Influence of type and amount of organic matters on the iron sorption of acid mine drainage onto reclaimed-mining soils

Abstract: Mining activity may potentially produce acid mine drainage (AMD), which has relatively high acidity and dissolved heavy metal concentrations. Constructed wetlands is one of the AMD management methods in which organic matter (OM) plays a very important function in reducing the concentration of heavy metals in AMD through absorption and precipitation processes. Three types of OM (empty fruit bunches of oil palm, chicken manure and water hyacinth) and five levels of OM (0, 10, 20, 30 and 40 Mg ha-1) were applied … Show more

“…Application of Sub-bituminous coal activated with 10% NaOH can increase soil pH value because it has COOH and OH functional groups. The HS from SC -NaOH comprises hydroxyl and carboxyl functional groups that may bind Hg soluble, which indicates that consuming H+ ions are soluble in the soil solution, resulting in lowered and raised soil pH [17]. Table 1 shows the average EC and Eh on ex-gold mining soil ameliorated with SC -NaOH of 0.35 dS m -1 and 0.14 Volts, respectively.…”

Modification of Surface Charges on Ex-Gold Mining Soil Ameliorated with Activation of Sub-Bituminous Coal - NaOH

“…Application of Sub-bituminous coal activated with 10% NaOH can increase soil pH value because it has COOH and OH functional groups. The HS from SC -NaOH comprises hydroxyl and carboxyl functional groups that may bind Hg soluble, which indicates that consuming H+ ions are soluble in the soil solution, resulting in lowered and raised soil pH [17]. Table 1 shows the average EC and Eh on ex-gold mining soil ameliorated with SC -NaOH of 0.35 dS m -1 and 0.14 Volts, respectively.…”

Modification of Surface Charges on Ex-Gold Mining Soil Ameliorated with Activation of Sub-Bituminous Coal - NaOH

Changes in microbial community structure during the biooxidation of iron and inorganic/organic sulfur provide prediction of acid mine drainage from coal spoil