References
- Allen, H. E., Fu, G. & Deng, B., 1993: Analysis of acid-volatile sulphide (AVS) and simultaneously extracted metals (SEM) for the estimation of potential toxicity in aquatic sediments. — Environ. Toxicol. Chem. 12: 1441–1453.
- Beckett, P., Willianen, S., Vivyurka, A. & Courtin, G., 1997: Establishment of deep-water aquatic plants in permanently flooded pyritic uranium tailings: a field test. — Presented at the 4th International Conference on acid rock drainage, Vancouver, BC, Canada.
- Crites, R.W., 1994: Design criteria and practice constructed wetlands. — Water Sci. Technol. 29(4): 1–6.
- Dvorak, D. H., Hedin, R. S., Edenborn, H. M. & Mcintire, P. M., 1992: Treatment of metal contaminated water using bacterial sulphate reduction: results of pilot-scale reactors. — Biotechnol. Bioeng. 40: 609–616.
- Kadlec, R. H., 1996: Wetland design: surface flow wetlands: Plants and Planting. — In: Kadlec, R. H. & Knight, R. L. (eds): Treatment Wetlands. 633–634. — Lewis Publishers, CRC Press, Florida.
- May, X., Liu, X. & Wang, R., 1993: China's wetlands and agro-ecological engineering. — Ecol. Eng. 2: 291–301.
- Stalker, J., 1996: The utilisation of bacterial sulphate reduction for the in-situ abatement of acid mine drainage using waste organic matter. — M.Sc. Dissertation, Pennsylvania State University, PennsylvaniaPennsylvania State University.
- Winter, M. & Kickuth, R., 1989: Elimination of sulphur compounds from wastewater by the toot zone process. 1: Performance of a large-scale purification plant at a textile finishing industry. 11: Mode of formation of sulphur deposits. — Water Res. 23: 535–546 (1) & 547–560 (11).