslovii soderzhaniya zimuyushchikh gren. Agrarnyi vestnik Urala, (7 (210)), 35-46. https://doi.org/10.32417/1997-4868-2021-210-07-35-46
5. Aretins'ka, T. B., Antraptseva, N. M., Trokoz, V. O., & Ponomar'ova, І. G. Sposіb obrobki greni shovkopryada. Patent № 69284; opubl. 16.08.2004.