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Fate and Transfer of Heavy Metals in Constructed Wetland Mesocosms Subjected Different Hydraulic Regime

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A constructed wetland may consume different levels of pollution in different types of wastewater. The focus of this study was the removal of heavy metals (Pb, Cr, and Cd) by plants and their fate in constructed wetland mesocosms. With hydraulic regime manipulation, heavy metals were retained in the ferric dewatered sludge either by adsorption to the carboxylate groups and iron oxy-hydroxide under anaerobic conditions or by co-precipitation with iron oxy-hydroxide under aerobic conditions. Under anaerobic conditions, most heavy metals accumulate in the bottom layer and decrease when moving to the top one. In turn, under aerobic conditions, most of the heavy metals accumulate in the bottom and top layers. Plants play a minor role in heavy metal removal. About 16% of total heavy metals added to the ferric dewatered treatment sludge were taken up by plants. Roots accumulated roughly 64% of the total lead take up by plants, 66% of the chromium, and 63% of the cadmium, respectively, and passed 36%, 34%, and 37% of the aboveground tissues for harvesting. As a conclusion of this study, when constructed wetland is used, the role of hydraulic regime, substance used, and vegetation should not be ignored in the process of wastewater purification in constructed wetland.
Rocznik
Strony
44--49
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
  • Department of Environmental and Pollution Technical Engineering, Basrah Engineering Technical College, Southern Technical University, Al Basra, Iraq
  • Department of Environmental and Pollution Technical Engineering, Basrah Engineering Technical College, Southern Technical University, Al Basra, Iraq
  • Department of Environmental and Pollution Technical Engineering, Basrah Engineering Technical College, Southern Technical University, Al Basra, Iraq
Bibliografia
  • 1. Chen, T., Zhou, Z., Han, R., Meng, R., Wang, H., Lu, W. 2015. Adsorption of cadmium by biochar derived from municipal sewage sludge: Impact factors and adsorption mechanism. Chemosphere, 134, 286–293.
  • 2. Coelho, G.F., Gonçalves, A.C., Tarley, C.R.T., Casarin, J., Nacke, H., Francziskowski, M.A. 2014. Removal of metal ions Cd (II), Pb (II), and Cr (III) from water by the cashew nut shell Anacardium occidentale L. Ecological Engineering, 73, 514–525.
  • 3. Dong, C., Huang, Y.H., Wang, S.C., Wang, X.H. 2016. Oxygen Supply and Wastewater Treatment in Subsurface-Flow Constructed Wetland Mesocosm: Role of Plant Presence. Polish Journal of Environmental Studies, 25(2).
  • 4. Ercan, Ö., Aydin, A. 2013. Removal of mercury, antimony, cadmium and lead from aqueous solution using 1, 3, 5-trithiane as an adsorbent. Journal of the Brazilian Chemical Society, 24, 865–872.
  • 5. Knowles, P., Dotro, G., Nivala, J., García, J. 2011. Clogging in subsurface-flow treatment wetlands: Occurrence and contributing factors. Ecological Engineering, 37(2), 99–112.
  • 6. Kosolapov, D.B., Kuschk, P., Vainshtein, M.B., Vatsourina, A. V., Wießner, A., Kästner, M. and Müller, R.A. 2004. Microbial processes of heavy metal removal from carbon-deficient effluents in constructed wetlands. Engineering in Life Sciences, 4(5), 403–411.
  • 7. Laaraj, M., Mesnage, V., Nabih, S., Mliyeh, M. M., Lahmidi, I., Benaabidate, L. 2022. Assessment of Heavy Metals in the Sediments of the Inaouene Watershed Upstream the Idriss 1 st Dam, Northern Morocco. Journal of Ecological Engineering, 23(9), 157–170.
  • 8. Marchand, L., Mench, M., Jacob, D.L., Otte, M.L. 2010. Metal and metalloid removal in constructed wetlands, with emphasis on the importance of plants and standardized measurements: A review. Environmental pollution, 158(12), 3447–3461.
  • 9. Mohammed, A. 2017. Development of an engineered wetland system for sustainable landfill leachate treatment (Doctoral dissertation, Cardiff University).
  • 10. Mohammed, A., Al-Tahmazi, T., Babatunde, A.O. 2016. Attenuation of metal contamination in landfill leachate by dewatered waterworks sludges. Ecological Engineering, 94, 656–667.
  • 11. Mohammed, A., Babatunde, A. 2017. Understanding Integrated Removal of Heavy Metals, Organic Matter and Nitrogen in a Constructed Wetland System Receiving Simulated Landfill Leachate. International Journal of Environmental and Ecological Engineering, 11(4), 303–309.
  • 12. Stefanakis, A., Akratos, C.S., Tsihrintzis, V.A. 2014. Vertical flow constructed wetlands: eco-engineering systems for wastewater and sludge treatment. First Edit. London: Newnes.
  • 13. Thani, N.S.M., Ghazi, R.M., Amin, M.F.M., Hamzah, Z. 2019. Phytoremediaton of heavy metals from wastewater by constructed wetland microcosm planted with alocasia puber. Jurnal Teknologi, 81(5).
  • 14. Ugya, A.Y., Meguellati, K. 2022. Modelling Assisted Phytoremediation of Landfill Leachate using Surface Flow Constructed Wetland Enhanced by Pistia stratiote and Salvinia molesta. Journal of Ecological Engineering, 23(5), 226–236.
  • 15. Vymazal, J., Březinová, T. 2016. Accumulation of heavy metals in aboveground biomass of Phragmites australis in horizontal flow constructed wetlands for wastewater treatment: a review. Chemical Engineering Journal, 290, 232–242.
  • 16. Vymazal, J., Kröpfelová, L., Švehla, J., Chrastný, V., Štíchová, J. 2009. Trace elements in Phragmites australis growing in constructed wetlands for treatment of municipal wastewater. Ecological engineering, 35(2), 303–309.
  • 17. Vymazal, J., Švehla, J., Kröpfelová, L., Němcová, J., & Suchý, V. (2010). Heavy metals in sediments from constructed wetlands treating municipal wastewater. Biogeochemistry, 101(1), 335–356.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-29e30f88-ac04-4abf-954a-a10d5238fdb5
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