Issue 39, 2020

Describing the toxicity and sources and the remediation technologies for mercury-contaminated soil

Abstract

Mercury (Hg) is a natural element and its compounds are found as inorganic and organic forms in the environment. The different Hg forms (e.g., methylmercury (MeHg)), are responsible for many adverse health effects, such as neurological and cardiovascular effects. The main source of Hg is from natural release. Nevertheless, with the development of industrialization and urbanization, Hg-contaminated soil mainly influenced by human activities (especially near mercury mining areas) has become a problem. Therefore, much more attention has been paid to the development and selection of various treatment methods to remediate Hg-contaminated soils. This paper presented a systematical review of the recent developments for the remediation of Hg-contaminated soils. Firstly, we briefly introduced the Hg chemistry, toxicity and the main human activity-related sources of mercury in soil. Then the advances in remediation technologies for removing Hg pollution from the soil were summarized. Usually, the remediation technology includes physical, chemical and biological remediation technology. Depending on this, we further classified these remediation technologies into six techniques, including thermal desorption, electrokinetic extraction, soil washing, chemical stabilization, phytoremediation and microbial technology. Finally, we also discussed the challenges and future perspectives of remediating Hg-contaminated soils.

Graphical abstract: Describing the toxicity and sources and the remediation technologies for mercury-contaminated soil

Article information

Article type
Review Article
Submitted
17 Feb 2020
Accepted
31 May 2020
First published
17 Jun 2020
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2020,10, 23221-23232

Describing the toxicity and sources and the remediation technologies for mercury-contaminated soil

D. Teng, K. Mao, W. Ali, G. Xu, G. Huang, N. K. Niazi, X. Feng and H. Zhang, RSC Adv., 2020, 10, 23221 DOI: 10.1039/D0RA01507E

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