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Engineering Group Research Article 記事ID: igmin276

Utilising Phytoremediation in Green Technologies: Exploring Natural Means of Environmental Clean-up

Materials Science DOI10.61927/igmin276 Affiliation

Affiliation

    1Senior Lecturer, Department of Chemistry, Chemical Technology and Ecology, Almaty Technological University, Almaty, Kazakhstan

    2Department Chemistry, Chemical Technology and Ecology, Almaty Technological University, Almaty, Kazakhstan

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要約

Recently, environmental pollution has acquired the character of a global environmental threat, the current situation causes concern for the authorities, scientists, and the public and the need to develop simple and sufficiently effective technologies for the return to nature of elements that have been re-formed in the course of economic processes and thus become pollutants.
Traditionally used physical and chemical methods are effective, but very expensive and may cause additional load on ecosystems. Existing outdated technologies and equipment for wastewater treatment need to be replaced with new ones.
Phytoremediation is a set of methods for treating wastewater, soil and atmospheric air with the help of green plants. Due to differences in plant physiology, not all plants can collect heavy metals or organic pollutants. Even varieties of the same species can accumulate pollutants.
The work aims to investigate natural means of cleaning the environment by phytoremediation.
Several field trials confirmed the possibility of using the Paulownia plant for cleaning the air environment of Almaty city. The results of the study showed that the fast-growing Paulownia tree in areas with heavy metal-contaminated cadmium, lead, arsenic and antimony polluted and disturbed soils can be rehabilitated or reclaimed.
All advantages and limitations of the phytoremediation method were investigated and experimentally demonstrated. The obtained research results confirm the prospects of the phytoremediation method for reducing environmental impact on contaminated soils.

数字

参考文献

    1. Minyuk ZP, Sharovarov GA. modern methods of cleaning polluted territories. Vesnik MSU named after A. A. Kulyashov. 2008;2-3(30):173-178.
    2. Kireeva NA, Grigoriadi AS, Bagautdinov FYa. Phytoremediation as a method of purification of soils contaminated with heavy metals. Theoretical and Applied Ecology. 2011;3:4-16.
    3. Pilon-Smits E. Phytoremediation. Annu Rev Plant Biol. 2005;56:15-39. doi: 10.1146/annurev.arplant.56.032604.144214. PMID: 15862088.
    4. Demin AV, Rybalchenko IV, Milkina IV, Zhandarova YA. Technologies of sustainable development of territories: phytoremediation as an innovative method of rehabilitation of depressed territories. Bull Peoples Friendship Univ Russia Ser State Municipal Admin. 2022;9(2):124-136.
    5. Tuck G, Glendining MJ, Smith P, House JI, Wattenbach M. The potential distribution of bioenergy crops in Europe under present and future climate. Biomass Bioenergy. 2005;30(3):183-197.
    6. Stern WB. Straw as a source of renewable energy. Swiss Bull Angew Geol. 2010;15(1):95-103.
    7. Rodkin OI. Phytoremediation as a method of comprehensive solution of environmental problems. Geoecol Res. 2024;34(3):284-295.
    8. Rodzkin A, Khroustalev B, Kundas S. Potential of energy willow plantations for biological reclamation of soils polluted by 137Cs and heavy metals, and for control of nutrients leaking into water systems. Environ Climate Technol. 2019;23(3):43-56.
    9. Aronsson P, Perttu K. Willow vegetation filters for wastewater treatment and soil remediation combined with biomass production. For Chron. 2001;77(2):293-299.
    10. Vyslouilová M, Tlusto P, Száková J, Pavlíková D. As, Cd, Pb and Zn uptake by Salix spp. clones grown in soils enriched by high loads of these elements. Plant Soil Environ. 2003;49(5):191-196.
    11. Borišev M, Pajević S, Nikolić N, Pilipović A, Krstić B, Orlović S. Phytoextraction of Cd, Ni, and Pb using four willow clones (Salix spp.). Pol J Environ Stud. 2009;18(4):553-561.
    12. Mola-Yudego B, Arevalo J, Díaz-Yáñez O, Dimitriou I, Freshwater E, Haapala A, Khanam T, Selkimäki M. Reviewing wood biomass potentials for energy in Europe: the role of forests and fast-growing plantations. Biofuels. 2017;8(4):401-410.
    13. Rodzkin A, Kundas S, Charnenak Y. The assessment of cost of biomass from post-mining peaty lands for pellet fabrication. Environ Climate Technol. 2018;22(1):118-131.
    14. Bizily SP, Rugh CL, Meagher RB. Phytodetoxification of hazardous organomercurials by genetically engineered plants. Nat Biotechnol. 2000 Feb;18(2):213-7. doi: 10.1038/72678. PMID: 10657131.
    15. Krämer U, Chardonnens AN. The use of transgenic plants in the bioremediation of soils contaminated with trace elements. Appl Microbiol Biotechnol. 2001 Jun;55(6):661-72. doi: 10.1007/s002530100631. PMID: 11525612.
    16. Molotkov IV, Kasyanenko VA. Phytoremediation. Oil Gas Industry. 2005;1(13):15-19.

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DOI10.61927/igmin200

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