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Bioremediation of Aquatic Environments Contaminated with Heavy Metals: A Review of Mechanisms, Solutions and Perspectives

Author

Listed:
  • Carolina Faccio Demarco

    (Technology Development Center, Graduate Program of Science and Materials Engineering, Brazil Federal University of Pelotas, Pelotas 96015-560, Rio Grande do Sul, Brazil)

  • Maurízio Silveira Quadro

    (Engineering Center, Federal University of Pelotas, Pelotas 96015-560, Rio Grande do Sul, Brazil)

  • Filipe Selau Carlos

    (Faculty of Agronomy, Federal University of Pelotas, Pelotas 96015-560, Rio Grande do Sul, Brazil)

  • Simone Pieniz

    (Faculty of Nutrition, Federal University of Pelotas, Pelotas 96015-560, Rio Grande do Sul, Brazil)

  • Luiza Beatriz Gamboa Araújo Morselli

    (Technology Development Center, Graduate Program of Science and Materials Engineering, Brazil Federal University of Pelotas, Pelotas 96015-560, Rio Grande do Sul, Brazil)

  • Robson Andreazza

    (Technology Development Center, Graduate Program of Science and Materials Engineering, Brazil Federal University of Pelotas, Pelotas 96015-560, Rio Grande do Sul, Brazil)

Abstract

The degradation of water resources is related to anthropic actions such as rapid urbanization and industrial and agricultural activities with inefficient land use and occupation management. Water pollution caused by organic and inorganic contaminants represents a current challenge for researchers and humanity. One of the techniques used to remove pollutants from aquatic environments is bioremediation, through the metabolism of living organisms, and especially phytoremediation, with plants as a decontamination agent. Aiming to demonstrate the current mechanisms, solutions, and perspectives regarding bioremediation, and especially phytoremediation in aquatic environments, a literature review was conducted, highlighting the following subjects: heavy metals as contaminants, phytoremediation, evaluation of resistance mechanisms, removal of heavy metals by microorganisms and biofilters of the artificial floating islands type. From the literature research carried out, it can be concluded that alternatives such as macrophyte plants have proved to be an effective and efficient alternative with a high potential for removal of contaminants in aquatic environments, including concomitantly with microorganisms. There was no mechanism well-defined for specific absorption of heavy metals by plants; however, some results can indicate that if there was sporadic contamination with some contaminants, the plants can be indicators with some adsorption and absorption, even with low concentration in the watercourse by the moment of the evaluation. It is necessary to study bioremediation methods, resistance mechanisms, tolerance, and removal efficiencies for each biological agent chosen. Within the bioremediation processes of aquatic environments, the use of macrophyte plants with a high capacity for phytoremediation of metals, used combined with bioremediating microorganisms, such as biofilters, is an interesting perspective to remove contaminants.

Suggested Citation

  • Carolina Faccio Demarco & Maurízio Silveira Quadro & Filipe Selau Carlos & Simone Pieniz & Luiza Beatriz Gamboa Araújo Morselli & Robson Andreazza, 2023. "Bioremediation of Aquatic Environments Contaminated with Heavy Metals: A Review of Mechanisms, Solutions and Perspectives," Sustainability, MDPI, vol. 15(2), pages 1-15, January.
    • Handle: RePEc:gam:jsusta:v:15:y:2023:i:2:p:1411-:d:1032757
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    References listed on IDEAS

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    1. Rongkui Su & Qiqi Ou & Hanqing Wang & Yiting Luo & Xiangrong Dai & Yangyang Wang & Yonghua Chen & Lei Shi, 2022. "Comparison of Phytoremediation Potential of Nerium indicum with Inorganic Modifier Calcium Carbonate and Organic Modifier Mushroom Residue to Lead–Zinc Tailings," IJERPH, MDPI, vol. 19(16), pages 1-15, August.
    2. Shafaqat Ali & Zohaib Abbas & Muhammad Rizwan & Ihsan Elahi Zaheer & İlkay Yavaş & Aydın Ünay & Mohamed M. Abdel-DAIM & May Bin-Jumah & Mirza Hasanuzzaman & Dimitris Kalderis, 2020. "Application of Floating Aquatic Plants in Phytoremediation of Heavy Metals Polluted Water: A Review," Sustainability, MDPI, vol. 12(5), pages 1-33, March.
    3. Sarah Dean & Muhammad Shahbaz Akhtar & Allah Ditta & Mohammad Valipour & Sohaib Aslam, 2022. "Microcosm Study on the Potential of Aquatic Macrophytes for Phytoremediation of Phosphorus-Induced Eutrophication," Sustainability, MDPI, vol. 14(24), pages 1-16, December.
    4. Ayansina Segun Ayangbenro & Olubukola Oluranti Babalola, 2017. "A New Strategy for Heavy Metal Polluted Environments: A Review of Microbial Biosorbents," IJERPH, MDPI, vol. 14(1), pages 1-16, January.
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    Cited by:

    1. Harith H. Al-Moameri & Ahmed A. Ayash & Shahad Zuhair Atta Al-Najjar & Arnold A. Lubguban & Roberto M. Malaluan, 2023. "Simulation Study of the Liquid–Solid Multistage Adsorption Process," Sustainability, MDPI, vol. 15(4), pages 1-12, February.
    2. Linton F. Munyai & Tatenda Dalu, 2023. "Aquatic Macrophytes Metal and Nutrient Concentration Variations, with Implication for Phytoremediation Potential in a Subtropical River System," Sustainability, MDPI, vol. 15(20), pages 1-12, October.
    3. Yansong Zhang & Yujie Wei & Yu Mao, 2023. "Sustainability Assessment of Regional Water Resources in China Based on DPSIR Model," Sustainability, MDPI, vol. 15(10), pages 1-20, May.

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