Christian’s PDF files

Last modified: 2025-12-09 00:58

A.N. (1918): Seltene Erden. – Kohle und Erz, 15(1/2):7–10.
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Aalto, J.-M., Kankkunen, J. & Vepsäläinen, J. (2017): Sulfate Removal from Water Streams Down to ppm Level by Using Recyclable Biopolymer. Paper presented at the IMWA 2017 – Mine Water & Circular Economy, Lappeenranta. – p. 1356–1361; (Lappeenranta University of Technology).
Aarnes, I., Svensen, H., Polteau, S. & Planke, S. (2011): Contact metamorphic devolatilization of shales in the Karoo Basin, South Africa, and the effects of multiple sill intrusions. – Chem. Geol., 281(3-4):181–194, doi:10.1016/j.chemgeo.2010.12.007.
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Abanades, J. C. (2002): The maximum capture efficiency of CO2 using a carbonation/calcination cycle of CaO/CaCO3. – Chem. Eng. J., 90(3):303–306.
Abanades, J. C. & Alvarez, D. (2003): Conversion limits in the reaction of CO2 with lime. – Energy Fuels, 17(2):308–315.
Abanades, J. C., Anthony, E. J., Lu, D. Y., Salvador, C. & Alvarez, D. (2004): Capture of CO2 from combustion gases in a fluidized bed of CaO. – AIChE Journal, 50(7):1614–1622, 9 Abb.; doi:10.1002/aic.10132.
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Abbiw, E. & Kruse Daniels, N. A. (2024): Sorption of metals from low-iron acid mine drainage using agricultural waste materials. Paper presented at the West Virginia Mine Drainage Task Force Symposium & 15th International Mine Water Association Congress, Morgantown, WV, USA. – p. 1–2; Morgantown (International Mine Water Association).
Abdallah, W., Buckley, J. S., Carnegie, A., Edwards, J., Herold, B., Fordham, E., Graue, A., Habashy, T., Seleznev, N., Signer, C., Hussain, H., Montaron, B. & Ziauddin, M. (2007): Fundamentals of Wettability. – Oilfield Review:44–61, 24 Abb.
Abdel Wahed, M. S. M., Mohamed, E. A., Wolkersdorfer, Ch., El-Sayed, M. I., M’nif, A. & Sillanpää, M. (2014): Water Quality of Fayoum Surface Water, Fayoum Province, Egypt. Paper presented at the Deltas in Times of Climate Change II, Rotterdam, 24–26 Sept. 2014. –.
Abdel Wahed, M. S. M., Mohamed, E. A., Wolkersdorfer, Ch., El-Sayed, M. I., M’nif, A. & Sillanpää, M. (2015): Assessment of water quality in surface waters of the Fayoum watershed, Egypt. – Environ. Earth Sci., 74(2):1765–1783, 9 Abb., 3 Tab.; doi:10.1007/s12665-015-4186-0.
Abdelaziz, R., Pearson, A. J. & Merkel, B. J. (2013): Lattice Boltzmann modeling for tracer test analysis in a fractured Gneiss aquifer. – Nat. Sci., 5(3):368–374, doi:10.4236/ns.2013.53050.
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Abed, A. M., Sadaqah, R. & Kuisi, M. A. (2008): Uranium and Potentially Toxic Metals During the Mining, Beneficiation, and Processing of Phosphorite and their Effects on Ground Water in Jordan. – Mine Water Environ., 27(3):171–182, 5 Abb., 5 Tab.; doi:10.1007/s10230-008-0039-3.
Abegunde, O. A. (2015): Geologic and geological assessment of Acid Mine Drainage and heavy metals contamination in the West Rand, Witwatersrand Basin, South Africa. – 182 p., University of the Western Cape, 39 Abb., 15 Tab., 6 Anl.
Abel, A., Werner, F. & Luckner, L. (1998): Tailing Erosion as Water Quality Forming Factor in Lake Systems arising from abandoned Open Cast Lignite Mines: Mine Water and Environmental Impacts 2. – 311–322 p., 7 Abb., 7 Tab.; Johannesburg (Proceedings International Mine Water Association Symposium).
Abele, G. (1964): Die Bergsturzlandschaft am Fernpaß. – Jb. Dtsch. Alpenver., 89:40–49, 2 Abb., 2 Taf.
Abele, G. (1964): Die Fernpaßtalung und ihre morphologischen Probleme. – Tübinger Geograph. Stud., 12:1–123, 7 Abb., 4 Bilder, 3 Tab., 1 Faltkarte.
Abele, G. (1969): Vom Eis geformte Bergsturzlandschaften – Zur Frage der glazialen Umgestaltung der Bergstürze von Sierre, Flims, Ems und vom Fernpaß. – Z. Geomorph. N.F. Suppl., 8:119–147, 11 Abb.
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Abele, G. (1994): Large Rockslides – Their Causes and Movement on Internal Sliding Planes. – Mt. Res. Dev., 14(4):315–320, 6 Abb.
Abele, G. (1997): Rockslide movement supported by the mobilization of groundwater-saturated valley floor sediments. – Z. Geomorph., 41(1):1–20.
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Abella Lopes, F., dos Santos Menezes, J. C. S. & Schneider, I. A. H. (2011): Acid mine drainage as source of iron for the treatment of sewage by coagulation and Fenton’s Reaction: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – 237–240 p., Aachen (RWTH Aachen University).
Åberg, S. C., Åberg, A. K., Korkka-Niemi, K. & Salonen, V.-P. (2017): Hydrostratigraphy and 3D Modelling of a Bank Storage Affected Aquifer in a Mineral Exploration Area in Sodankylä, Northern Finland. – In: Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A. (eds): IMWA 2017 – Mine Water & Circular Economy I. – p. 237–243, Lappeenranta (Lappeenranta University of Technology).
Åberg, S. C., Korkka-Niemi, K. & Salonen, V.-P. (2016): Bank storage affected aquifer along the river Kitinen in Sodankylä, Northern Finland (Abstract). Paper presented at the 32nd Nordic Geological Winter Meeting, Helsinki, 13th–15th January 2016. – p. 81; (Geological Society of Finland).
Abeywickrama, J., Karimi, K., Grimmer, M., Hoth, N. & Drebenstedt, C. (2024): Resource Recovery from Abandoned Mine Drainage Galleries via Ion Exchange: A Case Study from Freiberg Mining Area, Germany. – Recycling, 9(6):105, doi:10.3390/recycling9060105.
Abeywickrama, J. T. & Hoth, N. (2025): Zinc Recovery from Abandoned Mine Drainage: Insights from the Freiberg Mining Region, Germany. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 956–962; Braga (International Mine Water Association).
Abfertiawan, M. S., Hasan, F., Handajani, M., Syafila, M., Gunawan, F. & Djali, F. (2023): High Total Suspended Solid (TSS) Removal for Coal Mining Water Using Electrocoagulation. Paper presented at the IMWA 2023 – Y Dyfodol | The Future, Newport, Wales, UK. – p. 1–5; (International Mine Water Association).
Abfertiawan, M. S., Hasan, F., Meutia, R. R. & Al Fadhli, R. (2025): Settling Characteristics and Treatment Strategies for Open-Cast Coal Mine Water in South Sumatra, Indonesia. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 426–432; Braga (International Mine Water Association).
Abfertiawan, M. S., Jati, W. S., Syafila, M. & Handajani, M. (2025): Physicochemical Characterization of Nickel Mine Wastewater in South Sulawesi, Indonesia: Seasonal Variations and Treatment Potential. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 125–131; Braga (International Mine Water Association).
Abfertiawan, M. S., Syafila, M., Handajani, M., Hasan, F., Oktaviani, H., Gunawan, F. & Djali, D. F. (2024): Batch Electrocoagulation Process for the Removal of High Colloidal Clay from Open-Cast Coal Mine Water Using Al and Fe Electrodes. – Mine Water Environ., 43(3):516–528, doi:10.1007/s10230-024-01004-1.
Abfertiawan, S. & Gautama, R. S. (2011): Development of Catchment Area Approach in Management of Acid Mine Drainage: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – 241–246 p., Aachen (RWTH Aachen University).
Abis, K. L. & Mara, D. D. (2004): The Performance of pilot-scale primary-facultative Waste-Stabilisation Ponds in the UK. – Water Environ. J., 18(2):107–111, 3 Abb., 6 Tab.
Abiye, T. A., Mengistu, H., Masindi, K. & Demlie, M. (2015): Surface Water and Groundwater Interaction in the Upper Crocodile River Basin, Johannesburg, South Africa: Environmental Isotope Approach. – S. Afr. J. Geol., 118(2):109–118, doi:10.2113/gssajg.118.2.109.
Abraham, A., Baraniak, L. & Bernhard, G. (2004): Bog ground aquifer system as a natural analogue for future redox conditions in flooded underground mines. – J. Radioanal. Nucl. Chem., 261(3):597–604, doi:10.1023/b:jrnc.0000037101.94952.59.
Abraham, D. A., Jin, F., Okeme, I. & Sapsford, D. (2022): Detection And Measurement Of Dissolved Metals In Mine Water Using Cation-Binding Resins And Field Portable XRF. Paper presented at the IMWA 2022 – Reconnect, Christchurch, New Zealand. – p. 1–6; (International Mine Water Association).
Abrahams, J. L. R. & Carranza, E. J. M. (2024): Geochemical Characterization of an AMD-Affected Stream: Detection of Associated Trace Metal Contamination Using Element ‘Dilution Factors’. – Mine Water Environ., 43(2):368–381, doi:10.1007/s10230-024-00982-6.
Abrahams, J.-L. R. & Carranza, E. J. M. (2025): Prediction and mapping of Pb content in overbank sediments affected by coal-mining using airborne hyperspectral imaging. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 260–265; Braga (International Mine Water Association).
Abrahams, J.-L. R., Okujeni, C. D., Abegunde, O. A., Wu, C. & Williams, A. S. (2025): Geochemical controls of potentially toxic element (PTE) release from the Gold One Tailings Dam Complex into the Randfontein area, Witwatersrand, South Africa. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 182–188; Braga (International Mine Water Association).
Abrajano, T. A. J. & Lollar, B. S. (1999): Compound-specific isotope analysis: tracing organic contaminant sources and processes in geochemical systems (Introductory Note). – Org. Geochem., 30(8A):v–vii, doi:10.1016/S0146-6380(99)00055-8.
