The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

From waste to resource: A review on biological and physicochemical metal remediation and recovery in the light of the circular economy

From waste to resource: A review on biological and physicochemical metal remediation and recovery in the light of the circular economy
From waste to resource: A review on biological and physicochemical metal remediation and recovery in the light of the circular economy
Remediating metal-contaminated sites, particularly those impacted by the extraction or processing of critical raw materials (CRMs), poses significant environmental and health challenges. This topic has typically been approached from either a physicochemical or a biological perspective, depending on the disciplinary focus. The present review seeks to bridge that gap by integrating both approaches into a unified and comprehensive framework, exploring their interconnections and highlighting the insights that emerge from their synthesis. It describes current advances in both methods groups for the treatment of metal-containing wastes, focusing on the removal of toxic metal(loid)s, and the recovery of CRMs within the framework of the circular economy. Physicochemical techniques play a crucial role in waste decontamination, while biological methods may offer environmentally sustainable alternatives for mitigating metal pollution. Microbial strategies are particularly advantageous due to their high specificity and effectiveness even at low contaminant concentrations, while also facilitating site restoration with minimal ecological damage. Integrating biological and physicochemical treatments may significantly enhance remediation performance, for more efficient and sustainable solutions. In particular, "treatment trains" or sequential treatment approaches combine multiple remediation methods to enhance efficiency while enabling recovery and reuse of valuable metals. Successful implementation of these strategies requires the optimization of treatment conditions and the integration of green remediation practices into large-scale applications. This review highlights the need for more comprehensive and in-depth studies (including field-scale applications) to address critical knowledge gaps and to further develop these potentially cost-effective and more sustainable methods for extracting valuable metals from mining waste.
Circular economy, Contamination, Critical raw materials, Microorganism, Mining, Reuse
0304-3894
Povedano-Priego, Cristina
46118ce2-ce3e-4e87-bedb-3fbf7cb7e953
Jroundi, Fadwa
93f24d9a-aafc-4f9e-bbdf-6e2b2fa1ed90
Lopez-Fernandez, Margarita
6b3b6a79-74c1-47c3-bf00-5b62e9a31894
Ruiz-Fresneda, Miguel A
b50c54ec-5993-4ad4-886f-f2fd690c25ee
Newman-Portela, Antonio
cc33b5cf-1df3-41c5-b7f4-160a7e25f840
Hlavackova, Veronika
5e9228e2-6e91-46b3-aca4-8cfa3a666034
Burrell, Frances
17557794-ae6b-4c71-9d9b-3fed6ebdbf49
Warwick, Phillip
f2675d83-eee2-40c5-b53d-fbe437f401ef
Nguyen, Nhung H A
73c9bd20-20e4-4fab-a9ed-1aaaea199ee6
Sevcu, Alena
dd1b3e14-0a15-498d-91d8-c8807ae089b7
Cernik, Miroslav
e49ed288-33db-4428-9381-04ecb789f83a
Merroun, Mohamed L
bb22cef5-6c1c-485a-ac73-400ec39449d5
Cundy, Andrew B
994fdc96-2dce-40f4-b74b-dc638286eb08
Povedano-Priego, Cristina
46118ce2-ce3e-4e87-bedb-3fbf7cb7e953
Jroundi, Fadwa
93f24d9a-aafc-4f9e-bbdf-6e2b2fa1ed90
Lopez-Fernandez, Margarita
6b3b6a79-74c1-47c3-bf00-5b62e9a31894
Ruiz-Fresneda, Miguel A
b50c54ec-5993-4ad4-886f-f2fd690c25ee
Newman-Portela, Antonio
cc33b5cf-1df3-41c5-b7f4-160a7e25f840
Hlavackova, Veronika
5e9228e2-6e91-46b3-aca4-8cfa3a666034
Burrell, Frances
17557794-ae6b-4c71-9d9b-3fed6ebdbf49
Warwick, Phillip
f2675d83-eee2-40c5-b53d-fbe437f401ef
Nguyen, Nhung H A
73c9bd20-20e4-4fab-a9ed-1aaaea199ee6
Sevcu, Alena
dd1b3e14-0a15-498d-91d8-c8807ae089b7
Cernik, Miroslav
e49ed288-33db-4428-9381-04ecb789f83a
Merroun, Mohamed L
bb22cef5-6c1c-485a-ac73-400ec39449d5
Cundy, Andrew B
994fdc96-2dce-40f4-b74b-dc638286eb08

