These are the sources and citations used to research lit review part 2. This bibliography was generated on Cite This For Me on

  • Journal

    Aguiar, A., Andrade, L., Grossi, L., Pires, W. and Amaral, M.

    Acid mine drainage treatment by nanofiltration: A study of membrane fouling, chemical cleaning, and membrane ageing

    2018 - Separation and Purification Technology

    In-text: (Aguiar et al., 2018)

    Your Bibliography: Aguiar, A., Andrade, L., Grossi, L., Pires, W. and Amaral, M., 2018. Acid mine drainage treatment by nanofiltration: A study of membrane fouling, chemical cleaning, and membrane ageing. Separation and Purification Technology, [online] 192, pp.185-195. Available at: <https://doi.org/10.1016/j.seppur.2017.09.043> [Accessed 14 November 2021].

  • Journal

    Bwapwa, J., Jaiyeola, A. and Chetty, R.

    Bioremediation of acid mine drainage using algae strains: A review

    2017 - South African Journal of Chemical Engineering

    In-text: (Bwapwa, Jaiyeola and Chetty, 2017)

    Your Bibliography: Bwapwa, J., Jaiyeola, A. and Chetty, R., 2017. Bioremediation of acid mine drainage using algae strains: A review. South African Journal of Chemical Engineering, [online] 24, pp.62-70. Available at: <https://doi.org/10.1016/j.sajce.2017.06.005> [Accessed 14 November 2021].

  • Journal

    Chen, J., Li, X., Jia, W., Shen, S., Deng, S., Ji, B. and Chang, J.

    Promotion of bioremediation performance in constructed wetland microcosms for acid mine drainage treatment by using organic substrates and supplementing domestic wastewater and plant litter broth

    2021 - Journal of Hazardous Materials

    In-text: (Chen et al., 2021)

    Your Bibliography: Chen, J., Li, X., Jia, W., Shen, S., Deng, S., Ji, B. and Chang, J., 2021. Promotion of bioremediation performance in constructed wetland microcosms for acid mine drainage treatment by using organic substrates and supplementing domestic wastewater and plant litter broth. Journal of Hazardous Materials, [online] 404, p.124125. Available at: <https://doi.org/10.1016/j.jhazmat.2020.124125> [Accessed 14 November 2021].

  • Report

    Fripp, J., Ziemkiewicz, P. F. and Charkavork, H.

    Acid Mine Drainage Treatment

    2000 - Defence Technical Information Centre - Washington, USA

    In-text: (Fripp, Ziemkiewicz and Charkavork, 2000)

    Your Bibliography: Fripp, J., Ziemkiewicz, P. and Charkavork, H., 2000. Acid Mine Drainage Treatment. [online] Washington, USA: Defence Technical Information Centre. Available at: <https://apps.dtic.mil/sti/pdfs/ADA379475.pdf> [Accessed 14 November 2021].

  • Journal

    Hogsden, K. L. and Harding, J. S.

    Consequences of acid mine drainage for the structure and function of benthic stream communities: a review

    2012 - Freshwater Science

    In-text: (Hogsden and Harding, 2012)

    Your Bibliography: Hogsden, K. and Harding, J., 2012. Consequences of acid mine drainage for the structure and function of benthic stream communities: a review. Freshwater Science, [online] 31(1), pp.108-120. Available at: <https://doi.org/10.1899/11-091.1> [Accessed 9 November 2021].

  • Journal

    Myers, T.

    Acid mine drainage risks – A modeling approach to siting mine facilities in Northern Minnesota USA

    2016 - Journal of Hydrology

    In-text: (Myers, 2016)

    Your Bibliography: Myers, T., 2016. Acid mine drainage risks – A modeling approach to siting mine facilities in Northern Minnesota USA. Journal of Hydrology, [online] 533, pp.277-290. Available at: <https://doi.org/10.1016/j.jhydrol.2015.12.020> [Accessed 9 November 2021].

  • Journal

    Naidoo, S.

    An assessment of the impacts of acid mine drainage on socio-economic development in the Witwatersrand: South Africa

    2014 - Environment, Development and Sustainability

    In-text: (Naidoo, 2014)

    Your Bibliography: Naidoo, S., 2014. An assessment of the impacts of acid mine drainage on socio-economic development in the Witwatersrand: South Africa. Environment, Development and Sustainability, [online] 17(5), pp.1045-1063. Available at: <https://doi.org/10.1007/s10668-014-9589-7> [Accessed 9 November 2021].

  • Journal

    Olenici, A., Blanco, S., Borrego-Ramos, M., Momeu, L. and Baciu, C.

    Exploring the effects of acid mine drainage on diatom teratology using geometric morphometry

    2017 - Ecotoxicology

    In-text: (Olenici et al., 2017)

    Your Bibliography: Olenici, A., Blanco, S., Borrego-Ramos, M., Momeu, L. and Baciu, C., 2017. Exploring the effects of acid mine drainage on diatom teratology using geometric morphometry. Ecotoxicology, [online] 26(8), pp.1018-1030. Available at: <https://doi.org/10.1007/s10646-017-1830-3> [Accessed 9 November 2021].

