Acid mine drainage (AMD) is a global problem with severe consequences for the environment. South Africa’s abandoned mines are a legacy from the country’s economic dependence on the mining sector, with consequent negative impacts on ecosystems. AMD remediation includes active and passive techniques. Constructed wetlands (a passive technique) have lower operational costs but require larger spaces and longer timeframes to achieve the remediation of AMD, and are supported by anaerobic sulphate-reducing bacteria (SRB), which capable of remediating high-sulphate-laden AMD while precipitating dissolved metals from the AMD. Organic substrates supporting these activities are often the limiting factor. When enhancing existing passive AMD remediation technologies, alternative waste material research that may support SRB activity is required to support the circular economy through the reduction in waste products. Chicken feathers show potential as a substrate enhancer, boosting organic carbon availability to SRB, which sustains passive AMD treatment processes by achieving pH elevation, sulphate and metal reductions in AMD water for reuse. Microbial biodiversity is essential to ensure the longevity of passive treatment systems, and chicken feathers are proven to have an association with SRB microbial taxa. However, the longer-term associations between the AMD water parameters, microbial diversity and the selected substrates remain to be further investigated.
Reference:
Oberholzer, M., Oberholster, P., Ndlela, L.L., Botha-Oberholtster, A. & Truter, C. 2022. Assessing alternative supporting organic materials for the enhancement of water reuse in subsurface constructed wetlands receiving acid mine drainage. Recycling, vol. 7(3). http://hdl.handle.net/10204/12573
Oberholzer, M., Oberholster, P., Ndlela, L. L., Botha-Oberholtster, A., & Truter, C. (2022). Assessing alternative supporting organic materials for the enhancement of water reuse in subsurface constructed wetlands receiving acid mine drainage. Recycling, vol. 7(3), http://hdl.handle.net/10204/12573
Oberholzer, MM, PJ Oberholster, Luyanda L Ndlela, AM Botha-Oberholtster, and CJ Truter "Assessing alternative supporting organic materials for the enhancement of water reuse in subsurface constructed wetlands receiving acid mine drainage." Recycling, vol. 7(3) (2022) http://hdl.handle.net/10204/12573
Oberholzer M, Oberholster P, Ndlela LL, Botha-Oberholtster A, Truter C. Assessing alternative supporting organic materials for the enhancement of water reuse in subsurface constructed wetlands receiving acid mine drainage. Recycling, vol. 7(3). 2022; http://hdl.handle.net/10204/12573.