BIOPARCHALANUVCHI GIDROGELLARNING QISHLOQ XO‘JALIGIDAGI FOYDALANISH ISTIQBOLLARI

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Published: Jul 6, 2025
Keywords:
bioparchalanuvchi gidrogel; qishloq xo‘jaligi; suvni ushlab turish; sellyuloza; gidrolizlangan poliakrilonitril (GIPAN).

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Eshbo’riyev Tursunali Nasrullayevich
Toshkent kimyo texnologiya instituti Kimyo kafedrasi katta o’qituvchisi
Shirinov Shavkat Davlatovich
Toshkent kimyo texnologiya ilmiy tadqiqot instituti katta ilmiy xodimi, PhD
Djalilov Abdulahat Turobovich
Toshkent kimyo texnologiya ilmiy tadqiqot institute direktori, O’zR FA Akademik
Azimov Abdug’ani Mutalovich
M.Auezov nomidagi Janubiy Qozog‘iston universiteti. “Innovatsion suv tozalash tizimlari” ilmiy-tadqiqot laboratoriyasi rahbari, PhD

Abstract

Ushbu  maqolada  qishloq  xo‘jaligida  bioparchalanuvchi gidrogellardan foydalanish istiqbollari o‘rganilgan. Bioparchalanuvchi gidrogellar haqida umumiy ma’lumotlar keltirilib, sellyuloza  hamda  GIPAN  (gidrolizlangan poliakrilonitril) asosidagi gidrogellarning xususiyatlari tahlil qilingan. Gidrogellarning suv yutish qobiliyati, tuproqda bioparchalanishi va agronomik samaradorligi yuzasidan  ilmiy  manbalar  asosida  ma’lumotlar  keltirilgan. Lalmi yerlar (sug‘orilmaydigan hududlar), tomchilatib sug‘orish tizimlari va bog‘dorchilikda  gidrogellardan foydalanish misollari ko‘rib chiqilib, ularning suvni tejash, hosildorlikni oshirish va tuproq sifatini yaxshilashga ijobiy ta’siri ko‘rsatilgan. Tadqiqotlar tahlili shuni ko‘rsatadiki, bioparchalanuvchi gidrogellar tuproq namligini saqlash va ekinlar hosildorligini oshirishda samarali bo‘lib, atrof-muhitga zarar yetkazmasdan qishloq xo‘jaligining barqarorligini ta’minlashga xizmat qilishi mumkin.

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How to Cite
Eshbo’riyev Tursunali Nasrullayevich, Shirinov Shavkat Davlatovich, Djalilov Abdulahat Turobovich, & Azimov Abdug’ani Mutalovich. (2025). BIOPARCHALANUVCHI GIDROGELLARNING QISHLOQ XO‘JALIGIDAGI FOYDALANISH ISTIQBOLLARI. Research Focus International Scientific Journal, 4(6), 15–24. Retrieved from https://refocus.uz/index.php/1/article/view/1666
Issue
Vol. 4 No. 6 (2025): Research Focus International Scientific Journal 4 (6)
Section
02.00.00 – Chemical sciences
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This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Montesano F.F., Parente A., Santamaria P., Sannino A., et al. (2015). Biodegradable Superabsorbent Hydrogel Increases Water Retention Properties of Growing Media and Plant Growth. Agriculture and Agricultural Science Procedia, 4: 451–458. DOI: 10.1016/j.aaspro.2015.03.052

Agbna G.H.D., Zaidi S.J. (2025). Hydrogel Performance in Boosting Plant Resilience to Water Stress—A Review. Gels, 11(4): 276. DOI: 10.3390/gels11040276

Abdelghafar R., Abdelfattah A., Mostafa H. (2024). Effect of super absorbent hydrogel on hydro-physical properties of soil under deficit irrigation. Scientific Reports, 14: 7655. DOI: 10.1038/ s41598-024-57786-5

Pulatov Sh.Ya., Pulatov Ya.E., Matyakubov B.Sh., Razakova G. (2024). Study of hydrogel application as an innovation in water conservation to increase productivity of water and land resources in Central Tajikistan. E3S Web of Conferences, 563: 03054. DOI: 10.1051/e3sconf/202456303054

Alshallash K., Alharbi K., Selim M., Mostafa Y.S., Alhaga M. (2022). Hydrogel Improved Growth and Productive Performance of Mango Trees under Semi-Arid Condition. Gels, 8(10): 602. DOI: 10.3390/ gels8100602

Sannino A., Demitri C., Madaghiele M. (2009). Biodegradable Cellulose-Based Hydrogels: Design and Applications. Materials (Basel), 2(2): 353–373. DOI: 10.3390/ma2020353

Технология получения новых гидрогелей комплексного действия для сельского хозяйства // Universum: технические науки : электрон. научн. журн. Шеркузиев Д.Ш. [и др.]. 2020. № 4 (73). URL: https://7universum.com/ru/tech/archive/item/9244

Park J., Guan W., Yu G. (2025). Smart Hydrogels for Sustainable Agriculture. EcoMat, 7(4): e70011. DOI: 10.1002/eom2.70011