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2024

  • Molaba, L. & Wolkersdorfer, Ch. (in review): Mine Flooding and Density Stratification in an Analogue Model Mine – Experimental Investigation towards in situ Mine Water Remediation. – Water Res.
  • More, K. S. & Wolkersdorfer, Ch. (accepted): The pH Paradox. – Sci. Total Environ.
  • Mugova, E., Molaba, L. & Wolkersdorfer, Ch. (2024): Understanding the Mechanisms and Implications of the First Flush in Mine Pools – Insights from Field Studies and Analogue Modelling. – Mine Water Environ., doi:10.1007/s10230-024-00969-3
  • Wiltschka, K., Wolkersdorfer, Ch., Düring, R.-A. & Böhm, L. (2024): Belastung von Grubenwässern durch polychlorierte Biphenyle (PCB) [Contamination of mine water by polychlorinated biphenyls (PCBs)]. – Mitt. Fachgr. Umweltchem. Ökotoxikol., 30(1):14–18, 2 Abb., 1 Tab.

2023

  • More, K. S. & Wolkersdorfer, Ch. (2023): Intelligent Mine Water Management Tools — eMetsi and Machine Learning GUI. – Mine Water Environ., 42(1), 111–120, 7 fig., 1 tab., 3 elect. app., doi:10.1007/s10230-023-00917-7
  • 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 fig., 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. – ACS ES&T Water, 6 fig., 1 tab.; doi:10.1021/acsestwater.3c00163
  • Mugova, E. & Wolkersdorfer, Ch. (2023): Mine Water Research with Analogue Modelling – The Agricola Model Mine. Paper presented at the IMWA 2023 – Y Dyfodol | The Future, Newport, Wales. – Newport (International Mine Water Association).
  • Wiltschka, K., Wolkersdorfer, Ch., During, R.-A., Böhm, L. (2023): Between Underground and the Deep Blue Sea – Contamination of Mine Water Effluents by Polychlorinated Biphenyls (PCBs). – ACS ES&T Water, 3 (11), 3474–3484, 1 fig., 2 tab., doi:10.1021/acsestwater.3c00179
  • Wolkersdorfer, Ch. & Mugova, E. (2023): Untersuchungen zum Verständnis von Grubenflutung und der Barrierewirkung von Dichteschichtung [Investigations to understand mine flooding and the barrier effect of density stratification]. – In: Bock, M., Goerke-Mallet, P., Melchers, C., Rudolph, T. & Westermann, S. (eds): 21. Altbergbau-Kolloquium – Tagungsband. – p. 197–204, 2 Abb.; Clausthal (Papierflieger).
  • 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. – Newport (International Mine Water Association).

