Arundo donax L. stem-derived biochar increases As and Sb toxicities from nonferrous metal mine tailings

Toxic metal(loid)s released from tailing residues of mining operations have become a global issue with regard to environmental impacts. Biochar derived from the agriculture waste is considered as a cost-effective and stable material, which could be applied for remediation of sites contaminated with...

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Bibliographic Details
Published in:Environmental science and pollution research international 2020, Vol.27 (3), p.2433-2443
Main Authors: Gu, Jihai, Yao, Jun, Jordan, Gyozo, Roha, Beenish, Min, Ning, Li, Hao, Lu, Chao
Format: Article
Language:English
Subjects:
Agricultural economics
Agricultural wastes
Antimony
Antimony - chemistry
Antimony - therapeutic use
Aquatic Pollution
Arsenic - chemistry
Arsenic - toxicity
Arundo donax
Atmospheric Protection/Air Quality Control/Air Pollution
Bioavailability
Cadmium
Charcoal
Copper
Earth and Environmental Science
Ecotoxicology
Environment
Environmental Chemistry
Environmental Health
Environmental impact
Environmental pollution and Restoration in Mining Area
Environmental science
Fractionation
Germination
Leachates
Lead
Metalloids
Metals
Metals - chemistry
Metals - toxicity
Metals, Heavy
Mine tailings
Mine wastes
Nonferrous metals
Organic chemistry
Phytotoxicity
Poaceae
Seed germination
Soil Pollutants
Tailings
Toxicants
Toxicity
Toxicity testing
Waste Water Technology
Water Management
Water Pollution Control
Wheat
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Summary:Toxic metal(loid)s released from tailing residues of mining operations have become a global issue with regard to environmental impacts. Biochar derived from the agriculture waste is considered as a cost-effective and stable material, which could be applied for remediation of sites contaminated with toxic metal(loid)s. In the present study, tailings were amended for 90 days with increasing concentrations of Arundo donax L. stem-derived biochar (ASBC; at 0, 1, 3, and 5%). The 7-day wheat seed germination toxicity test was then used to assess the bioavailability of toxicants in aqueous leachates of the biochar-amended tailing samples. Concentrations of As, Cd, Cu, Pb, and Sb in leachates and the Community Bureau of Reference chemical fractions were determined using ICP-OES. The results indicated that tailing leachates were phytotoxic, an effect that was partially decreased due to increasing concentrations of ASBC, with maximum effects (∼47% of tailing phytotoxicity) occurring at 3% ASBC. Results of further fractionation analyses indicated that increasing concentrations of ASBC amendment decreased the mobile fractions of Cd, Cu, and Pb in tailing samples, but increased the mobilities of As and Sb. A novel approach using the relative toxicity index (= sum of toxicities of individual potentially toxic elements) indicated that the toxicity of the tailings decreased when As was not present, since As decreased the biochar-reduced toxicity. Our results suggest that the ability of using biochar to decrease toxicity in tailings (by sequestration of cationic metals such as Cd, Cu, and Pb) is limited by its inability to immobilize oxyanionic metalloids such as As and Sb.
ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-018-2780-x