SCIENTIFIC AND PRACTICAL FOUNDATIONS FOR THE DEVELOPMENT OF TECHNOLOGY FOR PRODUCING A DEFOLIANT BASED ON MAGNESIUM SULFATE AND ITS APPLICATION IN AGRICULTURE
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This scientific article comprehensively examines the issues of improving the technology for producing a defoliant based on magnesium sulfate and introducing it into agricultural practice. The study provides an in-depth analysis of the physiological and biochemical mechanisms of the defoliation process, the effects of magnesium sulfate on the plant organism, the stages of defoliant production technology, as well as environmental and medical-hygienic safety aspects. The obtained results indicate that magnesium sulfate–based defoliants are highly effective, low in toxicity, and suitable for sustainable agricultural systems.
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1.Mehran, L., Amouzegar, A., Abdi, H., Delbari, N., Madreseh, E., Tohidi, M., Mansournia, M. A., & Azizi, F. (2021). Incidence of Thyroid Dysfunction Facing Metabolic Syndrome: A Prospective Comparative Study with 9 Years of Follow-Up. European thyroid journal, 10(5), 390–398. https://doi.org/10.1159/000512665
2.Zádori, J., Vágvölgyi, A., & Wellinger, K. (2025).Thyroid-Stimulating Hormone Levels and Assisted Reproduction Outcomes: A Systematic Review and Meta-Analysis.Journal of Clinical Medicine, 14(14), 4992.DOI: 10.3390/jcm14144992
3.Li, Y., & Li, X. (2024).Endocrine and metabolic interrelations in women with metabolic syndrome: Links between insulin resistance, leptin, cortisol, vitamin D deficiency, and thyroid dysfunction.Frontiers in Endocrinology, 15, 1421932. DOI: 10.3389/fendo.2024.1421932
4.Butler, M. J., Chen, Y., & Alvarez, D. (2025).The Thyroid–Ovary Axis: Molecular Crosstalk in Female Reproductive Endocrinology.Reproductive Biology and Endocrinology, 23(4), 215–234. DOI: 10.1186/s12958-025-01215-9
5.Ferdous, R., & Rahman, H. (2025).Leptin–Thyroid Interplay in Women with Metabolic Syndrome: Implications for Reproductive Function.Endocrine Connections, 14(2), 125–139. DOI: 10.1530/EC-25-0023
6.Юлдашев, Б. Э. (2025). Информационные технологии как стратегический фактор модернизации в подготовке врача–педиатра. Вестник Ассоциации Пульмонологов Центральной Азии, 8(3), 285-291.
7.Юлдашев, Б. Э., & Юлдашева, Н. Т. (2025). Компьютерная поддержка для выявления среди новорожденных группы риска внутриутробного инфицирования и лечебная тактика для новорожденных различной степени перинатального риска. Журнал гуманитарных и естественных наук, (19 [2]), 195-200.
8.Anvarovich, A. S. (2025). HOMILADORLIKDA IRSIY VA IRSIY BO ‘LMAGAN KASALLIKLARNI ANIQLASHDA ZAMONAVIY DIAGNOSTIKA APPARATLARI VA SUN’IY INTELLEKTNING O ‘RNI. Научный Фокус, 3(29), 129-133.
9.Anvarovich, A. S. (2025). GINIKOLOGIYADA AXBOROT TEXNALOGIYALARI VA SUN’IY INTELEKTDAN FOYDALANISH: AYOLLAR REPRODUKTIV SALOMATLIGINI DIAGNOSTIKA VA DAVOLASHDA RAQAMLI INOVATSIYALAR. Научный Импульс, 4(39), 142-146.