ACHETA DOMESTICUS L. – UY CHIRILDOG‘INING MORFOLOGIK TASNIFI
Versions
- 13-03-2026 (2)
- 13-03-2026 (1)
This scientific article provides general information on the morphological characteristics observed at all developmental stages of Acheta domesticus L. (house cricket), from the egg stage to the imago stage, reared under laboratory conditions. As a result of the scientific research conducted within the study, body segmentation, leg structure, wing buds and wing morphogenesis, mouthpart structure, and cuticle characteristics for each developmental stage were described. In addition, the genitalia of Acheta domesticus L. were studied using special methods
1. Азимов Д.А., Бекузин А.А., Давлетшина А.Г., Кадырова М.К. Насекомые Узбекистана - Тошкент.: Фан АН РУз, 1993. – С. 340.
2. Liao G.Y, Dai S, Bae E, et al. Morphological features of the domestic house cricket (Acheta domesticus) for translational aging studies. GeroScience. 2025;47:1015–1030. doi:10.1007/s11357-025-01711-9
3. Takács J, Bryon A, Jensen AB, van Loon JJA, Ros VID. Effects of Temperature and Density on House Cricket Survival and Growth and on the Prevalence of Acheta Domesticus Densovirus. Insects. 2023;14(7):588. doi:10.3390/insects14070588
4. Takács J, et al. The House Cricket (Acheta domesticus Linnaeus) in Food Industry. Applied Sciences. 2025;15(17):9494. doi:10.3390/app15179494
5. Walker TJ. House Cricket, Acheta domesticus (Linnaeus). Fact Sheet. University of Florida; 1999. doi:10.32473/edis-in220-1999
6. Patton RL. Growth and development parameters for Acheta domesticus. Ann Entomol Soc Am. 1978;71(1):40–47. doi:10.1093/aesa/71.1.40
7. Sturm R. Morphology and ultrastructure of the accessory glands in the female genital tract of the house cricket. PubMed. PMID: 23425229
8. Journal of Food Composition and Analysis. A systematic review of the nutrient composition of Acheta domesticus. 2022; doi:10.1016/j.jfca.2022.104859
9. Xalillayev Sherzod Alimboyevich “O‘zbekiston togʻ va togʻoldi hududlari to‘gʻriqanotli (insecta: orthoptera) hasharotlari” Biologiya fanlari doktori (DSc) ilmiy darajasini olish uchun yozilgan dissertatsiya T. 2025
Ilyos ABDISAIDOV. (2025). CARBON NANOTUBE GROWTH BY CHEMICAL VAPOR DEPOSITION . «ACTA NUUz», 3(3.2.1), 493–495. Retrieved from https://journals.nuu.uz/index.php/actanuuz/article/view/10021
Amin MALLAYEV, K. A., & Shohruh SAYFULLOYEV. (2025). FORMATION OF SILICIDE PHASES ON THE SILICON SURFACE AS A RESULT OF Fe–Co–Ni ION IMPLANTATION . «ACTA NUUz», 3(3.2.1), 496–500. Retrieved from https://journals.nuu.uz/index.php/actanuuz/article/view/10022
ABDRAXMANOV, T., JABBAROV, Z., MAHAMMADIYEV, S., NOMOZOV, U., IMOMOV, O., ABDULLAYEV, S., & ABDUKARIMOV, J. (2025). MORPHOLOGICAL CHARACTERISTICS OF SOILS AROUND THE KATTAKURGAN RESERVOIR. «ACTA NUUz», 3(3.2.1), 6–9. Retrieved from https://journals.nuu.uz/index.php/actanuuz/article/view/10024
АБДУЛЛАЕВА, Г. (2025). ИЗУЧЕНИЕ КИНЕТИКИ СОРБЦИИ ИОНОВ СВИНЦА С ТВЕРДЫМИ ЭКСТРАГЕНТАМИ НА ОСНОВЕ ОКСИДА АЛЮМИНИЯ. «ACTA NUUz», 3(3.2.1), 392–394. Retrieved from https://journals.nuu.uz/index.php/actanuuz/article/view/10025
KURBANBAEVA, G., JUMANIYAZOVA, G., RAXMONOVA, D., & TORAMBETOV, B. (2025). Cu(II) NITRATNI 1-ETIL-2-(ETILTIO)-1H-BENZO(d)IMIDAZOL BILAN KOMPLEKSINING SINTEZI VA TADQIQOTI. «ACTA NUUz», 3(3.2.1), 434–436. Retrieved from https://journals.nuu.uz/index.php/actanuuz/article/view/10052
Copyright (c) 2026 «ACTA NUUz»
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
.jpg)
1.png)