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Abreu, C. B., Fleming, P. M., Ciminelli, V. S. T., Lopez, D. L., Branco, O. E. A. & Rodrigues, P. C. H. (2011): Soil gas compositions as a tool for understanding acid mine drainage formation and air flow in a uranium waste rock pil: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – 247–252 p., Aachen (RWTH Aachen University).
Abreu, C. B. d., Werle, M., Mortatti, B., Marteleto, T. d. P., Albuquerque, R., Santos, P. V. S., Machado, D. A., Costa, E. & Lange, L. (2025): Tailings Management in Iron Ore Mining: A Comprehensive Hydrogeochemical Modeling Protocol for Dry Stacking. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 403–408; Braga (International Mine Water Association).
Abreu, C. d., Fleming, P., López, D., Ciminelli, V. & Mansur, M. (2015): Environmental Assessment for the Decommissioning of a Uranium Waste Rock Pile. – In: Brown, A., et al. (eds): Agreeing on solutions for more sustainable mine water management. – p. 1–8 [electronic document], Santiago/Chile (Gecamin).
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Abu Qdais, H., Begday, I. V., Katorgin, I. Y., Shkarlet, K. Y., Kharin, K. V., Bluzhina, A. S. & Likhovid, A. A. (2018): Assessment of Metals Pollution from Tailing Sites in the North Caucuses Region, Russia. – Mine Water Environ., 37(4):815–824, doi:10.1007/s10230-018-0545-x.
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Acero, P., Ayora, C., Cama, J. & Carrera, J. (2007): Weathering of pyritic Tailings in unsaturated Columns: experimental and reactive Transport Modeling: Water in Mining Environments. – 369–372 p., 3 Abb.; Cagliari (Mako Edizioni).
Acero, P., Torrentó, C. & Ayora, C. (2005): Effect of schwertmannite ageing on Acid Rock Drainage geochemistry: Mine Water 2005 – Mine Closure. – 67–73 p., 4 Abb., 2 Tab.; Oviedo (University of Oviedo).
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Adam, M. (2020): Alterzbergbau in Hessen – Bergbaufolgelandschaften und Stoffausträge. Paper presented at the Altlasten – annual 2019, Wiesbaden, 2018. – p. 11–15; Wiesbaden (Hessisches Landesamt für Naturschutz, Umwelt und Geologie).
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Adamczyk, Z., Motyka, J. & Witkowski, A. J. (2000): Impact of Zn-Pb ore mining on groundwater quality in the Olkusz region. – Proceedings, 7th International Mine Water Association Congress:27–37, 6 Abb.
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Adams, J. & Roberts, R. (2012): Advances in hydrogeologic testing of mineral exploration boreholes: International Mine Water Association Symposium. – 357–364 p., Bunbury (Edith Cowan University).
Adams, M. C. (2000): The Stability of the Vapor-Phase Tracer R-134a: Federal Geothermal Research Program Update – Fiscal Year 1999 DOE/ID-10743. – 3_137–3_141 p., 1 Abb., 1 Tab.; Washington (U.S. Dep. Energy).
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Adams, N., Carroll, D., Madalinski, K., Rock, S., Wilson, T., Pivetz, B., Anderson, T., Chappell, J., Huling, S., Palmiotti, J. & Sayre, P. (2000): Introduction to Phytoremediation: EPA-600/R-99/107. – 72 p., 13 Abb., 17 Tab.; Cincinnati (U.S. Environmental Protection Agency).
Adams, R. (2014): A Review of Mine Water Rebound Predictions from the VSS–NET Model. – Mine Water Environ., 33(4):384–388, doi:10.1007/s10230-014-0312-6.
Adams, R., Ahlfeld, D. & Sengupta, A. (2007): Investigating the Potential for Ongoing Pollution from an Abandoned Pyrite Mine. – Mine Water Environ., 26(1):2–13, 4 Abb., 6 Tab.; doi:10.1007/s10230-007-0144-8.
Adams, R. & Younger, P. L. (1997): Simulation of Groundwater Rebound in Abandoned Mines Using a Physically based Modelling Approach. Paper presented at the Proceedings, 6th International Mine Water Association Congress, Bled, Slovenia. – p. 353–362, 4 Abb.
Adams, R. & Younger, P. L. (2000): Simulating groundwater rebound in a recently-closed tin min. – Proceedings, 7th International Mine Water Association Congress:218–228, 4 Abb., 2 Tab.
Adams, R. & Younger, P. L. (2001): A Strategy for Modeling Ground Water Rebound in Abandoned Deep Mine Systems. – Ground Water, 39(2):249–261, 10 Abb.; doi:10.1111/j.1745-6584.2001.tb02306.x.
Adams, R. & Younger, P. L. (2002): A physically based model of rebound in South Crofty tin mine, Cornwall. – Spec. Publ. – Geol. Soc. London, 198:89–97, 6 Abb., 2 Tab.; doi:10.1144/GSL.SP.2002.198.01.06.
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Adeniyi, A., Maree, J., Mbaya, R. & Popoola, P. (2013): HybridICE™ filter design in freeze desalination of mine water. – In: Brown, A., Figueroa, L. & Wolkersdorfer, Ch. (eds): Reliable Mine Water Technology. – p. 507–512, 8 Abb.; Golden (International Mine Water Association).
Adeniyi, A., Mbaya, R., Onyango, M. S., Popoola, P., Brooms, T. & Olubiyi, O. (2017): Performance Evaluation of Membrane Technology for Removal of Micropollutants in Hartbeespoort Dam South Africa. – In: Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A. (eds): IMWA 2017 – Mine Water & Circular Economy II. – p. 1048–1054, Lappeenranta (Lappeenranta University of Technology).
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Johnson, R. H., Paradis, C. J., Kent, R. D., Tigar, A. D. & Reimus, P. W. (2023): Single-Well Push–Pull Tracer Test Analyses to Determine Aquifer Reactive Transport Parameters at a Former Uranium Mill Site Grand Junction Colorado. – Minerals, 13(228):1–26, 9 Abb., 4 Tab.; doi:10.3390/min13020228.
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Johnson, R. H., Truax, R. A., Lankford, D. A. & Stone, J. J. (2016): Sorption Testing and Generalized Composite Surface Complexation Models for Determining Uranium Sorption Parameters at a Proposed In-situ Recovery Site. – Mine Water Environ., 35(4):435–446, doi:10.1007/s10230-016-0384-6.
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Johnson, R. H. & Tutu, H. (2016): Predictive Reactive Transport Modeling at a Proposed Uranium In Situ Recovery Site with a General Data Collection Guide. – Mine Water Environ., 35(3):369–380, doi:10.1007/s10230-015-0376-y.
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Moon, J. Y., Kim, Y. B., Lee, S. I., Song, H., Choi, K. & Jeong, G. H. (2006): Distribution characteristics of polychlorinated biphenyls in crucian carp (Carassius auratus) from major rivers in Korea. – Chemosphere, 62:430–439, doi:10.1016/j.chemosphere.2005.04.063.
Moore, C. & Doherty, J. (2006): The cost of uniqueness in groundwater model calibration. – Adv. Water Resour., 29(4):605–623, doi:10.1016/j.advwatres.2005.07.003.
Moore, F. & Aghazadeh, A. A. (2012): Trace Metal Occurrence and Mobility Assessment in Stream Sediments near the Sungun Porphyry Copper Deposit in Northwest Iran. – Mine Water Environ., 31(1):29–39, 5 Abb., 4 Tab.; doi:10.1007/s10230-012-0171-y.
Moore, J. N., Adams, M. C. & Bloomfield, K. K. (2000): Geochemical Monitoring and Tracer Testing at the Cove Fort-Sulphurdale Geothermal System, Utah: Federal Geothermal Research Program Update – Fiscal Year 1999 DOE/ID-10743. – 3_97–3_102 p., 3 Abb.; Washington (U.S. Dep. Energy).
Moore, J. N. & Luoma, S. N. (1990): Hazardous wastes from large-scale metal extraction – A case study. – Environ. Sci. Technol., 24(9):1278–1285, 4 Abb., 1 Tab.; doi:10.1021/es00079a001.
Moore, L. R., Durand, J. R. & Strickland, F. (2013): Copper Removal from Mine Effluents: From Lab to Field Evaluations. – Mine Water Environ., 32(3):239–246, 11 Abb., 2 Tab.; doi:10.1007/s10230-013-0227-7.
Moore, L. R., Durand, J. R. & Strickland, F. (2013): Metals Removal from Mine Effluents – Understanding the Chelant is Key. – In: Brown, A., Figueroa, L. & Wolkersdorfer, Ch. (eds): Reliable Mine Water Technology. – p. 661–666, 7 Abb., 3 Tab.; Golden (International Mine Water Association).
Moore, R. D. (2003): Introduction to Salt Dilution Gauging for Streamflow Measurement: Part 1. – Streamline Watershed Manage. Bull., 7(4):20–23, 2 Abb., 3 Tab.
Moore, R. D. (2004): Introduction to Salt Dilution Gauging for Streamflow Measurement Part 2: Constant-rate Injection. – Streamline Watershed Manage. Bull., 8(1):11–15, 1 Abb., 2 Tab.
Moore, R. D. (2005): Introduction to Salt Dilution Gauging for Streamflow Measurement Part 3: Slug Injection Using Salt in Solution. – Streamline Watershed Manage. Bull., 8(2):1–6, 1 Abb., 2 Tab.
Moore, T. J., Johnson, B. S., Riese, A. C., Lewis-Russ, A. & Jonas, J. P. (2022): Passive Treatment of Circumneutral Mine Drainage from the St. Louis Mine Tunnel, Rico, CO: Part 1—Case Study: Characteristics of the Mine Drainage. – Mine Water Environ., 41(4):851–870, doi:10.1007/s10230-022-00904-4.
Moore, W. S. (1999): The subterranean estuary: A reaction zone of ground water and sea water. – Marine Chemistry, 65(1-2):111–125.
Moorhouse, A. M. L., Harris, R., Wyatt, L., Hill, S. & Potter, H. (2015): Up-Scaling from Trial to Operation – Practicalities of Construction and Permitting, Force Crag Mine. – In: Brown, A., et al. (eds): Agreeing on solutions for more sustainable mine water management. – p. 1–11 [electronic document], Santiago/Chile (Gecamin).
