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Studies on the Accumulation, Translocation, and Enrichment Capacity of Soils and the Plant Species Phragmites Australis (Common Reed) with Heavy Metals

Author

Listed:
  • Dana Chitimus

    (Faculty of Engineering, “Vasile Alecsandri” University of Bacau, 600115 Bacau, Romania)

  • Valentin Nedeff

    (Faculty of Engineering, “Vasile Alecsandri” University of Bacau, 600115 Bacau, Romania
    The Academy of Agricultural and Forestry Sciences “Gheorghe Ionescu-Şişeşti”, 011464 București, Romania)

  • Emilian Mosnegutu

    (Faculty of Engineering, “Vasile Alecsandri” University of Bacau, 600115 Bacau, Romania)

  • Narcis Barsan

    (Faculty of Engineering, “Vasile Alecsandri” University of Bacau, 600115 Bacau, Romania)

  • Oana Irimia

    (Faculty of Engineering, “Vasile Alecsandri” University of Bacau, 600115 Bacau, Romania)

  • Florin Nedeff

    (Faculty of Engineering, “Vasile Alecsandri” University of Bacau, 600115 Bacau, Romania)

Abstract

In the present study, heavy metal concentrations (Cu, Zn, Pb, As) from former industrial areas were analyzed in soil and the plant species Phragmites Australis (common reed), a plant species found in shallow river banks. The objectives of the study were to determine the accumulation, translocation, and enrichment capacity of soils and plants (root, stem, leaf, and flower) with heavy metals, and to evaluate the potential of the plant species Phragmites Australis (common reed) in the phytoremediation of heavy-metal-polluted soils. The sediments and plants investigated were particularly rich in heavy metals such as Cu, Zn, Pb, and As, and Pb and Zn concentrations were determined to be of phytotoxic level. The highest transfer coefficient of heavy metals from the soil to the root of the plant species Phragmites Australis (common reed) was for the metals Cu and Zn. The transfer of heavy metals from the root of the plant species Phragmites Australis (common reed) to the aerial part of the plant was lowest for Cu. A very low enrichment factor value was recorded for the metal As. The mobility of heavy metals was generally higher from the sediment to the plant roots, with the order of the average transfer coefficient values being Cu > Zn > Pb > As for all three areas analyzed. The translocation of heavy metals from the root to the upper aerial part of the plant was in the form of As > Pb > Zn > Cu in the plant species Phragmites australis (common reed). According to the average values obtained for the three coefficients, the accumulation, translocation, and enrichment capacity of heavy metals in soil and the plant species Phragmites Australis (common reed), it can be stated that the plant species Phragmites Australis (common reed) is very suitable for use in the process of soil remediation by phytoremediation.

Suggested Citation

  • Dana Chitimus & Valentin Nedeff & Emilian Mosnegutu & Narcis Barsan & Oana Irimia & Florin Nedeff, 2023. "Studies on the Accumulation, Translocation, and Enrichment Capacity of Soils and the Plant Species Phragmites Australis (Common Reed) with Heavy Metals," Sustainability, MDPI, vol. 15(11), pages 1-15, May.
    • Handle: RePEc:gam:jsusta:v:15:y:2023:i:11:p:8729-:d:1158246
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    References listed on IDEAS

    as
    1. Yang Yu & Yue Ling & Yunzhao Li & Zhenbo Lv & Zhaohong Du & Bo Guan & Zhikang Wang & Xuehong Wang & Jisong Yang & Junbao Yu, 2022. "Distribution and Influencing Factors of Metals in Surface Soil from the Yellow River Delta, China," Land, MDPI, vol. 11(4), pages 1-17, April.
    2. Gang Wang & Hou-Qi Liu & Yu Gong & Yang Wei & Ai-Jun Miao & Liu-Yan Yang & Huan Zhong, 2017. "Risk Assessment of Metals in Urban Soils from a Typical Industrial City, Suzhou, Eastern China," IJERPH, MDPI, vol. 14(9), pages 1-17, September.
    3. Shudi Zuo & Shaoqing Dai & Yaying Li & Jianfeng Tang & Yin Ren, 2018. "Analysis of Heavy Metal Sources in the Soil of Riverbanks Across an Urbanization Gradient," IJERPH, MDPI, vol. 15(10), pages 1-23, October.
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    Cited by:

    1. Han Xu & Jie Liu & Na Huang & Anqing Yu & Jingyuan Li & Qiao Li & Qiunan Yang & Lulu Long, 2024. "Precision Remediation of Mining Soils through On-Site Investigation and Large-Scale Synthesized Ferrosilicate," Sustainability, MDPI, vol. 16(17), pages 1-14, August.
    2. Shuoqi Huang & Zhenqiang Lu & Xiaoxin Zhao & Wenbo Tan & Hao Wang & Dali Liu & Wang Xing, 2024. "Molecular Basis of Energy Crops Functioning in Bioremediation of Heavy Metal Pollution," Agriculture, MDPI, vol. 14(6), pages 1-19, June.

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