FITOREMEDATSIYA QOBILYATIGA EGA OʻSIMLIKLAR VA ULARNING TURLARI

##plugins.themes.bootstrap3.article.sidebar##

PDF
Nashr qilingan: iyn 25, 2024
Kalit so‘zlar:
fitodegradatsiya, fitofiltratsiya, fitoestraktsiya, fitostabilizatsiya va fitovolatilizatsiya, og’ir metallar, ildiz, barg va poya

##plugins.themes.bootstrap3.article.main##

Sultonova Nodirabonu Shavkat qizi
O‘zbekiston milliy universiteti
https://orcid.org/0009-0000-3133-9400
Jabbarov Zafarjon Abdukarimovich
O'zbekiston Milliy Universiteti
https://orcid.org/0000-0003-2816-6347

Annotatsiya

Fitoremediatsiya usuli - bu o'simliklar orqali og'ir metallarni olib tashlashning samarali va oson usuli, buning uchun faqat hududga mos keladigan o'simlik turini qanday tanlashni bilish kerak. Ba'zi fitoremediatsiya o'simliklari og'ir metallarni o'zlashtirib, ularni hujayralarida zararsiz holatga o'tkazishi mumkin, bunday o'simliklarni yig'ib olish yoki tuproqqa siderat ekinlari sifatida ekish mumkin. Bu dehqonlarga ham, lalmi yerlarga ham foyda keltiradi. Ifloslantiruvchi manbalar atrofida yashil o'simliklarning mavjudligi hududning kislorod bilan doimiy yangilanishini ta'minlaydi. Ushbu usuldan foydalanish ko'p pul talab qilmaydi, faqat ekish va sug'orish jarayonlari uchun etarli vaqt va pul. O'simlik to'g'ri tanlangan bo'lsa, bunday ekinlar uchun og'ir qo'llar va doimiy nazorat kerak emas. O‘simliklarda og‘ir metallarning to‘planishi bilan bog‘liq bir qator jarayonlar mavjud, jumladan, og‘ir metallarning mobilizatsiyasi, ildizning so‘rilishi, ksilema yuklanishi, ildizdan kurtakgacha tashish, hujayra bo‘linmasi va zararsiz holatga o‘tkazishi. Og‘ir metallar asosan tuproqda erimaydigan shaklda mavjud bo‘lib, o‘simliklar uchun biologik mavjud emas.


 

##plugins.themes.bootstrap3.article.details##

Qanday qilib iqtibos keltirish kerak
Sultonova, N., & Jabbarov, Z. (2024). FITOREMEDATSIYA QOBILYATIGA EGA OʻSIMLIKLAR VA ULARNING TURLARI. Farg’ona Davlat Universiteti, 30(3), 154. Retrieved from https://journal.fdu.uz/index.php/sjfsu/article/view/3456
Maqola
№. 3 (2024): FarDU.Ilmiy xabarlar jurnali (Aniq va tabiiy fanlar)
Bo‘lim
Biologiya
Creative Commons litsenziyasi

Tsya robota litsenzuetsya vydpovídno do Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 xalqaro litsenziyasi.

Mualliflar biografiyasi

Sultonova Nodirabonu Shavkat qizi, O‘zbekiston milliy universiteti

O'zbekiston milliy universiteti, Tuproqshunoslik kafedrasi tayanch doktoranti

Jabbarov Zafarjon Abdukarimovich, O'zbekiston Milliy Universiteti

Tuproqshunoslik kafedrasi professori, biologiya fanlari doktori

Foydalaniladigan adabiyotlar

Al-Baldawi, I.A., Abdullah, S.R.S., Anuar, N., Hasan, H.A., 2018. Phytotransformation of methylene blue from water using aquatic plant (Azolla pinnata). Environ. Technol. Inno. 11, 15–22. https://doi.org/10.1016/j.eti.2018.03.009.

Amauri Ponce-Hernándeza , Paola Lucero Pérezc , Angel Josabad AlonsoCastrob, Candy Carranza-Álvarezc. Chemical amendments and phytoremediation. Phytoremediation. Biotechnological Strategies for Promoting Invigorating Environs. https://doi.org/10.1016/B978-0-323-89874-4.00013-3 2022, Pages 163-178.]