Moorhouse, A. M. L., Wyatt, L. M., Watson, I. A. & Hill, S. (2013): A high surface area media treatment trial of a circum-neutral, net alkaline coal mine discharge in the South Derbyshire Coal Field (UK) using hydrous ferric oxide. – In: Brown, A., Figueroa, L. & Wolkersdorfer, Ch. (eds): Reliable Mine Water Technology. – p. 667–672, 3 Abb., 1 Tab.; Golden (International Mine Water Association).
Moorhouse-Parry, A. M. L. & Satterley, C. J. (2023): Assessment of Manganese Removal in Passive Systems Based on Operational Data and Experience of Treating Net-alkaline Coal Mine Waters in the UK. Paper presented at the IMWA 2023 – Y Dyfodol | The Future, Newport, Wales, UK. – p. 351–357; (International Mine Water Association).
Moorhouse-Parry, A. M. L., Smithson, S. & Satterley, C. J. (2023): Holistic Approach to Reed Bed Management on UK Coal Mine Water Treatment Schemes. Paper presented at the IMWA 2023 – Y Dyfodol | The Future, Newport, Wales, UK. – p. 358–364; (International Mine Water Association).
Mooruth, N. (2011): Passive Treatment of Acid Mine Drainage via a Linear Flow Channel Reactor utilising a Floating Sulphur Biofilm: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – 411–416 p., Aachen (RWTH Aachen University).
Mooruth, N. & Hille, R. P. V. (2012): Optimisation of a floating sulphur biofilm reactor in a passive acid Mine drainage treatment system: International Mine Water Association Symposium. – 723 p., Bunbury (Edith Cowan University).
Moradzadeh, A., Amirkhani, F., Doulati Ardejani, F. & Arab-Amiri, A. R. (2011): Investigation of contaminated plumes caused by pyrite oxidation from a coal refuse pile at the Alborz Sharghi coal washing plant using VLF geophysical method: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – 417–422 p., Aachen (RWTH Aachen University).
Moradzadeh, A., Ardejani, F. D. & Pisheh, S. F. (2008): An Investigation on the Environmental Effects of Sulphide Mines Using Geophysical Studies. – Proceedings, 10th International Mine Water Association Congress:379–382.
Moradzadeh, A., Ardejani, F. D., Shokri, B. J. & Sarkheil, H. (2007): A Method for Coal Waste Disposal Site Selection for Prevention of Environmental Impacts: Water in Mining Environments. – 239–242 p., 3 Abb., 1 Tab.; Cagliari (Mako Edizioni).
Moraleda-Cibrián, N., Carrassón, M. & Rosell-Melé, A. (2015): Polycyclic aromatic hydrocarbons, polychlorinated biphenyls and organochlorine pesticides in European hake (Merluccius merluccius) muscle from the Western Mediterranean Sea. – Mar. Pollut. Bull., 95(1):513–519, doi:10.1016/j.marpolbul.2015.02.041.
Morales, P., Roscales, J. L., Muñoz-Arnanz, J., Barbosa, A. & Jiménez, B. (2022): Evaluation of PCDD/Fs, PCBs and PBDEs in two penguin species from Antarctica. – Chemosphere, 286:131871, doi:10.1016/j.chemosphere.2021.131871.
Moran, A. P., Ivy-Ochs, S., Vockenhuber, C. & Kerschner, H. (2016): First 36Cl exposure ages from a moraine in the Northern Calcareous Alps. – Quat. Sci. J., 65(2):145–155, 5 Abb., 4 Tab.; doi:10.3285/eg.65.2.03.
Moran, C. & Moore, A. (2005): Salinity and experience constraints to water reuse in coal mining: Mine Water 2005 – Mine Closure. – 489–496 p., 6 Abb.; Oviedo (University of Oviedo).
Moran, C. J., Barrett, D. & Côte, C. M. (2009): A Statistical Analytical Method to Assess the Potential for Worked Water Sharing between Mines. – In: Water Institute of Southern Africa & International Mine Water Association (eds): Proceedings, International Mine Water Conference. – p. 256–261, 1 Abb., 2 Tab; Pretoria (Document Transformation Technologies).
Moran, C. J., Lodhia, S., Kunz, N. C. & Huisingh, D. (2014): Sustainability in mining, minerals and energy: new processes, pathways and human interactions for a cautiously optimistic future. – J. Clean. Prod., 84:1–15, doi:10.1016/j.jclepro.2014.09.016.
Moran, P., Ross, J., Way, R. & Williams, R. (2021): Investigating Subvertical Dewatering Well Potential At An Open Pit Mine. Paper presented at the Mine Water Management for Future Generations, Cardiff, Wales, United Kingdom. – p. 651–656; (Natural Resources Wales, The Coal Authority, Welsh Government, Cardiff University).
Morasch, B., Richnow, H. H., Vieth, A., Schink, B. & Meckenstock, R. U. (2004): Stable isotope fractionation caused by glycyl radical enzymes during bacterial degradation of aromatic compounds. – Appl. Environ. Microbiol., 70(5):2935–40, doi:10.1128/aem.70.5.2935-2940.2004.
Moravec, J. (1987): Realation between the hydrogeological Regime of a Spoil Bank and Chemism of Groundwaters in the North-Bohemian Brown-Coal Basin: Hydrogeology of Coal Basins. – 545–551 p., 1 Abb., 1 Tab.; Kraków (Wydawnictwo Akademii Górnico-Hutniczej).
Moravec, J. (1991): Water-bearing System in Clayey Spoil Banks. – Proceedings, 4th International Mine Water Association Congress, 1:199–205.
Morche, D. (2006): Aktuelle hydrologische Untersuchungen am Partnach-Ursprung (Wettersteingebirge), Oberbayern. – WasserWirtschaft, 1-2:53–56, 6 Abb., 2 Tab.
More, K. S. (2018): Formation of Toma Hills in the Area of the Fernpass Rockslide in Tyrol, Austria. – 69 p., Tshwane University of Technology, 36 Abb., 8 Tab.; Pretoria.
More, K. S. & Wolkersdorfer, Ch. (2019): An analogue Toma Hill formation model for the Tyrolian Fernpass rockslide. – Landslides, 16(10):1855–1870, 15 Abb., 7 Tab.; doi:10.1007/s10346-019-01211-w.
More, K. S. & Wolkersdorfer, Ch. (2019): Disruptive Technologies in Mine Water Management – The Future. Paper presented at the Mine Water – Technological and Ecological Challenges (IMWA 2019), Perm, Russia. – p. 597–601; Perm, Russia (Perm State University).
More, K. S. & Wolkersdorfer, Ch. (2021): Application of Artificial Intelligence Systems in Mine Water Management – An Introduction to two Effective Predictive Models. Paper presented at the Mine Water Management for future Generations, Wales. – p. 365–367; (International Mine Water Association).
More, K. S. & Wolkersdorfer, Ch. (2022): Predicting and Forecasting Mine Water Parameters Using a Hybrid Intelligent System. – Water Res. Manage., 7 Abb., 3 Tab.; doi:10.1007/s11269-022-03177-2.
More, K. S. & Wolkersdorfer, Ch. (2023): Application of machine learning algorithms for nonlinear system forecasting through analytics — A case study with mining influenced water data. – Water Resour. Ind., 29:100209, 17 Abb., 6 Tab.; doi:10.1016/j.wri.2023.100209.
More, K. S. & Wolkersdorfer, Ch. (2023): Exploring Advanced Statistical Data Analysis Techniques for Interpolating Missing Observations and Detecting Anomalies in Mining Influenced Water Data. – ACS ES&T Water:article 3c00163, 6 Abb., 1 Tab.; doi:10.1021/acsestwater.3c00163.
More, K. S. & Wolkersdorfer, Ch. (2023): Intelligent Mine Water Management Tools — eMetsi and Machine Learning GUI. – Mine Water Environ., 42(1):111–120, 9 Abb., 1 Tab.; doi:10.1007/s10230-023-00917-7.
More, K. S. & Wolkersdorfer, Ch. (2024): The pH paradox. – Sci. Total Environ., 946:174099, 5 Abb., 3 Tab.; doi:10.1016/j.scitotenv.2024.174099.
More, K. S., Wolkersdorfer, Ch., Kang, N. & Elmaghraby, A. S. (2020): Automated Measurement Systems in Mine Water Management and Mine Workings – A Review of Potential Methods. – Water Resour. Ind.:Article 100136, 5 Abb.; doi:10.1016/j.wri.2020.100136.
Moreira, C. A., Netto, L. G., Buchi, F. M. D., Hansen, M. A. F., Masquelin, H. & Lima, J. P. R. (2024): Using Electrical Resistivity Tomography to Understand the Hydrogeological Behavior of Acid Drainage Percolation in a Fractured Aquifer at a Uranium Mining Site. – Mine Water Environ., 43(3):431–448, doi:10.1007/s10230-024-00998-y.
Moreira, S., Boehrer, B., Schultze, M., Dietz, S. & Samper, J. (2011): Modeling Geochemically Caused Permanent Stratification in Lake Waldsee (Germany). – Aquat. Geochem., 17(3):265–280, doi:10.1007/s10498-011-9133-4.
Moreira, S., Boehrer, B., Schultze, M. & Samper, J. (2009): A Coupled Hydrodynamic-Geochemical Model of Meromictic Pit Lake Waldsee. – In: Water Institute of Southern Africa & International Mine Water Association (eds): Proceedings, International Mine Water Conference. – p. 892–897, 5 Abb; Pretoria (Document Transformation Technologies).
Moreira, S., Schultze, M., Rahn, K. & Boehrer, B. (2016): A practical approach to lake water density from electrical conductivity and temperature. – Hydrol. Earth Syst. Sci., 20(7):2975–2986, 2 Abb., 2 Tab.; doi:10.5194/hess-20-2975-2016.
Moreland, K. A. (2013): Applying the Reference Condition Approach to bioassessment of Cape Breton Island streams. – 69 p., Masters, The University of Western Ontario, 7 Abb., 8 Tab., 3 Anh.; London, ON.
Moreno C., H. A., Cocke, D. L., Gomes, J. A. G., Morkovsky, P., Parga, J. R., Peterson, E. & Garcia, C. (2009): Electrochemical Reactions for Electrocoagulation Using Iron Electrodes. – Ind. Eng. Chem. Res., 48:2275–2282, 11 Abb.; doi:10.1021/ie8013007.