2022

  • Ambassa, E.  D.,  Ndibewu, P.,  Wolkersdorfer, Ch. &  Nkoungou, G. (2022): Remote sensing and 1D geoelectric surveys for the characterization of basement aquifers in a Pan-African orogenic belt, Akak/Cameroon. – Research Square (Preprint), 13 fig., 5 tab., doi:10.21203/rs.3.rs-1436434/v1
  • Mashishi, D. T., Wolkersdorfer, Ch. & Coetzee, H. (2022): The Whitehill Formation as a Natural Geochemical Analogue to the Witwatersrand Basin’s Mine Water Issues, South Africa. – Environ. Sci. Pollut. Res., 9 fig., 7 tab., doi:10.1007/s11356-021-17699-6
  • Molaba, L. E. & Wolkersdorfer, Ch. (2022): Investigating the Effects of Temperature on Density Stratification in a flooded Analogue Model Mine. Paper presented at the Reconnect – International Mine Water Association Conference, Christchurch. – Christchurch (International Mine Water Association).
  • More, K. S. & Wolkersdorfer, Ch. (2022): Predicting and Forecasting Mine Water Parameters Using a Hybrid Intelligent System. – Water Resour. Manage., 36: 2813–2826, 7 fig., 3 tab., doi:10.1007/s11269-022-03177-2
  • Mugova, E. & Wolkersdorfer, Ch. (2022): Density Stratification and Double-Diffusive Convection in Mine Pools of Flooded Underground Mines – A Review. – Water Res., 6 fig., 2 tab., doi:10.1016/j.watres.2021.118033
  • Mugova, E. & Wolkersdorfer, Ch. (2022): Insights into the First Flush Effect – The Flooded Underground Mine as a Chemical Reactor. Paper presented at the Reconnect – International Mine Water Association Conference, Christchurch. –  4 fig.; Christchurch (International Mine Water Association).
  • Mugova, E. & Wolkersdorfer, Ch. (2022): Identifying Potential Groundwater Contamination by Mining Influenced Water (MIW) using Flow Measurements in a Sub-Catchment of the “Cradle of Humankind” UNESCO World Heritage Site, South Africa. – Environ. Earth Sci. 81(104): 1–12, 10 fig., 5 tab., doi:10.1007/s12665-022-10224-z
  • Mugova, E. & Wolkersdorfer, Ch. (2022): Monitoring of Flooded Underground Mines – Using Mine Drainage Density Stratification as an Example. In: Edraki, M, Jones, D., Jain, K. R. (eds) 12th International Conference on Acid Rock Drainage (ICARD) 2022 VIRTUAL. –  p. 846–852, 2 fig., 1 tab.; Brisbane (International Conference on Acid Mine Drainage).
  • Ngoubeyou, P. S. K., Wolkersdorfer, Ch., Ndibewu, P. P. & Augustyn, W. (2022): Toxicity of Polychlorinated Biphenyls in Aquatic Environments – A Review. – Aquatic Toxicology, 2 fig., doi:10.1016/j.aquatox.2022.106284
  • Walter, S., Mugova, E. & Wolkersdorfer, Ch. (2022): Public Opinion on Mine Water in Three Former German Hard Coal Mining Regions. Paper presented at the Reconnect – International Mine Water Association Conference, Christchurch. – 1 fig., 1 tab.;  Christchurch (International Mine Water Association).
  • Wolkersdorfer, Ch. (2022): Paleoenvironmental Changes in River Channel Systems in Alpine Rockslide Deposits exemplified by the Fernpass Rockslide in the Tyrolian Außerfern District, Austria. – Nature Scientific Reports, 13 fig., 3 tab, doi:10.1038/s41598-022-25922-8.
  • Wolkersdorfer, Ch. (2022): Mine Water Treatment – Active and Passive Methods. – 350 p., 115 fig., 29 tab.; Heidelberg (Springer), doi:10.1007/978-3-662-65770-6.
  • Wolkersdorfer, Ch. & Mugova, E. (2022): Effects of Mining on Surface Water. – In: Irvine, K., Chapman, D. & Warner, S. (eds): The Encyclopedia of Inland Waters Vol. 4, 2nd edn. – p. 170–188, 6 fig., 2 tab.; Oxford (Elsevier), doi:10.1016/B978-0-12-819166-8.00036-0.
  • Wolkersdorfer, Ch., Mugova, E., Daga V., Charvet, P. & Vilute, 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 Vol. 4, 2nd edn. – p. 210–224, 8 fig., 1 tab.; Oxford (Elsevier), doi:10.1016/B978-0-12-819166-8.00085-2.
  • 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 79: 103035, 13. fig., 10 tab.: doi:10.1016/j.resourpol.2022.103035.