Povedano-Priego, Cristina, Jroundi, Fadwa, Lopez-Fernandez, Margarita, Ruiz-Fresneda, Miguel A, Newman-Portela, Antonio, Hlavackova, Veronika, Burrell, Frances, Warwick, Phillip, Nguyen, Nhung H A, Sevcu, Alena, Cernik, Miroslav, Merroun, Mohamed L and Cundy, Andrew B (2025) From waste to resource: A review on biological and physicochemical metal remediation and recovery in the light of the circular economy. Journal of Hazardous Materials, 498, [139991]. (doi:10.1016/j.jhazmat.2025.139991).

Record type: Review

Abstract

Remediating metal-contaminated sites, particularly those impacted by the extraction or processing of critical raw materials (CRMs), poses significant environmental and health challenges. This topic has typically been approached from either a physicochemical or a biological perspective, depending on the disciplinary focus. The present review seeks to bridge that gap by integrating both approaches into a unified and comprehensive framework, exploring their interconnections and highlighting the insights that emerge from their synthesis. It describes current advances in both methods groups for the treatment of metal-containing wastes, focusing on the removal of toxic metal(loid)s, and the recovery of CRMs within the framework of the circular economy. Physicochemical techniques play a crucial role in waste decontamination, while biological methods may offer environmentally sustainable alternatives for mitigating metal pollution. Microbial strategies are particularly advantageous due to their high specificity and effectiveness even at low contaminant concentrations, while also facilitating site restoration with minimal ecological damage. Integrating biological and physicochemical treatments may significantly enhance remediation performance, for more efficient and sustainable solutions. In particular, "treatment trains" or sequential treatment approaches combine multiple remediation methods to enhance efficiency while enabling recovery and reuse of valuable metals. Successful implementation of these strategies requires the optimization of treatment conditions and the integration of green remediation practices into large-scale applications. This review highlights the need for more comprehensive and in-depth studies (including field-scale applications) to address critical knowledge gaps and to further develop these potentially cost-effective and more sustainable methods for extracting valuable metals from mining waste.

This record has no associated files available for download.

More information

e-pub ahead of print date: 27 September 2025
Published date: 15 October 2025
Additional Information: Copyright © 2025 The Authors. Published by Elsevier B.V. All rights reserved.
Keywords: Circular economy, Contamination, Critical raw materials, Microorganism, Mining, Reuse
Learn more about Ocean and Earth Science research Learn more about School of Ocean and Earth Science research

Identifiers

Local EPrints ID: 506220
URI: http://eprints.soton.ac.uk/id/eprint/506220
DOI: doi:10.1016/j.jhazmat.2025.139991
ISSN: 0304-3894
PURE UUID: e5eaf0f9-4ea5-487b-a6b5-7c45be0a7ff5
ORCID for Frances Burrell: ORCID iD orcid.org/0000-0002-6671-6680
ORCID for Phillip Warwick: ORCID iD orcid.org/0000-0001-8774-5125
ORCID for Andrew B Cundy: ORCID iD orcid.org/0000-0003-4368-2569

Catalogue record

Date deposited: 30 Oct 2025 17:42
Last modified: 31 Oct 2025 02:58

Export record

Altmetrics

Contributors

Author: Cristina Povedano-Priego
Author: Fadwa Jroundi
Author: Margarita Lopez-Fernandez
Author: Miguel A Ruiz-Fresneda
Author: Antonio Newman-Portela
Author: Veronika Hlavackova
Author: Frances Burrell ORCID iD
Author: Phillip Warwick ORCID iD
Author: Nhung H A Nguyen
Author: Alena Sevcu
Author: Miroslav Cernik
Author: Mohamed L Merroun
Author: Andrew B Cundy ORCID iD

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×