Mercury Removal from Mining Wastewater by Phytoaccumulation in Autochthonous Aquatic Plant Species-Reference-Cited by-同舟云学术

Mercury Removal from Mining Wastewater by Phytoaccumulation in Autochthonous Aquatic Plant Species

Published:2023-06-27 Issue:3 Volume:5 Page:839-851
ISSN:2571-8797
Container-title:Clean Technologies
language:en
Short-container-title:Clean Technol.

Author:

Gomez Franco Hernan¹²³^ORCID,Collivignarelli Maria Cristina⁴⁵^ORCID,Masoud Ahmed Mohammad Nafea¹²^ORCID,Carnevale Miino Marco⁴^ORCID,Torres Kelly Cristina⁶,Quintero Jesus Antonio⁶,Sorlini Sabrina¹²,Vaccari Mentore¹²^ORCID

Affiliation:

1. Department of Civil, Environmental, Architectural Engineering and Mathematics, University of Brescia, Via Branze 43, 25123 Brescia, Italy

2. Research Center on Appropriate Technologies for Environmental Management in Limited Resources Countries (CeTAmb), University of Brescia, Via Branze 43, 25123 Brescia, Italy

3. Department of Chemical Engineering, Universitat Politècnica de Catalunya-BarcelonaTech, Av. Maristany 16, 08019 Barcelona, Spain

4. Department of Civil Engineering and Architecture, University of Pavia, Via Ferrata 3, 27100 Pavia, Italy

5. Interdepartmental Centre for Water Research, University of Pavia, Via Ferrata 3, 27100 Pavia, Italy

6. Research Group on Conservation and Use of Biodiversity-BioCon, Instituto Universitario de la Paz-Unipaz, km 14, vía Bucaramanga, Barrancabermeja 687033, Colombia

Abstract

Mining wastewater (MWW) can contain mercury in high concentrations. In this study, four autochthonous aquatic plant species (Eichhornia Crassipes—EC, Marsilea Quadrifolia—MQ, Ludwigia Helminthorrhiza—LH, and Lemna Minor—LM) were identified and tested for phytoaccumulation of total mercury (THg). To better study the accumulation phenomenon and macrophyte responses, this work has been divided into three phases, and pilot-scale reactors have been used to simulate real conditions. The results highlighted that, in case of 15 µgTHg,fed, the bioconcentration factor (BCF) was significantly higher in EC (19.04) and LH (18.41) with respect to MQ and LM (almost six times and two times higher, respectively). EC granted the best results in terms of THg accumulation (50.90%) and lower evapotranspiration of THg phenomenon with respect to LH. A significant decrease of the BCF (from 23.45 to 21.98) and an increase of the TF (from 0.23 up to 0.73) after 42 d highlighted that a breaking-time in terms of THg accumulation was reached due to the deterioration of the roots. In terms of the kinetics of THg removal by bioaccumulation, an HLT of 69.31 d was found, which is more than the breaking-time of the EC system, proving that a periodic replacement of exhausted macrophytes is required to obtain a higher percentage of THg removal.

Publisher

MDPI AG

Subject

Environmental Science (miscellaneous),Global and Planetary Change

Link

https://www.mdpi.com/2571-8797/5/3/41/pdf

Reference46 articles.

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