Moreno C., H. A., Cocke, D. L., Gomes, J. J. A., Morkovsky, P. & Parga, J. R. (2006): Electrocoagulation – COD Removal Mechanism. – Proceedings, 2006 AiChE Annual Meeting:1–10 [electronic document], 3 Abb., 4 Tab.
Moreno, F., Valente, T. M., Gomes, P., Fonseca, R., Costa, M. R. & Costa, A. (2019): Partitioning of potentially toxic elements among two colloidal fractions and relevance for their mobility in different water types. Paper presented at the E3S Web of Conferences. – 2 Abb., 2 Tab.
Moreno, R., Olias, M., Ruiz Cánovas, C. & Macias, F. (2022): Update Of Hydrological Study And Prediction Of Flood Levels Of Acidic Pit Lakes (Tharsis) mines, Spain. Paper presented at the IMWA 2022 – Reconnect, Christchurch, New Zealand. – p. 267–272; (International Mine Water Association).
Moreno-González, R., Olias, M., Ruiz-Cánovas, C. & Macías, F. (2019): Acid mine drainage pollution at the Tharsis mines (Iberian Pyrite Belt): A Serious Environmental and Socioeconomic Problem. Paper presented at the Mine Water – Technological and Ecological Challenges (IMWA 2019), Perm, Russia. – p. 484–490; Perm, Russia (Perm State University).
Moret, G. J. M. & Rose, A. W. (2007): Resistivity Level Runs to Detect Water-filled Mine Voids between Drill Holes. – Mine Water Environ., 26(1):23–28, 6 Abb.
Moret, I., Gambaro, A., Piazza, R., Ferrari, S. & Manodori, L. (2005): Determination of polychlorobiphenyl congeners (PCBs) in the surface water of the Venice lagoon. – Mar. Pollut. Bull., 50(2):167–174, doi:10.1016/j.marpolbul.2004.10.005.
Morgan, A. (2018): Low temperature geothermal resources in abandoned mines of the Canadian Shield: A case study in the Chapais and Chibougamau area, Québec, Canada. – 128 p., Master Thesis, Reykjavík University, 43 Abb., 14 Tab., 6 Anl.; Reykjavík.
Morgan, J. N. & Sonquist, J. A. (1963): Problems in the Analysis of Survey Data, and a Proposal. – J. Am. Stat. Assoc., 58(302):415–434, 2 Abb., 1 Tab.; doi:10.2307/2283276.
Morgan, R. & Coulton, R. (2025): The importance of the Inorganic Carbon analysis in Active Mine Water Treatment. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 446–451; Braga (International Mine Water Association).
Morgan, R., Coulton, R., Kingstone, S. & Watson, N. (2024): Development of a single stage High Density Sludge (HDS) process for the reopening of South Crofty Tin Mine, Cornwall, UK. Paper presented at the West Virginia Mine Drainage Task Force Symposium & 15th International Mine Water Association Congress, Morgantown, WV, USA. – p. 452–457; Morgantown (International Mine Water Association).
Morgan, S. A., Matthews, Z. N., Morgan, P. G. & Stanley, P. (2017): Removal of Iron from Dyffryn Adda, Parys Mountain, N. Wales, UK using Sono-electrochemistry (Electrolysis with assisted Power Ultrasound). – In: Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A. (eds): IMWA 2017 – Mine Water & Circular Economy II. – p. 1228–1236, Lappeenranta (Lappeenranta University of Technology).
Morgenschweis, G. (2018): Hydrometrie – Theorie und Praxis der Durchflussmessung in offenen Gerinnen: VDI-Buch, 2nd edn. – 637 p., Berlin (Springer); doi:10.1007/978-3-662-55314-5.
Morgenstern, P., Bruggemann, L. & Wennrich, R. (2004): Validation of an X-ray Methodology with Environmental Concern. – Spectroc. Acta Pt. B-Atom. Spectr., 59(2):185–197.
Morgenstern, P., Friese, K., Wendt-Potthoff, K. & Wennrich, R. (2001): Bulk Chemistry Analysis of Sediments from Acid Mine Lakes by Means of Wavelength Dispersive X-ray Fluorescence. – Mine Water Environ., 20(3):105–113, 6 Abb., 2 Tab.; doi:10.1007/s10230-001-8091-2.
Morgenstern, U., Gellermann, R., Hebert, D., Börner, I., Stolz, W., Vaikmäe, R., Rajamäe, R. & Putnik, H. (1995): 32Si in limestone aquifers. – Chem. Geol., 120:127–134, 5 Abb., 4 Tab.
Mori, A., Alexander, W. R., Geckeis, H., Hauser, W., Schäfer, T., Eikenberg, J., Fierz, T., Degueldre, C. & Missana, T. (2003): The Colloid and Radionuclide Retardation Experiment at the Grimsel test Site: Influence of Bentonite Colloids on Radionuclide Migration in a Fractured Rock. – Colloid Surf. A-Physicochem. Eng. Asp., 217(1-3):33–47.
Mori, C., Orsini, A. & Migon, C. (1999): Impact of arsenic and antimony contamination on benthic invertebrates in a minor Corsican river. – Hydrobiologia, 392(1):73–80, 3 Abb., 4 Tab.
Móricz, F., Mádai, F. & Walder, I. (2011): Pyrite Oxidation Changes in Sulphidic Mine Wastes from the Itos Sn-Ag Deposit, Bolivia: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – 683–688 p., Aachen (RWTH Aachen University).
Morilla, A. G. & Fortier, D. H. (1978): Seepage characteristics through an abandoned tailings pile. Paper presented at the El agua en la mineria y trabajos subterraneos – Water in Mining and Underground Works – SIAMOS-78, Granada. – p. 847–862; Maracena (Asociación Nacional de lngenieros de Minas).
Morin, B., Vaute, L. & Collon, P. (2025): Deep physico-chemical profiling in a flooded mine shaft: Understanding water dynamics in Gardanne lignite mine (France). Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 383–387; Braga (International Mine Water Association).
Morin, K. A. & Hutt, N. M. (2001): Prediction of Minesite-Drainage Chemistry through Closure using operational Monitoring Data. – J. Geochem. Explor., 73(2):123–130, 5 Abb., 3 Tab.
Morin, K. A. & Hutt, N. M. (2001): Prediction of water chemistry in mine lakes: The minewall technique. – Ecol. Eng., 17(2–3):125–132, doi:10.1016/S0925-8574(00)00153-1.
Morin, K. A. & Hutt, N. M. (2004): The Minewall Approach for Estimating the Geochemical Effects of Mine Walls on Pit Lakes. Paper presented at the Pit Lakes 2004, Reno. – p. 1–19, 15 Abb.
Morin, K. A. & Hutt, N. M. (2006): Case Studies of Costs and Longevities of Alkali-Based Water-Treatment Plants for ARD. – 1333–1344 p., 6 Abb.; St. Louis (Proceedings 7th International Conference on Acid Rock Drainage (ICARD)).
Morin, K. A. & Hutt, N. M. (2009): On the Nonsense of Arguing the Superiority of an Analytical Method for Neutralization Potential. – MDAG.com Internet Case Study, 32:1–10, 1 Tab.
Morin, K. A., Hutt, N. M. & McArthur, R. (1995): Statistical Assessment of past Water Chemistry to predict Future Chemistry at Noranda Minerals’ Bell Mine. Paper presented at the Sudbury ’95 – Mining and the Environment, Sudbury. – p. 925–934, 7 Abb., 2 Tab.; Ottawa (Canmet).
Moritsch, F. (2007): AD FONTES – Wasservorkommen in der Spitzegelgruppe. – 51 p., 40 Abb.; (unveröff. Fachbereichsarbeit).
Moritsch, F. (2008): AD FONTES – Wasservorkommen in der Spitzegelgruppe. – Carinthia II, 198/118:417–434, 14 Abb.
Moritzi, A. (1842): Notice sur les collines de Coire. – Bibliothèque Universelle de Genève, Nouvelle Série:183–191.
Morlok, J. (1987): Die Geologie des westlichen Gaistals zwischen Wetterstein- und Mieminger Gebirge (Tirol, Nördliche Kalkalpen). – 128 p.; Frankfurt am Main.
Morlot, A. v. (1850): Ueber die geologischen Verhältnisse von Oberkrain. – Jb. k.-k. geol. R.-A., 1(3):389–411, 10 Abb., 2 Tab.
Moro, D. C., Weiler, J. & Schneider, I. A. H. (2021): Effects of Vegetation on Erosion in Technosols Produced from Coal Waste. Paper presented at the Mine Water Management for Future Generations, Cardiff, Wales, United Kingdom. – p. 380–385; (Natural Resources Wales, The Coal Authority, Welsh Government, Cardiff University).
Moro, K., Hoth, N., Roscher, M. & Drebenstedt, C. (2025): Characterization of Old Tailings Materials for Li-Sn Extraction and Sustainable Environmental Management: A Case Study of the Bielatal Tailings Dam, Altenberg, Eastern Ore Mountains, Saxony, Germany. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 1023–1028; Braga (International Mine Water Association).
Morrison, M. (2005): Biogeochemical interactions in a compost wetland for spoil heap leachate remediation at Quaking Houses, County Durham, UK: Mine Water 2005 – Mine Closure. – 403–409 p., 5 Abb., 1 Tab.; Oviedo (University of Oviedo).
Morrison, M. & Aplin, A. C. (2003): C-S-Fe geochemistry of a wetland constructed to treat acidic mine waters. – Land Contam. Reclam., 11(2):239–243, doi:10.2462/09670513.820.
Morrissey, A. M. (1998): Characterization of contaminant hydrogeology, French Creek, Breckenridge, Colorado. Proceedings, 5th International Conference on Tailings and Mine Waste 5. – p. 507–516, Refs: 20; illus. incl. 2 tables; Rotterdam (Balkema).
Morton, K. L. (2009): Comparison of Designs for the Dewatering of Coal, Gold and Diamond Mines in Southern Africa. – In: Water Institute of Southern Africa & International Mine Water Association (eds): Proceedings, International Mine Water Conference. – p. 277–288, 16 Abb; Pretoria (Document Transformation Technologies).
Morton, K. L. (2018): The Anatomy And Circulation Of Mine Water In Carbonatite Mines, Specifically Diamond Mines. Paper presented at the IMWA 2018 – Risk to Opportunity, Pretoria. – p. 1017–1023; (Tshwane University of Technology).