2021

  • Chudy, K., Worsa-Kozak, M., Wójcik, A., Wolkersdorfer, Ch., Drzewicki, W., Konsencjusz, D. & Szyszka, D. (2021): Chemical Variations in Mine Water of Abandoned Pyrite Mines Exemplified by the Colorful Lakes in Wieściszowice, Sudetes Mountains, Poland. – J. Hydro. Regional Stud., 17 fig, 2 tab, doi:10.1016/j.ejrh.2021.100974.
  • More, K. S.; Wolkersdorfer, Ch. (2021): Application of Artificial Intelligence Systems in Mine Water Management – An Introduction to two Effective Predictive Models. – In: Stanley, P.; Wolkersdorfer, Ch.; Wolkersdorfer, K.: Mine Water Management for Future Generations. – p. 365 – 367; Cardiff, Wales, United Kingdom (Natural Resources Wales, The Coal Authority, Welsh Government, Cardiff University).
  • Mugova, E.; Wolkersdorfer, Ch. (2021): Dewatering, Flooding and Stratification of Nikolaus-Bader small-scale Gold Mining Shaft in Austria. – In: Stanley, P.; Wolkersdorfer, Ch.; Wolkersdorfer, K.: Mine Water Management for Future Generations. – p. 393 – 397; Cardiff, Wales, United Kingdom (Natural Resources Wales, The Coal Authority, Welsh Government, Cardiff University).
  • 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, 14 fig., London (IWA Publishing), doi:10.2166/9781789060676_0073.
  • Wolkersdorfer, Ch. (2021): “Mine Water and the Environment” – History until Volume 40 and its new Cover Design. – Mine Water Environ., 40(3): 557–561, 5 fig., 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 fig., doi:10.1007/s10230-020-00738-y.
  • Wolkersdorfer, Ch. (2021): Reinigungsverfahren für Grubenwasser [Mine Water Treatment]. – 362 p., 114 fig., 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, 1 fig., doi:10.1007/s10230-021-00763-5
  • Wolkersdorfer, Ch. & Melchers, Ch. (eds.) (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. & More, K. S. (2021): Digital technologies for mine water management. – Water & Sanitation Africa, 16(4): 34–35, 3 fig.
  • 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, 9 fig., 1 tab., doi:10.1016/j.catena.2020.105070.

2020

  • Fosso-Kankeu, E., Wolkersdorfer, Ch. & Burgess, J. (2020): Recovery of Byproducts from Acid Mine Drainage Treatment. – 356 p., Salem (Scrivener).
  • Kessler, T., Mugova, E., Jasnowski-Peters, H., Rinder, T., Stemke, M., Wolkersdorfer, C., Hilberg, S., Melchers, C., Struckmeier, W., Wieber, G. & Schafmeister, M.-T. (2020): Grundwasser in ehemaligen deutschen Steinkohlenrevieren – ein wissenschaftlicher Blickwinkel auf Grubenflutungen [Groundwater in former German coalmining areas—a scientific perspective on mine floodings]. – Grundwasser, 2 fig., 1 tab., doi:10.1007/s00767-020-00460-0.
  • Lopes, D. V., Sillanpää, M. & Wolkersdorfer, Ch. (2020): Nitrate reduction from the Siilinjärvi/Finland mine water with zero-valent iron and iron waste as an alternative iron source. – Mine Water Environ. 39(2): 280–290, 6 fig., 2 tab., doi:10.1007/s10230-020-00668-9
  • 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 fig., doi:10.1016/j.wri.2020.100136
  • Mugova, E. & Wolkersdorfer, Ch. (2020): Stratification in Flooded Underground Mines – State of Knwoledge and Further Research Ideas. – In: Kretschmann, J., Goerke-Mallet, P. & Melchers, C. (eds): Done for Good 2.0 – Results in Post-Mining Research. – p. 205–210, 1 fig.; Bochum (Technische Hochschule Georg Agricola).
  • Strosnider, W. H. J., Hugo, J., Shepherd, N. L., Holzbauer-Schweitzer, B. K., Hervé-Fernández, P., Wolkersdorfer, Ch. & Nairn, R. W. (2020): A Snapshot of Coal Mine Drainage Discharge Limits for Conductivity, Sulfate, and Manganese across the Developed World. – Mine Water Environ. 39(2): 165–172, 1 fig., 4 tab., doi:10.1007/s10230-020-00669-8
  • Westermann, S., Dogan, T., Reker, B., Goerke-Mallet, P., Wolkersdorfer, Ch. & Melchers, C. (2020): Evaluation of Mine Water Rebound Processes in European Coal Mine Districts to Enhance the Understanding of Hydraulic, Hydrochemical and Geochemical Processes. – In: Kretschmann, J., Goerke-Mallet, P. & Melchers, C. (eds): Done for Good 2.0 – Results in Post-Mining Research. – p. 159–166, 2 fig.; Bochum (Technische Hochschule Georg Agricola).
  • Westermann, S., Reker, B., Goerke-Mallet, P., Wolkersdorfer, Ch. & Melchers, C. (2020): Hydraulics of Underground Mine Flooding – Optimization of Predication and Monitoring Procedures. – In: Kretschmann, J., Goerke-Mallet, P. & Melchers, C. (eds): Done for Good 2.0 – Results in Post-Mining Research. – p. 221–235, 7 fig., 1 tab.; Bochum (Technische Hochschule Georg Agricola).
  • Wolkersdorfer, Ch. (2020): Grubenwasserchemie – Über Grundwasser und Grubenwasser und kleine Tierchen [Chemismus důlních vod – o podzemních a důlních vodách a malých zvířátkách]. – Freiberger Forsch.-H., A 935:13-22, 3 fig.
  • 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, C. (eds): Done for Good 2.0 – Results in Post-Mining Research. – p. 236–239,  Bochum (Technische Hochschule Georg Agricola).
  • 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 fig., 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 fig., 2 tab., 5 App., doi:10.1007/s10230-020-00666-x
  • Worsa-Kozak, M., Zimroz, R., Michalak, A., Wolkersdorfer, Ch., Wyłomańska, A. & Kowalczyk, M. (2020): Groundwater level fluctuation analysis in a semi-urban area using statistical methods and data mining techniques – a case study in Wrocław, Poland. – Appl. Sci. 10(10): 3553, 22 fig., doi:10.3390/app10103553