  • Journal

    Ryu, S., Naidu, G., Hasan Johir, M. A., Choi, Y., Jeong, S. and Vigneswaran, S.

    Acid mine drainage treatment by integrated submerged membrane distillation–sorption system

    2019 - Chemosphere

    In-text: (Ryu et al., 2019)

    Your Bibliography: Ryu, S., Naidu, G., Hasan Johir, M., Choi, Y., Jeong, S. and Vigneswaran, S., 2019. Acid mine drainage treatment by integrated submerged membrane distillation–sorption system. Chemosphere, [online] 218, pp.955-965. Available at: <https://doi.org/10.1016/j.chemosphere.2018.11.153> [Accessed 14 November 2021].

  • Journal

    Skousen, J., Zipper, C. E., Rose, A., Ziemkiewicz, P. F., Nairn, R., McDonald, L. M. and Kleinmann, R. L.

    Review of Passive Systems for Acid Mine Drainage Treatment

    2016 - Mine Water and the Environment

    In-text: (Skousen et al., 2016)

    Your Bibliography: Skousen, J., Zipper, C., Rose, A., Ziemkiewicz, P., Nairn, R., McDonald, L. and Kleinmann, R., 2016. Review of Passive Systems for Acid Mine Drainage Treatment. Mine Water and the Environment, [online] 36(1), pp.133-153. Available at: <https://doi.org/10.1007/s10230-016-0417-1> [Accessed 14 November 2021].

  • Journal

    Tao, X., Wu, P., Tang, C., Liu, H. and Sun, J.

    Effect of acid mine drainage on a karst basin: a case study on the high-As coal mining area in Guizhou province, China

    2011 - Environmental Earth Sciences

    In-text: (Tao et al., 2011)

    Your Bibliography: Tao, X., Wu, P., Tang, C., Liu, H. and Sun, J., 2011. Effect of acid mine drainage on a karst basin: a case study on the high-As coal mining area in Guizhou province, China. Environmental Earth Sciences, [online] 65(3), pp.631-638. Available at: <https://doi.org/10.1007/s12665-011-1110-0> [Accessed 9 November 2021].

  • Journal

    Villegas-Plazas, M., Sanabria, J. and Junca, H.

    A composite taxonomical and functional framework of microbiomes under acid mine drainage bioremediation systems

    2019 - Journal of Environmental Management

    In-text: (Villegas-Plazas, Sanabria and Junca, 2019)

    Your Bibliography: Villegas-Plazas, M., Sanabria, J. and Junca, H., 2019. A composite taxonomical and functional framework of microbiomes under acid mine drainage bioremediation systems. Journal of Environmental Management, [online] 251, p.109581. Available at: <https://doi.org/10.1016/j.jenvman.2019.109581> [Accessed 15 November 2021].

  • Journal

    Vital, B., Bartacek, J., Ortega-Bravo, J. and Jeison, D.

    Treatment of acid mine drainage by forward osmosis: Heavy metal rejection and reverse flux of draw solution constituents

    2018 - Chemical Engineering Journal

    In-text: (Vital, Bartacek, Ortega-Bravo and Jeison, 2018)

    Your Bibliography: Vital, B., Bartacek, J., Ortega-Bravo, J. and Jeison, D., 2018. Treatment of acid mine drainage by forward osmosis: Heavy metal rejection and reverse flux of draw solution constituents. Chemical Engineering Journal, [online] 332, pp.85-91. Available at: <https://doi.org/10.1016/j.cej.2017.09.034> [Accessed 14 November 2021].

  • Journal

    Wilkin, R. T. and McNeil, M. S.

    Laboratory evaluation of zero-valent iron to treat water impacted by acid mine drainage

    2003 - Chemosphere

    In-text: (Wilkin and McNeil, 2003)

    Your Bibliography: Wilkin, R. and McNeil, M., 2003. Laboratory evaluation of zero-valent iron to treat water impacted by acid mine drainage. Chemosphere, [online] 53(7), pp.715-725. Available at: <https://doi.org/10.1016/S0045-6535(03)00512-5> [Accessed 14 November 2021].

  • Journal

    Zhang, X., Tang, S., Wang, M., Sun, W., Xie, Y., Peng, H., Zhong, A., Liu, H., Zhang, X., Yu, H., Giesy, J. P. and Hecker, M.

    Acid mine drainage affects the diversity and metal resistance gene profile of sediment bacterial community along a river

    2019 - Chemosphere

    In-text: (Zhang et al., 2019)

    Your Bibliography: Zhang, X., Tang, S., Wang, M., Sun, W., Xie, Y., Peng, H., Zhong, A., Liu, H., Zhang, X., Yu, H., Giesy, J. and Hecker, M., 2019. Acid mine drainage affects the diversity and metal resistance gene profile of sediment bacterial community along a river. Chemosphere, [online] 217, pp.790-799. Available at: <https://doi.org/10.1016/j.chemosphere.2018.10.210> [Accessed 9 November 2021].

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