Morton, K. L. (2018): The WIN-WIN Solution To The Clean-up Of Mine Residue – An Innovative And Cost Effective Method To Reduce Acid Drainage From Mine Residue. Paper presented at the IMWA 2018 – Risk to Opportunity, Pretoria. – p. 548–552; (Tshwane University of Technology).
Morton, K. L. (2021): The Use of Accurate Pore Pressure Monitoring for Risk Reduction in Tailings Dams. – Mine Water Environ., 40(1):42–49, doi:10.1007/s10230-020-00736-0.
Morton, K. L. (2021): The Use of Mineral Exploration Drilling to Kickstart Hydrogeology Data Collection for Pre-Feasibility Mining Studies and Beyond. Paper presented at the Mine Water Management for Future Generations, Cardiff, Wales, United Kingdom. – p. 386–392; (Natural Resources Wales, The Coal Authority, Welsh Government, Cardiff University).
Morton, K. L. (2022): A Historical Perspective of Diamond Mine Dewatering Design and Guidelines for a Modern Diamond Mine. – Mine Water Environ., 41(2):557–572, doi:10.1007/s10230-022-00853-y.
Morton, K. L. (2024): A phased approach to mine dewatering – updated from IMWA 1993. Paper presented at the West Virginia Mine Drainage Task Force Symposium & 15th International Mine Water Association Congress, Morgantown, WV, USA. – p. 458–463; Morgantown (International Mine Water Association).
Morton, K. L. & Bovim, A. (2023): Advanced monitoring of Tailings Storage Facilities and dams to prevent failure. Illustrated with case studies from UK, Africa and South America. Paper presented at the IMWA 2023 – Y Dyfodol | The Future, Newport, Wales, UK. – p. 69–76; (International Mine Water Association).
Morton, K. L. & Bovim, A. (2025): Advances in integrated performance monitoring of Tailings Storage Facility. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 201–207; Braga (International Mine Water Association).
Morton, K. L. & Mekerk, F. A. v. (1993): A Phased Approach to Mine Dewatering. – Mine Water Environ., 12(1-4):27–33.
Morton, K. L., Millsteed, B. D., van Heerden, W. L., Carow, A. & Msitsini, M. (2023): Structural Logging And Modelling For Use In Simulation Of Inflows In Underground Hard Rock Mines. Paper presented at the IMWA 2023 – Y Dyfodol | The Future, Newport, Wales, UK. – p. 365–370; (International Mine Water Association).
Morton, K. L. & van Niekerk, F. A. (1994): Mine Drainage Control and Environment Protection by using Grouting Technology and the Hydrogeological Approach. – Mine Water Environ., 13(2):41–43.
Mosai, A., Chimuka, L., Cukrowska, E., Kotze, I. & Tutu, H. (2019): The Recovery Of Pd(II), Ir(III) And Rh(III) From Aqueous Solutions With Yeast-functionalised Zeolite. Paper presented at the Mine Water – Technological and Ecological Challenges (IMWA 2019), Perm, Russia. – p. 238–244; Perm, Russia (Perm State University).
Mosai, A., Richards, H. & Tutu, H. (2022): Modelling The Transport Of Pollutants From Mine Dump And Landfill Sites To Groundwater And Surface Water. Paper presented at the IMWA 2022 – Reconnect, Christchurch, New Zealand. – p. 273–279; (International Mine Water Association).
Mosai, A., Richards, H. & Tutu, H. (2024): The Transport of toxic elements from the Marie-Louise landfill site and nearby gold mine dumps to waterbodies. Paper presented at the West Virginia Mine Drainage Task Force Symposium & 15th International Mine Water Association Congress, Morgantown, WV, USA. – p. 464–470; Morgantown (International Mine Water Association).
Mosai, A. K., Kotze, I., Chimuka, L., Cukrowska, E. & Tutu, H. (2018): The Recovery Of Pt(IV) From Aqueous Solutions By APDEMS-functionalised Zeolite. Paper presented at the IMWA 2018 – Risk to Opportunity, Pretoria. – p. 1111–1116; (Tshwane University of Technology).
Mosai, A. K. & Phasha, M. (2025): Possible value recovery from abundant gold mine dumps and waterbodies in Krugersdorp, South Africa. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 120–124; Braga (International Mine Water Association).
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Rosner, P., Heitfeld, M., Maasewerd, P., Mathews, T. & Richter, H. (2019): Erdwärmegewinnung aus einem Bergbau-Schacht des Aachener Steinkohlenreviers - Ergebnisse eines Pilotprojektes. – Markscheidewesen, 126(1):46–54.
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Ross, J.-H. & Dudel, E. G. (2008): Uranium Loads and Accumulation in a Mine Water Contaminated Wetland. – Proceedings, 10th International Mine Water Association Congress:225–228.
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Schmidt, A.-C. & Mickein, K. (2012): Qualitative and quantitative characterization of the arsenic-binding behaviour of sulfur-containing peptides and proteins by the coupling of reversed phase liquid chromatography to electrospray ionization mass spectrometry. – Journal of mass spectrometry : JMS, 47(8):949–61, doi:10.1002/jms.3025.
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Schmidt, R. (2023): Life-Cycle Water Balance Modelling as a Tool for Water Management Risk Assessment to Minimise Legacy Effects. Paper presented at the IMWA 2023 – Y Dyfodol | The Future, Newport, Wales, UK. – p. 445–449; (International Mine Water Association).
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Schmidt, T. C., Zwank, L., Elsner, M., Berg, M., Meckenstock, R. U. & Haderlein, S. B. (2004): Compound-specific stable isotope analysis of organic contaminants in natural environments: a critical review of the state of the art, prospects, and future challenges. – Anal. Bioanal. Chem., 378(2):283–300, doi:10.1007/s00216-003-2350-y.
Schmidt, T. W. (2024): Upper He Creek water balance hydraulic and hydrogeologic solutions in east central Tennessee. Paper presented at the West Virginia Mine Drainage Task Force Symposium & 15th International Mine Water Association Congress, Morgantown, WV, USA. – p. 562–563; Morgantown (International Mine Water Association).
Schmidt-Wygasch, C., Schamuhn, S., Meurers-Balke, J., Lehmkuhl, F. & Gerlach, R. (2010): Indirect Dating of Historical Land Use Through Mining: Linking Heavy Metal Analyses of Fluvial Deposits to Archaeobotanical Data and Written Accounts. – Geoarchaeology, 25(6):837–856, doi:10.1002/gea.20334.
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Schneider, P., Boeck, H.-J. & Lange, T. (2005): Radionuclide Data for Geothermal Prospection – A Contribution to the Geothermal Resources Map of Saxony. – In: Merkel, B. J. & Hasche-Berger, A. (eds): Uranium in the Environment – UMH IV. – p. 647–654, Heidelberg (Springer).
Schneider, P., Löser, R., Meyer, J., Kreyßig, E. & Schramm, A. (2005): Concept of a Surface Water Monitoring at the Former Uranium Mining Site Schlema-Alberoda. – In: Merkel, B. J. & Hasche-Berger, A. (eds): Uranium in the Environment – UMH IV. – p. 779–788, Heidelberg (Springer).
Schneider, P., Neitzel, P., Merkel, B. J., Meinrath, G. & Pearson, J. (1998): Alternative Methoden zur Behandlung von Flutungswässern. – Unpubl. Report for Sächsisches Staatsministerium für Umwelt und, L. (Report Nr. 13.8802.3528/44). – 112 p., 15 Abb., 18 Tab., 2 Anl.; Chemnitz (Hydroisotop-Piewak GmbH).
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Schneider, P., Neitzel, P. L., Osenbrück, K., Noubacteb, C., Merkel, B. J. & Hurst, S. (2001): In-situ treatment of radioactive mine water using reactive materials – Results of laboratory and field experiments in uranium ore mines in Germany. – Acta Hydrochim. Hydrobiol., 29(2-3):129–138, 9 Abb., 2 Tab.; doi:10/ff64fb.
Schneider, P., Neitzel, P. L., Schaffrath, M. & Schlumprecht, H. (2003): Leitbildorientierte physikalisch-chemische Gewässerbewertung – Referenzbedingungen und Qualitätsziele. – Texte, 15/03:35, 56 Abb., 13 Tab., 2 Anl.
Schneider, P., Nilius, U., Gottschalk, N., Süß, A., Schaffrath, M., Löser, R. & Lange, T. (2017): Determination of the Geogenic Metal Background in Surface Water: Benchmarking Methodology for the Rivers of Saxony-Anhalt, Germany. – Water, 9(2):75, doi:10.3390/w9020075.
Schneider, P., Osenbrück, K., Neitzel, P. L. & Nindel, K. (2002): In-Situ Mitigation of Effluents from Acid Waste Rock Dumps Using Reactive Surface Barriers – a Feasibility Study. – Mine Water Environ., 21(1):36–44, 4 Abb., 3 Tab.
Schneider, P., Osenbrück, K., Nindel, K., Voerkelius, S., Forster, M. & Schreyer, J. (1999): Current and future impact of an uranium mine waste disposal site on groundwater: IAEA-SM-361/20. – 20.1–20.10 p., 8 Abb.; Wien (Proceedings Isotope Techniques in Water Ressources Management).
Schneider, P. & Reincke, H. (2005): Contaminated Sediments in the Elbe Basin and its Tributary Mulde. – In: Merkel, B. J. & Hasche-Berger, A. (eds): Uranium in the Environment – UMH IV. – p. 655–662, Heidelberg (Springer).
Schneider, P., Schaffrath, M. & Nindel, K. (2002): Hydrology of Engineered Covers of Waste Rock Dumps towards Heavy Rainfall Phenomena: A Case Study in Uranium Mill Tailings Mitigation. – In: Merkel, B. J., Planer-Friedrich, B. & Wolkersdorfer, Ch. (eds): Uranium in the Aquatic Environment. – p. 169–176, 4 Abb., 3 Tab.; Heidelberg (Springer).
Schneider, P., Schaffrath, M., Schlumprecht, H. & Sonntag, H. (2006): Hydrologische und ökologische Untersuchungen im Zusammenhang mit der Umsetzung der EU-WRRL unter Berücksichtigung des Braunkohlenbergbau-Rehabilitationsgebietes im sächsischen Einzugsgebiet der Lausitzer Neiße. – Wiss. Mitt. Inst. Geol., 31:203–211, 1 Abb., 3 Tab.
