A biochar selection method for remediating heavy metal contaminated mine tailings
Approximately 390,000 abandoned mines across the U.S. pose considerable, pervasive risks to human and environmental health; world-wide the problem is even greater. Lime, organic materials, and other amendments have been used to decrease metal bioavailability (e.g., Cd, Cu, Mn, Ni, Zn) in contaminated mine wastes and to promote plant community establishment for tailings stabilization. Biochar properties (e.g., alkaline pH, metal sorbing capabilities, available nutrients, improved soil water relations) make it a potential amendment for remediating metal contaminated mine tailings. A three-step procedure was developed to identify biochars that were most effective at reducing heavy metal availability as well as retaining metals: Step 1) a synthetic precipitation leaching procedure (SPLP) extract of mine tailings was produced, representing potentially available metals, and used to identify metal removal properties of 38 different biochars (e.g., made from various feedstocks and pyrolysis or gasification conditions; 0.25 g biochar:25 mL of SPLP extract, shaken for 24 h); Step 2) evaluate how well biochars retained previously sorbed metals (0.15 g biochar:15 mL of 0.01M CaCl2 solution, shaken for 24 h); and Step 3) laboratory evaluation of the most promising biochars, applied at 0, 1, 2.5, and 5% (by wt.) to mine tailings for reducing metal bioavailability (3.00 g total solid phase:30 mL of 0.01M CaCl2 solution, shaken for 2 h). The reported methodology and results from this study could be used to identify specific biochars and application rates to reduce mine tailings metal availability and aid in future remediation of abandoned mine sites globally.