2019

  • Mugova, E. & Wolkersdorfer, Ch. (2019): Stratification in Flooded Underground Mines – State of Knowledge and Further Research Ideas. – In: Khayrulina, E.; Wolkersdorfer, Ch.; Polyakova, S.; Bogush, A.: Mine Water – Technological and Ecological Challenges. – p. 40 – 45; Perm, Russia (Perm State University).
  • More, K. S., Wolkersdorfer, Ch. (2019): An Analogue Toma Hill Formation Model for the Tyrolian Fernpass Rockslide. – Landslides 16(10): 1855 – 1870, 15 fig, 7 tab; doi:10.1007/s10346-019-01211-w
  • Mugova, E. & Wolkersdorfer, Ch. (2019): Dichteschichtung als potentielle In-situ-Behandlung von Grubenwasser in gefluteten Untertagebergwerken [Density Stratification as potential in-situ treatment of mine water in flooded underground mines]. Paper presented at the Bergbau, Energie und Rohstoffe 2019, Bochum, 2019-09-11 – 13. – p. 155 – 159; Clausthal-Zellerfeld (Technische Hochschule Georg Agricola, Deutscher Markscheider-Verein e.V.).
  • Oyewo, O., Onyago, M. & Wolkersdorfer, Ch. (2019): Synthesis and Application of Alginate Immobilized Banana peels Nanocomposite in Rare Earth and Radioactive Minerals Removal from Mine Water. –  IET Nanobiotechnology, 13(7):756 – 765; doi:10.1049/iet-nbt.2018.5399
  • More, K. S.; Wolkersdorfer, Ch. (2019): Disruptive Technologies in Mine Water Management – The Future. – In: Khayrulina, E.; Wolkersdorfer, Ch.; Polyakova, S.; Bogush, A.: Mine Water – Technological and Ecological Challenges. – p. 597 – 602; Perm, Russia (Perm State University).
  • Wolkersdorfer, Ch. (2019): Gibt es hydrogeologische Hinweise auf einen Gipskarst am Fernpass? [Is there any hydrogeological evidence of a gypsum karst on the Fernpass?]. Paper presented at the Geoforum Umhausen, Umhausen. – p. 99–103; Innsbruck.
  • Wolkersdorfer, Ch. (2019): Grubenwasserreinigung – Verfahren und Vorgehensweisen. 2. Version – 291 p., 110 fig., 29 tab.; Pretoria/Mikkeli (Tshwane University of Technology/Lappeenranta University of Technology).

