期刊
JOURNAL OF ENVIRONMENTAL MANAGEMENT
卷 313, 期 -, 页码 -出版社
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jenvman.2022.114973
关键词
Mining soil; Heavy metal; Immobilization; Remediation; Biochar
资金
- National Natural Science Foundation of China [41977297]
- Special Research Fund of Natural Science (Special Post) of Guizhou University [(2020) 01]
- Key Cultiva-tion Program of Guizhou University [2019 (08)]
Soil heavy metal contamination caused by mining activities is a global issue that threatens public health. Biochar, as an environmentally friendly soil remediation agent, can effectively immobilize heavy metals. However, research on biochar remediation in mining areas is limited and the remediation effect is influenced by various factors. It is necessary to systematically unravel the knowledge of biochar remediation and provide guidance for future studies.
Soil heavy metal contamination caused by mining activities is a global issue. These heavy metals can be enriched in plants and animals through the food chain, and eventually transferred to the human system and threatening public health. Biochar, as an environmentally friendly soil remediation agent, can effectively immobilize heavy metals in soil. However, most researchers concern more about the remediation effect and mechanism of biochar for industrial and agricultural contaminated soil, while related reviews focusing on mining soil remediation are limited. Furthermore, the remediation effect of soil in mining areas is affected by many factors, such as physicochemical properties of biochar, pyrolysis conditions, soil conditions, mining environment and application method, which can lead to great differences in the remediation effect of biochar in diverse mining areas. Therefore, it is necessary to systematically unravel the relevant knowledge of biochar remediation, which can also provide a guide for future studies on biochar remediation of contaminated soils in mining areas. The present paper first reviews the negative effects of mining activities on soil and the advantages of biochar relative to other remediation methods, followed by the mechanism and influencing factors of biochar on reducing heavy metal migration and bioavailability in mining soil were systematically summarized. Finally, the main research directions and development trends in the future are pointed out, and suggestions for future development are proposed.
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