[1] Hallberg R O,Granhagen J R,Liljemark A. A fly ash/biosludge dry cover for the mitigation of AMD at the falun mine [J]. Chemie der Erde,2005,S1(65): 43-63.
[2] Pan Ke,Li Zhengshan. The treatmen to facid mine drainage and its developmental trends [J]. Sichuan Environment,2007,26(5): 83-96.[潘科,李正山.矿山酸性废水治理技术及其发展趋势[J]. 四川环境,2007,26(5): 83-96.]
[3] Ma Yao,Hu Baoqun,Sun Zhanxue. The summary of studies on the acid mine drainage treatment [J]. Mining Engineering,2006,4(3): 55-57.[马尧,胡宝群,孙占学. 矿山酸性废水治理的研究综述[J]. 矿业工程,2006,4(3): 55-57.]
[4] Nieto J M,Sarmiento A M,Olías M,et al. Acid mine drainage pollution in the Tinto and Odiel rivers(Iberian Pyrite Belt,SW Spain) and bioavailability of the transported metals to the Huelva Estuary [J]. Environment International,2007,33: 445-455.
[5] Wang Juntao,Xie Juan,Zhang Yiqian. Effect of waste rock eluviation on water environment [J]. Journal of Earth Sciences and Environment,2006,28(4):92-96. [王俊桃,谢娟,张益谦.矿山废石淋溶对水环境的影响[J].地球科学与环境学报,2006,28(4):92-96.]
[6] Akcil A,Koldas S. Acid Mine Drainage(AMD): Causes,treatment and case studies [J]. Journal of Cleaner Production,2006,14: 1 139-1 145.
[7] Johnson D B,Hallberg K B. Acid mine drainage remediation options: A review [J]. Science of the Total Environment,2005,338: 3-14.
[8] Evangelou V P. Pyrite chemistry: the key for abatement of acid mine drainage [C]∥Geller A,Klapper H,Salomons W,editors. Acidic Mining Lakes: Acid Mine Drainage,Limnology and Reclamation. Berlin: Springer,1998:197-222.
[9] Moreno L,Neretnieks I. Long-term environmental impact of tailings deposits chemical engineering and technology [J]. Hydrometallurgy,2006,83:176-183.
[10] Wu Yiqian,Zhan Youhong. AMD control from source and water sewage separation project in Yangtaowu,Zhujia waste rock yards and open pit of Dexing copper mine [J]. Nonferrous Metals,2005,57(4):101-109. [吴义千,占幼鸿.矿山酸性废水源头控制与德兴铜矿杨桃坞、祝家废石场和露天采场清污分流工程[J].有色金属,2005,57(4):101-109.]
[11] Coulton R,Bullen C,Hallet C. The design and optimization of active mine water treatment plants [J]. Land Contamination & Resources Lamation,2003,11: 273-279.
[12] Aube B C,Payant S. The Geco process: A new high density sludge treatment for acid mine drainage [C]∥Proceedings of the Fourth International Conference on Acid Rock Drainage. Vancouver,BC,1997,I:165-180.
[13] Coulton R,Bullen C,Dolan J,et al. Wheal Jane mine water active treatment plant-design,construction and operation [J]. Land Contam Reclam,2003,11: 245-252.
[14] Kleinmann R L P,Hedin R S,Nairn R W. Treatment of mine drainage by anoxic limestone drains and constructed wetlands [C]∥Geller A,Klapper H,Salomons W,eds. Acidic Mining Lakes: Acid Mine Drainage,Limnology and Reclamation. Berlin: Springer,1998:303-319.
[15] Evangelou VP. Pyrite chemistry: The key for abatement of acid mine drainage [C]∥Geller A,Klapper H,Salomons W,editors. Acidic Mining Lakes: Acid Mine Drainage,Limnology and Reclamation. Berlin:Springer,1998:197-222.
[16] Bosecker K. Bioleaching: metal solubilization by microorganisms [J]. FEMS Microbiology Reviews,1997,20:591-604.
[17] Kelly D P,Wood A P. Reclassification of some species of Thiobacillus to the newly designated genera Acidothiobacillus gen. nov.,Halothiobacillus gen. nov. and Thermithiobacillus gen. nov [J]. International Journal of Systematic and Evolutionary Microbiology,2000,50:511-516.
[18] Johnson D B,Hallberg K B. Pitfalls of passive mine water treatment [J]. Reviews Environmental Science and Biotechnology,2002,1:335-343.
[19] Battaglia-Brunet F,Dictor M C,Garrido F,et al. An arsenic(III)-oxidizing bacterial population: Selection,characterization,and performance in reactors [J]. Journal of Applued Microbiology,2002,93:656-667.
[20] Younger P L,Jayaweera A,Elliot A,et al. Passive treatment of acidic mine waters in subsurfaceflow systems: Exploring RAPS and permeable reactive barriers [J]. Land Contamination & RecLamation,2003,11:127-135.
[21] Kalin M,Cairns J,McCready R,Ecological engineering methods for acid-mine drainage treatment of coal wastes [J]. Resources Conservation and Recycling,1991,5: 265-275.
[22] Kalin M,Caetano Chaves W L. Acid reduction using microbiology(ARUM) treating AMD effluent emerging from an abandoned mine portal [C]∥Ciminelli VST,Garcia Jr O,eds. Biohydrometallurgy: Fundamentals,Technology and Sustainable Development,vol. 11B. Amsterdam: Elsevier,2001:289-296.
[22] Benner S G,Blowes D W,Ptacek C J.A full-scale porous reactive wall for prevention of acid mine drainage [J]. Ground Water Monitoring and Remediation,1997,17: 99-107.
[22] Long Z E,Huang Y H,Cai Z L,et al. Biooxidation of ferrous iron by immobilized Acidithiobacillus ferrooxidans in poly(vinyl alcohol) cryogel carriers [J]. Biotechnology Letters, 2003,25: 245-249.
[23] Hallberg K B,Johnson D B. Biodiversity of acidophilic microorganisms [J]. Advances in Applied Microbiology,2001,49: 37-84.
[24] Johnson D B. Biological removal of sulfurous compounds from inorganic wastewaters [C]∥Lens P,Hulshoff Pol L,editors. Environmental Technologies to Treat Sulfur Pollution: Principles and Engineering. London International Association on Water Quality,2000:175-206.
[25] Boonstra J,van Lier R,Janssen G,et al. Biological treatment of acid mine drainage [C]∥Amils R,Ballester A,editors. Biohydrometallurgy and the Environment Toward the Mining of the 21st Century,vol. 9B.Amsterdam: Elsevier,1999:559-567.
[26] Rowley M,Warkentin D D,Sicotte V.Site demonstration of the biosulfide process at the former Britannia mine [C]∥Proceedings of the Fourth International Conference on Acid Rock Drainage.Vancouver,BC,IV,1997:1 531-1 548.
[27] Kalin M,Caetano Chaves W L. Acid reduction using microbiology: Treating AMD effluent emerging from an abandoned mine portal [J]. Hydrometallurgy,2003,71: 217-225.
[28] Whitehead P G,Prior H. Bioremediation of acid mine drainage: an introduction to the Wheal Jane wetlands project [J]. Science of the Total Environment,2005,338: 15-21.
[29] Cánovas C R,Olías M,Nieto J M,et al. Hydrogeochemical characteristics of the Tinto and Odiel rivers(SW Spain) Factors controlling metal contents [J]. Science of the Total Environment,2007,373: 363-382.
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