2018

  • Banga, C. M., Wolkersdorfer, Ch. & Klingelhöfer, H. E. (2018): Implementing Sustainability Management Accounting Techniques for the Effective Management of Acid Rock Drainage. Paper presented at the IMWA 2018 – Risk to Opportunity, Pretoria. – p. 859–864, (Tshwane University of Technology).
  • Beckie, R., Cicerone, D. S., Elliot, T., Edraki, M., Fernandes Valente, T. M., França, S. C. A., Kumar, P., Nordstrom, D. K., Oyarzún Lucero, R. A., Soler, A. I. G. & Wolkersdorfer, Ch. (2018): Guidelines for the Integrated Use of Hydrological, Geochemical and Isotope Tools in Mining Operations – The Primer. –  9 fig., 4 tab.; Vienna (IAEA).
  • Coldewey, W. G. & Wolkersdorfer, Ch. (2018): A hard coal miner at the Haarmannsbrunnen (Haarmann Fountain) in Osnabrück (Germany). – Mine Water Environ., 1 fig.; doi:10.1007/s10230-018-0556-7
  • Garner, R., Mühlbauer, R. & Wolkersdorfer, Ch. (2018): Peter Gunter 1970 – 2018. – Mine Water Environ., 1 fig; doi:10.1007/s10230-018-0562-9.
  • v. Hünefeld-Mugova, E. & Wolkersdorfer, Ch. (2018): A Review of Mine Water Stratification. – In: Meier, G., et al. (eds): 18. Altbergbau-Kolloquium – Tagungsband. – p. 125–132, 2 fig.; Nossen (Wagner).
  • Kipko, O. E., Kipko, J. V. & Wolkersdorfer, Ch. (2018): Ernest Iakovlevich Kipko 1932 – 2016. – Mine Water Environ., 1 fig; doi:10.1007/s10230-018-0555-8
  • Mashalane, T. B., Novhe, N. O., Yibas, B., Coetzee, H. & Wolkersdorfer, Ch. (2018): Metal Removal from Mine Water Using Passive Treatment Technologies (Anaerobic and Aerobic) in the Ermelo Coalfields, Mpumalanga, South Africa. Paper presented at the IMWA 2018 – Risk to Opportunity, Pretoria. – p. 146–150, (Tshwane University of Technology).
  • Nariyan, E., Wolkersdorfer, Ch. & Sillanpää, M. (2018): Sulfate removal from acid mine water from the deepest active European mine by precipitation and various electrocoagulation configurations. – J. Environ. Manage., 227:162–171, 9 fig., 5 tab.; doi:10.1016/j.jenvman.2018.08.095.
  • Nariyan, E., Wolkersdorfer, Ch. & Sillanpää, M. (2018): Uranium removal from Pyhäsalmi/Finland mine water by batch electrocoagulation and optimization with the response surface methodology. – Sep. Purif. Technol. 193:386–397, 13 fig., 15 tab; doi:10.1016/j.seppur.2017.10.020.
  • Novhe, N. O., Yibas, B., Coetzee, H., Atanasova, M., Mashalane, T. B., Vadapalli, V. R. K. & Wolkersdorfer, Ch. (2018): Geochemistry and Mineralogy of Precipitates Formed During Passive Treatment of Acid Mine Drainage in Ermelo Coalfield, South Africa. Paper presented at the IMWA 2018 – Risk to Opportunity, Pretoria. – p. 171–176, (Tshwane University of Technology).
  • Oyewo, O. A., Wolkersdorfer, Ch., Onyango, M. S. & Amos, A. (2018): The Performance of Nano-sized Banana Peels in the Removal of Vanadium from mine water. Paper presented at the IMWA 2018 – Risk to Opportunity, Pretoria. – p. 177–181, (Tshwane University of Technology).
  • van der Walt, A. & Wolkersdorfer, Ch. (2018): Indicator Parameters for Metals of Potential Concern in South African Acid and Circum-Neutral Mine Waters. – In: Meier, G., et al. (eds): 18. Altbergbau-Kolloquium – Tagungsband. – p. 120–124, 2 fig.; Nossen (Wagner).
  • Wolkersdorfer, Ch. (2018): Verlauf der Paläoloisach im Außerfern – Ein Rekonstruktionsversuch. Paper presented at the Geoforum Umhausen, Umhausen. – p. 192–200, 3 fig., 1 tab.; Innsbruck.
  • 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, Pretoria (Tshwane University of Technology).