Schneider, P., Voerkelius, S., Nindel, K., Forster, M. & Schreyer, J. (2001): Release of Contaminants from Uranium Mine Waste – Laboratory and Field Experiments. – Mine Water Environ., 20(1):30–38, 5 Abb., 4 Tab.; doi:10.1007/s10230-001-8077-0.
Schneider, P., Voerkelius, S., Osenbrück, K. & Meyer, J. (2003): Anwendung von isotopenhydrologischen Methoden bei Einzugsgebietsuntersuchungen. – Wiss. Mitt. Inst. Geol., 24:73–82, 7 Abb., 1 Tab.
Schneider, P. & Wolkersdorfer, Ch. (2021): Dimensions of water management in the extractive industries. – In: Davis, C. & Rosenblum, E. (eds): Sustainable Industrial Water Use: Perspectives, Incentives, and Tools. – p. 73–87, 13 Abb.; London (IWA Publishing); doi:10.2166/9781789060676_0073.
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Schöpke, R. (2024): Hydrochemische Aspekte der Erkundung und Behandlung von bergbaubürtigen Sauerwässern (AMD) – Ergebnisse von 25 Jahren Forschung und Entwicklung: Schriftenreihe Siedlungswasserwirtschaft und Umwelt 32. – 363 p., 241 Abb., 110 Tab., 3 Anl.; Cottbus (Eigenverlag Lehrstuhl Wassertechnik und Siedlungswasserbau).
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Singh, R. N., Denby, B. & Reed, S. M. (1985): The Effect of Groundwater re-establishment on the Settlement of Opencast Mine Backfills in the United Kingdom. – Proceedings, 2nd International Mine Water Association Congress, 2:803–816, 8 Abb.
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Wolkersdorfer, Ch. (2000): Bergbau an der Silberleithe – Geschichte, Mineralisation und Entstehung der Blei-Zink-Vorkommen im westlichen Mieminger Gebirge, 2 edn. – 89 p., 74 Abb., 6 Tab.; Freiberg (Eigenverlag Wolkersdorfer).
Wolkersdorfer, Ch. (2001): Tracer Tests in Flooded Underground Mines. – In: Seiler, K.-P. & Wohnlich, S. (eds): New Approches Characterizing Groundwater Flow 1. – p. 229–233, 4 Abb., 3 Tab.; Rotterdam (Balkema).
Wolkersdorfer, Ch. (2002): Mine water tracing. – Spec. Publ. – Geol. Soc. London, 198:47–61, 5 Abb., 6 Tab.; doi:10.1144/GSL.SP.2002.198.01.03.
Wolkersdorfer, Ch. (2002): Rare Earth Elements (REEs) as Natural Tracers in Mine Water. – In: Merkel, B. J., Planer-Friedrich, B. & Wolkersdorfer, Ch. (eds): Uranium in the Aquatic Environment. – p. 967–974, 2 Abb., 1 Tab.; Heidelberg (Springer).
Wolkersdorfer, Ch. (2002): Twenty years of the International Mine Water Association Journal – the First Issue. – Mine Water Environ., 21(2):100–101, 3 Abb.; doi:10.1007/s102300200025.
Wolkersdorfer, Ch. (2003): Tracertest Straßberg/Harz 2003. – Unpubl. Report for Gesellschaft zur Verwahrung und Verwertung von stillgelegten Bergwerksbetrieben mb, H. G. (Report Nr. 03010255). – 21 p., 3 Abb., 6 Tab., 8 Anl.; Freiberg/Sachsen (TU Bergakademie Freiberg – Lehrstuhl für Hydrogeologie).
Wolkersdorfer, Ch. (2004): Mine Water Literature in ISI’s Science Citation Index Expanded™. – Mine Water Environ., 23(2):96–99, 3 Abb., 3 Tab.; doi:10.1007/s10230-004-0046-y.
Wolkersdorfer, Ch. (2005): Geologische Verhältnisse des Montafons und angrenzender Gebiete: Montafon: Mensch – Geschichte – Umwelt 1. – 25–55 p., 41 Abb., 1 Tab.; Schruns (Eigenverlag Stand Montafon).
Wolkersdorfer, Ch. (2005): Mine Water Management and the Water Framework Directive. – 1–8 [CD–ROM] p., 3 Abb., 1 Tab.; Nancy (Proceedings Post-Mining 2005).
Wolkersdorfer, Ch. (2005): Mine water tracer tests as a basis for remediation strategies. – Chem. Erde, 65(Supp 1):65–74, 3 Abb., 1 Tab.; doi:10.1016/j.chemer.2005.06.003.
Wolkersdorfer, Ch. (2005): Tracer Tests as a Mean of Remediation Procedures in Mines. – In: Merkel, B. J. & Hasche-Berger, A. (eds): Uranium in the Environment. – p. 817–822, 1 Abb., 1 Tab.; Heidelberg (Springer); doi:10.1007/3-540-28367-6_84.
Wolkersdorfer, Ch. (2006): Acid Mine Drainage Tracer Tests. ICARD 2006 7. – p. 2490–2501 [CD–ROM], 5 Abb.; St. Louis (Proceedings 7th International Conference on Acid Rock Drainage (ICARD)); doi:10.21000/JASMR06022490.
Wolkersdorfer, Ch. (2006): Wasser, Quell des Lebens – Hydrogeologische Untersuchungen in Troia. – In: Korfmann, M. O. (ed) Troia – Archäologie eines Siedlungshügels und seiner Landschaft. – p. 329–336, 7 Abb.; Mainz (Zabern).
Wolkersdorfer, Ch. (2006): Water Management at Abandoned Flooded Underground Mines – Fundamentals – Tracer Tests – Modelling – Water Treatment. – 348 p., 123 Abb., 34 Tab.; Freiberg (unpubl. Habilitation Thesis TU Bergakademie Freiberg).
Wolkersdorfer, Ch. (2008): Water Management at Abandoned Flooded Underground Mines – Fundamentals, Tracer Tests, Modelling, Water Treatment. – 465 p., 126 Abb., 34 Tab.; Heidelberg (Springer); doi:10.1007/978-3-540-77331-3.
Wolkersdorfer, Ch. (2009): Hydrochemistry of Mine Water Discharges in the Abandoned Upper Bavarian Pitch Coal Mining District/Germany. – In: Water Institute of Southern Africa & International Mine Water Association (eds): Proceedings, International Mine Water Conference. – p. 823–827, 3 Abb., 1 Tab; Pretoria (Document Transformation Technologies).
Wolkersdorfer, Ch. (2010): Tracer Test in A Settling Pond – The Passive Mine Water Treatment Plant of the 1 B Mine Pool, Nova Scotia, Canada. – In: Wolkersdorfer, Ch. & Freund, A. (eds): Mine Water and Innovative Thinking – International Mine Water Association Symposium. – p. 295–299, Sydney, NS (Cape Breton University Press).
Wolkersdorfer, Ch. (2011): Mine Water Discharges of the Southern Bavarian Pitch Coal District: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – 639–642 p., Aachen (RWTH Aachen University).
Wolkersdorfer, Ch. (2011): Tracer Test in a Settling Pond – The Passive Mine Water Treatment Plant of the 1 B Mine Pool, Nova Scotia, Canada. – Mine Water Environ., 30(2):105–112, 6 Abb., 1 Tab.; doi:10.1007/s10230-011-0147-3.
Wolkersdorfer, Ch. (2012): Getting rid of chemical analysis – Mine water management with indicator parameters: International Mine Water Association Symposium. – 505–512 p., 4 Abb., 1 Tab.; Bunbury (Edith Cowan University).
Wolkersdorfer, Ch. (2012): Wood: Disasters and Minewater (Book Review). – Mine Water Environ., 31(3):233–235, doi:10.1007/s10230-012-0195-3.
Wolkersdorfer, Ch. (2013): Grubenwasserreinigung – Verfahren und Vorgehensweisen. – Unpubl. Report for Sächsisches Landesamt für Umwelt Landwirtschaft und Geologie (Report Nr. EU Ziel-3-Projekt). – 198 p., 73 Abb., 20 Tab.; Pretoria (Tshwane University of Technology).
Wolkersdorfer, Ch. (2013): Management von Grubenwasser 3.0 – Blick in die Zukunft. – Wiss. Mitt. Inst. Geol., 44:105–113, 1 Abb.
Wolkersdorfer, Ch. (2017): Mine Water Hydrodynamics, Stratification and Geochemistry for Mine Closure – The Metsämonttu Zn-Cu-Pb-Au-Ag-Mine, Finland. – In: Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A. (eds): IMWA 2017 – Mine Water & Circular Economy I. – p. 132–139, 3 Abb., 1 Tab.; Lappeenranta (Lappeenranta University of Technology).
Wolkersdorfer, Ch. (2018): Verlauf der Paläoloisach im Außerfern – Ein Rekonstruktionsversuch. Paper presented at the Geoforum Umhausen, Umhausen. – p. 192–200, 3 Abb., 1 Tab.; Innsbruck.
Wolkersdorfer, Ch. (2019): Gibt es hydrogeologische Hinweise auf einen Gipskarst am Fernpass? [Is there hydrogeological evidence of a gypsum karst on the Fernpass?]. Paper presented at the Geoforum Umhausen, Umhausen. – p. 99–103; Innsbruck.
Wolkersdorfer, Ch. (2020): Grubenwasserchemie – Über Grundwasser und Grubenwasser und kleine Tierchen [Chemismus důlních vod – o podzemních a důlních vodách a malých zvířátkách]. – Freib. Forsch.-H., A 935:13–22, 3 Abb.
Wolkersdorfer, Ch. (2021): Mine Water and the Environment: History Until Volume 40 and the New Cover Design. – Mine Water Environ., 40(3):557–561, doi:10.1007/s10230-021-00794-y.
Wolkersdorfer, Ch. (2021): Pohl: Economic Geology 2nd Edition (Book Review). – Mine Water Environ., 40(2):553–554, 1 Abb.; doi:10.1007/s10230-020-00738-y.
Wolkersdorfer, Ch. (2021): Reinigungsverfahren für Grubenwasser [Mine Water Treatment]. – 362 p., 114 Abb., 29 Tab.; Heidelberg (Springer); doi:10.1007/978-3-662-61721-2.