Ateenyi Basambaa. Rhizoremediation of petroleum hydrocarbon–contaminated soils: A systematic review of mutualism between phytoremediation species and soil living microorganisms. Phytoremediation. Biotechnological Strategies for Promoting Invigorating Environs. https://doi.org/10.1016/B978-0-323-89874-4.00008-X 2022, Jane Alexander Ruleya, Alice Amodinga , John Baptist Tumuhairwea , Twaha Pages 263-296

Bisma Malika , Tanveer Bilal Pirzadaha , Khalid Rehman Hakeemb. Phytoremediation of persistent organic pollutants (POPs). Phytoremediation Biotechnological Strategies for Promoting Invigorating Environs. https://doi.org/10.1016/B978-0-323-89874-4.00010-8 2022, Pages 415-436

Bouzid Nedjimi. Phytoremediation: a sustainable environmental technology for heavy

by Phytoremediation Mechanism: a Review. Water Air Soil Pollut (2020) 231: 47.

Cristaldi, A., Conti, G. O., Jho, E. H., Zuccarello, P., Grasso, A., Copat, C., & Ferrante, M. (2017). Phytoremediation of contaminated soils by heavy metals and PAHs. A brief review. Environmental Technology & Innovation, 8, 309–326.

Fayiga, A.O., Saha, U.K., 2016. Soil pollution at outdoor shooting ranges: health effects, bioavailability and best management practices. Environ. Pollut. 216, 135–145. https://doi.org/10.1016/j.envpol.2016.05.062.

He, H., Dong, Z., Pang, J., Wu, G. L., Zheng, J., & Zhang, X. (2018). Phytoextraction of rhenium by lucerne (Medicago sativa) and erect milkvetch (Astragalus adsurgens) from alkaline soils amended with coal fly ash. Science of the Total Environment, 630, 570–577.

https://doi.org/10.1007/s11270-020-4426-0

Jiang, D.N., Zeng, G.M., Huang, D.L., Chen, M., Zhang, C., Huang, C., Wan, J., 2018. Remediation of contaminated soils by enhanced nanoscale zero valent iron. Environ. Res. 163, 217–227. https://doi.org/10.1016/j.envres.2018.01.030

Lei, M., Wan, X., Guo, G., Yang, J., & Chen, T. (2018). Phytoextraction of arsenic-contaminated soil with Pteris vittata in Henan Province, China: Comprehensive evaluation of remediation efficiency correcting for atmospheric depositions. Environmental Science and Pollution Research, 25, 124–131.

Liang Y, Xiao Y, Fang J (2020) Prospect of phytoremediation combined with other approaches for remediation of heavy metal-polluted soils. Environ Sci Pollut Res 27:16069–16085

metals decontamination. SN Applied Sciences (2021) 3:286 | https://doi.org/10.1007/s42452-021-04301-4

S. Muthusaravanan, N. Sivarajasekar, J. S. Vivek, T. Paramasivan, Mu. Naushad, · J. Prakashmaran, V. Gayathri, Omar K. Al Duaij. Phytoremediation of heavy metals: mechanisms, methods and enhancements. Environmental Chemistry Letters (2018) 16:1339–1359 https://doi.org/10.1007/s10311-018-0762-3

Santucci, L., Carol, E., Tanjal, C., 2018. Industrial waste as a source of surface and groundwater pollution for more than half a century in a sector of the Río de la Plata coastal plain (Argentina). Chemosphere 206, 727–735. https://doi.org/10.1016/j. chemosphere.2018.05.084

Soo Hui Awa , Tony Hadibarata. Removal of Heavy Metals in Contaminated Soil . January 2020. Water Air and Soil Pollution 231(2) DOI: 10.1007/s11270-020-4426-0

Zeng, G.M., Wan, J., Huang, D.L., Hu, L., Huang, C., Cheng, M., Xue, W.J., Gong, X.M., Wang, R.Z., Jiang, D.N., 2017. Precipitation, adsorption and rhizosphere effect: the mechanisms for Phosphate-induced Pb immobilization in soils-A review. J. Hazard Mater. 339, 354–367. https://doi.org/10.1016/j.jhazmat.2017.05.038.

Ushbu muallif(lar)ning maqolalari, eng ko‘p o‘qilgan