Wolkersdorfer, Ch. (2021): Valanko et al.: About Water Treatment (Book Review). – Mine Water Environ., 40(3):803–804, doi:10.1007/s10230-021-00763-5.
Wolkersdorfer, Ch. (2022): Mine Water Treatment – Active and Passive Methods. – 328 p., 115 Abb., 29 Tab.; Heidelberg (Springer); doi:10.1007/978-3-662-65770-6.
Wolkersdorfer, Ch. (2022): Paleoenvironmental changes in river channel systems in alpine rockslide deposits exemplified by the Fernpass rockslide in the Tyrolian Außerfern District, Austria. – Nat. Sci. Reports, 13 Abb., 3 Tab.; doi:10.1038/s41598-022-25922-8.
Wolkersdorfer, Ch. (2024): Performance of a Vertical Flow Reactor Treating Acid Mine Drainage of an Abandoned Coal Mine near Carolina, Mpumalanga, South Africa. Paper presented at the 13th International Conference on Acid Rock Drainage (ICARD) 2024, Halifax. – p. 1–10 [electronic file], 7 Abb., 2 Tab.; Westmount (Canadian Institute of Mining, Metallurgy and Petroleum).
Wolkersdorfer, Ch. (2025): Hydrodynamic Investigation of a density-stratified Underground Mine – Tracer Test Challenges and Results in the Georgi-Unterbau Mine, Tyrol, Austria. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 1011–1016, 1 Abb., 1 Tab.; Braga (International Mine Water Association).
Wolkersdorfer, Ch. (2025): Obituary Przemysław Bukowski (1959-01-02 – 2025-07-27). – Mine Water Environ., doi:10.1007/s10230-025-01074-9.
Wolkersdorfer, Ch. & Baierer, C. (2013): Improving Mine Water Quality by Low Density Sludge Storage in Flooded Underground Workings. – Mine Water Environ., 32(1):3–15, 10 Abb., 4 Tab.; doi:10.1007/s10230-012-0204-6.
Wolkersdorfer, Ch. & Bantele, M. (2013): Die Oberbayerische Pechkohlenmulde – Hydrogeochemische Untersuchungen der Grubenwässer [The Upper Bavarian Pitch Coal Basin – Hydrogeochemical Investigations of the Mine Waters]. – Grundwasser, 18(3):185–196, 5 Abb., 3 Tab.; doi:10.1007/s00767-013-0230-8.
Wolkersdorfer, Ch., Blume, C. & Weber, C. (2003): Trace Elements in the Waters of Troy. – Wiss. Mitt. Inst. Geol., 24:91–95, 4 Abb.
Wolkersdorfer, Ch. & Bowell, R. J. (2004): Contemporary Reviews of Mine Water Studies in Europe. – Mine Water Environ., 23(4):161, doi:10.1007/s10230-004-0059-6.
Wolkersdorfer, Ch. & Bowell, R. J. (2005): Contemporary Reviews of Mine Water Studies in Europe. – Mine Water Environ., 24(3):1–76, 33 Abb., 21 Tab.; doi:10.1007/s10230-005-0081-3.
Wolkersdorfer, Ch., Bowell, R. J., O’Sullivan, A. D., Diels, L., Grmela, A., Rapantová, N., Pfeifer, H.-R., Dold, B., Midžić, S., Silajdžić, I., Cabral Pinto, M. M. S. & Silva, M. M. V. G. (2005): Contemporary Reviews of Mine Water Studies in Europe, Part 3. – Mine Water Environ., 24(2):58–76, doi:10.1007/s10230-005-0074-2.
Wolkersdorfer, Ch., Feldtner, N. & Trebušak, I. (1997): LydiA – A new Method for tracing Mine Water. – Proceedings, 6th International Mine Water Association Congress, Bled, Slovenia, 1:43–55, 3 Abb., 2 Tab.
Wolkersdorfer, Ch., Feldtner, N. & Trebušak, I. (2002): Mine Water Tracing – A Tool for Assessing Flow Paths in Flooded Underground Mines. – Mine Water Environ., 21(1):7–14, 3 Abb., 3 Tab.; doi:10.1007/s102300200002.
Wolkersdorfer, Ch. & Göbel, J. (2003): Wasser für Troja oder Hektors Wasserbergwerk?: 10 Jahre – Besucherbergwerk Grube Wohlfahrt. – 150–154 p., 7 Abb.; Rescheid (Tagungsband – 6. Internationaler Bergbau-Workshop).
Wolkersdorfer, Ch. & Göbel, J. (2004): Hydrogeologie der Troianischen Landschaft – Eine Bestandsaufnahme. – Studia Troica, 14:157–167, 9 Abb., 1 Tab.
Wolkersdorfer, Ch., Göbel, J., Blume, C. & Weber, C. (2004): Hydrogeologische Probenahmestellen in der Troianischen Landschaft. – Studia Troica, 14:169–200, 19 Abb., 2 Tab.
Wolkersdorfer, Ch., Göbel, J. & Hasche-Berger, A. (2016): Assessing subsurface flow hydraulics of a coal mine water bioremediation system using a multi-tracer approach. – Int. J. Coal Geol., 164:58–68, 9 Abb., 2 Tab.; doi:10.1016/j.coal.2016.03.010.
Wolkersdorfer, Ch., Göbel, J., Hasche-Berger, A. & Hanneberg, A. (2007): Führer zum Montan-Wanderweg Silberleithe. – 79 p., 128 Abb.; Biberwier (Bergwerksverein Silberleithe Tirol).
Wolkersdorfer, Ch. & Hasche, A. (2001): Environmental Regulation of Mine Waters in the European Union – D 1 National Case Studies – Germany. ERMITE Final Report – EU R&D Project EVK1-CT-2000-00078. – p. 33, 5 Abb., 5 Tab.; Freiberg (TU Bergakademie Freiberg).
Wolkersdorfer, Ch. & Hasche, A. (2001): Tracer Test in the abandoned Fluorspar Mine Straßberg/Harz Mountains, Germany. – Wiss. Mitt. Inst. Geol., 16:57–67, 5 Abb., 5 Tab.
Wolkersdorfer, Ch. & Hasche, A. (2001): Tracer Test in the abandoned Fluorspar Mine Straßberg/Harz Mountains, Germany. – 1–11 [CD–ROM] p., 5 Abb., 5 Tab.; Belo Horizonte (Proceedings IMWA Symposium Belo Horizonte).
Wolkersdorfer, Ch. & Hasche, A. (2004): Tracer Investigations in flooded mines – The Straßberg/Harz Multitracer Test. – In: Prokop, G., Younger, P. L. & Roehl, K. E. (eds): Conference Papers 35. – p. 45–56, 5 Abb., 5 Tab.; Wien (Umweltbundesamt).
Wolkersdorfer, Ch., Hasche, A. & Göbel, J. (2003): ERMITE – Grubenwasser in der Europäischen Union. – In: Sroka, A., Löbel, K. H., Klapperich, H., Tondera, D., Meier, G. & Busch, W. (eds): 3. Altbergbau-Kolloquium. – p. 376–381, 1 Abb., 1 Tab.; Essen (Glückauf).
Wolkersdorfer, Ch., Hasche, A., Göbel, J. & Younger, P. L. (2005): Tracer Test in the Bowden Close Passive Treatment System (UK) – Preliminary Results. – Wiss. Mitt. Inst. Geol., 28:87–92, 7 Abb., 1 Tab.
Wolkersdorfer, Ch., Hasche, A., Tschapek, J., Veselič, M. & LeBlanc, M. (2002): Scoping Study: Applicability of PIR Systems to mine waters in Eastern and Southern Europe. – 151–159 p., 7 Tab.; Karlsruhe (Proceedings First Image-Train Cluster-Meeting).
Wolkersdorfer, Ch., Hasche, A., Unger, K. & Wackwitz, T. (2002): Tracer Techniken im Bergbau – Georgi-Unterbau bei Brixlegg/Tirol. – Wiss. Mitt. Inst. Geol., 19:37–43, 4 Abb., 1 Tab.
Wolkersdorfer, Ch. & Hubert, E. (2015): Establishing a Total Dissolved Solids:Electrical Conductivity ratio for Mine Waters. – In: Brown, A., et al. (eds): Agreeing on solutions for more sustainable mine water management. – p. 1–8 [electronic document], Santiago/Chile (Gecamin); doi:10.13140/RG.2.1.3823.2081.
Wolkersdorfer, Ch. & Kleinmann, R. L. P. (2011): Best Practice of Mine Water Management and Treatment – An International Review. – In: Paul, M. (ed) Nachhaltigkeit und Langzeitaspekte bei der Sanierung von Uranbergbau- und Aufbereitungsstandorten. – p. 255–257, Chemnitz (Wismut GmbH).
Wolkersdorfer, Ch., Komischke, H., Pester, S. & Hasche-Berger, A. (2013): Hydrodynamics in a flooded underground limestone mine. – In: Brown, A., Figueroa, L. & Wolkersdorfer, Ch. (eds): Reliable Mine Water Technology II. – p. 1165–1172, 5 Abb., 1 Tab.; Denver (International Mine Water Association).
Wolkersdorfer, Ch. & Kubiak, C. (2008): Low Density Sludge Storage in a flooded Underground Mine. – In: Rapantova, N. & Hrkal, Z. (eds): Mine Water Environ. – p. 51–54, 1 Abb., 1 Tab.; Ostrava (VSB – Technical University of Ostrava).
Wolkersdorfer, Ch. & Kubiak, C. (2008): Low Density Sludge Storage in the Flooded Straßberg/Harz Underground Mine. – Wiss. Mitt. Inst. Geol., 37:149–160, 9 Abb., 2 Tab.
Wolkersdorfer, Ch. & LeBlanc, J. (2012): Regulations, Legislation, and Guidelines for Artificial Surface Water and Groundwater Tracer Tests in Canada. – Water Qual. Res. J. Canada, 47(1):42–55, 1 Abb., 4 Tab.; doi:10.2166/wqrjc.2012.042.
Wolkersdorfer, Ch., Lopes, D. V. & Nariyan, E. (2015): Intelligent Mine Water Treatment – Recent International Developments. – In: Paul, M. (ed) Sanierte Bergbaustandorte im Spannungsfeld zwischen Nachsorge und Nachnutzung – WISSYM 2015. – p. 63–68, 2 Abb.; Chemnitz (Wismut GmbH); doi:10.13140/RG.2.1.2441.5849.
Wolkersdorfer, Ch. & MacSween, J. (2011): A 100 hour pump test in the 1B mine pool of the Sydney Coal Field, Nova Scotia, Canada: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – 643–644 p., Aachen (RWTH Aachen University).
Wolkersdorfer, Ch., Mahlangu, O. T., Wiltschka, K. & Böhm, L. (2025): Analysis, occurrence and removal of polychlorinated biphenyls (PCBs) in mine water: a review. – Environ. Sci. Eur.:1–37, doi:10.1186/s12302-025-01197-4.
Wolkersdorfer, Ch. & Melchers, Ch. (2021): Blickfänge – Was Sie über Grubenwasser im Blick haben sollten [Eye-catchers – What you should keep in mind about mine water]. – 24 p., Essen (Forum Bergbau und Wasser).
Wolkersdorfer, Ch. & Merkel, B. J. (2005): The flooded Freiberg/Sachsen Mining District – Hydrogeochemistry, Hydrodynamics and Environmental Impacts: Mine Water 2005 – Mine Closure. – 185–187 p., 1 Abb., 1 Tab.; Oviedo (University of Oviedo).
Wolkersdorfer, Ch. & More, K. (2021): Digital technologies for mine water management. – Water & Sanitation Africa, 16(4):34–35.
Wolkersdorfer, Ch., More, K. S. & Lupankwa, M. (2017): Analoge Modellierung von Tomahügeln [An analogue Toma Hill Model]. Paper presented at the Geoforum Umhausen, Umhausen. – p. 61–69, 3 Abb., 2 Tab.
Wolkersdorfer, Ch., More, K. S., Mugova, E., Nchabeleng, N. & Sotiralis, A. J. (2024): Hydrogeochemical investigations in the vicinity of the former Havelock asbestos mine near Bulembu, eSwatini (formerly Swaziland). Paper presented at the West Virginia Mine Drainage Task Force Symposium & 15th International Mine Water Association Congress, Morgantown, WV, USA. – p. 647–651, 4 Abb.; Morgantown (International Mine Water Association).
Wolkersdorfer, Ch., More, K. S., Mugova, E., Nchabeleng, N. & Sotiralis, A. J. (2025): Hydrogeochemical and hydrogeological baseline study following the mining of asbestos at the Havelock Mine, Bulembu, eSwatini. – J. Afr. Earth Sci.:105533, doi:10.1016/j.jafrearsci.2024.105533.
Wolkersdorfer, Ch. & Mugova, E. (2020): Temporäre Entwicklung der Dichteschichtung in einem gefluteten Bergwerksschacht eines Gold-Kleinbergbaus in Biberwier/Tirol [Temporary development of density layering in a flooded mine shaft of a small gold mine in Biberwier/Tyrol]. Paper presented at the Geoforum Umhausen, Umhausen. – p. 97–102, 3 Abb., 1 Tab.
Wolkersdorfer, Ch. & Mugova, E. (2022): Effects of Mining on Surface Water. – In: Irvine, K., Chapman, D. & Warner, S. (eds): The Encyclopedia of Inland Waters 4, 2nd edn. – p. 170–188, 6 Abb., 2 Tab.; Oxford (Elsevier); doi:10.1016/B978-0-12-819166-8.00036-0.
Wolkersdorfer, Ch. & Mugova, E. (2023): Untersuchungen zum Verständnis von Grubenflutung und der Barrierewirkung von Dichteschichtung. – In: Bock, M., Goerke-Mallet, P., Melchers, Ch., Rudolph, T. & Westermann, S. (eds): 21. Altbergbau-Kolloquium – Tagungsband. – p. 197–204, 2 Abb.; Clausthal (Papierflieger).
Wolkersdorfer, Ch., Mugova, E., Daga, V. S., Charvet, P. & Vitule, J. R. S. (2022): Effects of Mining on Surface Water – Case Studies. – In: Irvine, K., Chapman, D. & Warner, S. (eds): The Encyclopedia of Inland Waters 4, 2nd edn. – p. 210–224, 6 Abb., 2 Tab.; Oxford (Elsevier); doi:10.1016/B978-0-12-819166-8.00085-2.
Wolkersdorfer, Ch., Neumann, C. & Hasche-Berger, A. (2007): Hydrodynamics of the flooded Freiberg/Saxony Underground Mine: Water in Mining Environments. – 117–121 p., 3 Abb., 1 Tab.; Cagliari (Mako Edizioni).
Wolkersdorfer, Ch., Neumann, C. & Hasche-Berger, A. (2007): Tracer Tests in the flooded Himmelfarth Fundgrube Underground Mine (Freiberg/Saxony). – Wiss. Mitt. Inst. Geol., 35:157–162, 3 Abb., 1 Tab.
Wolkersdorfer, Ch., Nordstrom, D. K., Beckie, R., Cicerone, D. S., Elliot, T., Edraki, M., Valente, T. M., França, S. C. A., Kumar, P., Oyarzún Lucero, R. A. & Soler, A. I. G. (2020): Guidance for the Integrated Use of Hydrological, Geochemical, and Isotopic Tools in Mining Operations. – Mine Water Environ., 39(2):204–228, 7 Abb., 2 Tab., 5 Anl.; doi:10.1007/s10230-020-00666-x.
Wolkersdorfer, Ch. & Qonya, B. (2017): Passive Mine Water Treatment with a full scale, containerized Vertical Flow Reactor at the abandoned Metsämonttu mine site, Finland. – In: Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A. (eds): IMWA 2017 – Mine Water & Circular Economy I. – p. 109–116, Lappeenranta (Lappeenranta University of Technology).
Wolkersdorfer, Ch., Shongwe, L. & Schmidt, C. (2016): Can natural Stratification prevent Pollution by Acid Mine Drainage? Paper presented at the IMWA 2016 – Mining Meets Water – Conflicts and Solutions, Leipzig/Germany. – p. 115–121; Freiberg (TU Bergakademie Freiberg).
Wolkersdorfer, Ch., Stadler, S., Bretzler, A., Müller, C. & Zedler, C. (2021): Hydrochemical Investigations to locate Homer’s Hot and Cold Springs of Troia (Troy)/Turkey. – Catena, 200:105070/1–105070/10, 9 Abb., 1 Tab.; doi:10.1016/j.catena.2020.105070.
Wolkersdorfer, Ch., Tamme, S. & Hasche, A. (2003): Natural attenuation of iron rich mine water by a surface brook. – In: Nel, P. J. L. (ed) Mine Water Environ. – p. 433–439, 7 Abb.; Johannesburg (Proceedings 8th International Mine Water Association Congress).
Wolkersdorfer, Ch. & Thiem, G. (1998): Land Subsidence in north-eastern Saxony (Lusatia)/Germany due to Ground Water Withdrawal: Mine Water and Environmental Impacts 2. – 259–270 p., 3 Abb., 4 Tab.; Johannesburg (Proceedings International Mine Water Association Symposium).
Wolkersdorfer, Ch. & Thiem, G. (1999): Ground Water Withdrawal and Land Subsidence in Northeastern Saxony (Germany). – Mine Water Environ., 18(1):81–92, 3 Abb., 4 Tab.; doi:10.1007/BF02687252.
Wolkersdorfer, Ch., Trebušak, I. & Feldtner, N. (1997): Development of a Tracer Test in a flooded Uranium Mine using Lycopodium clavatum. – In: Kranjc, A. (ed) Tracer Hydrology 97 – International Symposium of Underground Water Tracing 7. – p. 377–385, 4 Abb., 2 Tab.; Rotterdam (Balkema); doi:10.1201/9781003078142-62.
Wolkersdorfer, Ch. & von Hünefeld-Mugova, E. (2018): Flow measurement using the salt dilution method at the mine water influenced Tweelopiespruit, Witwatersrand, South Africa. Paper presented at the IMWA 2018 – Risk to Opportunity, Pretoria. – p. 1024–1026; (Tshwane University of Technology).
Wolkersdorfer, Ch. & von Hünefeld-Mugova, E. (2020): Flow Measurement Using the Salt Dilution Method at the Mine Water Influenced Tweelopiespruit, Witwatersrand, South Africa. – In: Kretschmann, J., Goerke-Mallet, P. & Melchers, Ch. (eds): Done for Good 2.0 – Results in Post-Mining Research. – p. 236–239, Bochum (Technische Hochschule Georg Agricola).
Wolkersdorfer, Ch. & Wackwitz, T. (2004): Antimony Anomalies around abandoned Silver Mines in Tyrol/Austria. – In: Jarvis, A. P., Dudgeon, B. A. & Younger, P. L. (eds): mine water 2004 – Proceedings International Mine Water Association Symposium 1. – p. 161–167, 4 Abb., 1 Tab.; Newcastle upon Tyne (University of Newcastle).
Wolkersdorfer, Ch., Walter, S. & Mugova, E. (2022): Perceptions on mine water and mine flooding – An example from abandoned West German hard coal mining regions. – Resour. Policy, 13 Abb., 10 Tab.; doi:10.1016/j.resourpol.2022.103035.
Wolkersdorfer, Ch., Worsa-Kozak, M. & Chudy, K. (2023): The Colourful Lakes in Wieściszowice, Sudetes Mountains, Poland – An example of Chemical Variation in Abandoned open pit Pyrite Mine Mine Water. Paper presented at the IMWA 2023 – Y Dyfodol | The Future, Newport, Wales, UK. – p. 540–544, 3 Abb., 1. Tab; (International Mine Water Association).
Wolkersdorfer, Ch. & Younger, P. L. (2002): Passive Grubenwasserreinigung als Alternative zu aktiven Systemen. – Grundwasser, 7(2):67–77, 7 Abb., 2 Tab.; doi:10.1007/s007670200011.
Wolkersdorfer, Ch., Younger, P. L. & Bowell, R. (2006): PADRE – Europäische Partnerschaft für die Sanierung saurer Grubenwässer (Partnership for Acid Drainage Remediation in Europe). – Wiss. Mitt. Inst. Geol., 31:213–217, 3 Abb.
Wolkersdorfer, Ch., Younger, P. L. & Bowell, R. J. (2004): PADRE – Partnership for Acid Drainage Remediation in Europe. – Mine Water Environ., 23(4):181–182, doi:10.1007/s10230-004-0060-0.
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