2017

  • Akinwekomi, V., Maree, J. P. & Wolkersdorfer, Ch. (2017): Using Calcium Carbonate/Hydroxide and Barium Carbonate to Remove Sulphate from Mine Water. – Mine Water Environ. 36(2):264–272: 12 fig., 3 tab.; doi:10.1007/s10230-017-0451-7.
  • Atiba-Oyewoa, O., Onyango, M. S. & Wolkersdorfer, Ch. (2017): Adsorptive Performance of Surface-modified Montmorillonite in Vanadium Removal from Mine Water. – Mine Water Environ. 36(4):628–637: 8 fig., 4 tab., 3 app.; doi:10.1007/10.1007/s10230-017-0475-z
  • Atiba-Oyewoa, O., Onyango, M. S. & Wolkersdorfer, Ch. (2017): Lanthanides removal from mine water using banana peels nanosorbent. – Int. J. Environ. Sci. Technol.: 10 fig., 5 tab.doi:10.1007/s13762-017-1494-9
  • Burghardt, D., Coldewey, W. G., Melchers, C., Meßer, J., Paul, M., Walter, T., Wesche, D., Westermann, S., Wieber, G., Wisotzky, F. & Wolkersdorfer, Ch. (2017): Glossar Bergmännische Wasserwirtschaft – Englisch-Deutscher Index. – 12 p., Neustadt/Wstr. (Fachsektion Hydrogeologie in der DGGV).
  • Burghardt, D., Coldewey, W. G., Melchers, C., Meßer, J., Paul, M., Walter, T., Wesche, D., Westermann, S., Wieber, G., Wisotzky, F. & Wolkersdorfer, Ch. (2017): Glossar Bergmännische Wasserwirtschaft. – 79 p., Neustadt/Wstr. (Fachsektion Hydrogeologie in der DGGV).
  • Mashishi, D. T. & Wolkersdorfer, Ch. (2017): The Whitehill Formation As A Potential Analogue To The Acid Mine Drainage Issues In The Witwatersrand, South Africa. – In: Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A. (eds): IMWA 2017 – Mine Water & Circular Ecomomy II. – p. 745–752; Lappeenranta (Lappeenranta University of Technology).
  • Mokone, M. P. & Wolkersdorfer, Ch. (2017): Tracer Test in Mine Water of the Abandoned Edendale Lead Mine, South Africa. – In: Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A. (eds): IMWA 2017 – Mine Water & Circular Ecomomy I. – p. 342–349; Lappeenranta (Lappeenranta University of Technology).
  • Nariyan, E., Sillanpää, M. & Wolkersdorfer, Ch. (2017): Electrocoagulation treatment of mine water from the deepest working European metal mine – performance, isotherm and kinetic studies. – Sep. Purif. Technol. 177: 363–373; 4 fig., 7 tab.; doi:10.1016/j.seppur.2016.12.042.
  • Oleksiienko, O., Wolkersdorfer, Ch. & Sillanpää, M. (2017): Titanosilicates in Cation Adsorption and Cation Exchange – A Review. – Chem. Eng. J. 317: 570–585;  4 fig., 3 tab.; doi:10.1016/j.cej.2017.02.079.
  • Westermann, S., Dogan, T., Reker, B., Goerke-Mallet, P., Wolkersdorfer, Ch. & Melchers, C. (2017): Evaluation of mine water rebound processes in European Coal Mine Districts to enhance the understanding of hydraulic, hydro chemical and geo mechanical processes. – In: Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A. (eds): IMWA 2017 – Mine Water & Circular Ecomomy I. – p. 147–153; Lappeenranta (Lappeenranta University of Technology).
  • Westermann, S., Goerke-Mallet, P., Reker, B., Dogan, T., Wolkersdorfer, Ch. & Melchers, C. (2017): Aus Erfahrungen lernen: Evaluierung von Grubenwasseranstiegsprozessen zur Verbesserung zukünftiger Prognosen.  17. Altbergbau-Kolloquium – Tagungsband. – p. 259–273, 6 fig., 1 tab.; Freiberg (Glückauf).
  • 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 Ecomomy I. – p. 132–139; Lappeenranta (Lappeenranta University of Technology).
  • Wolkersdorfer, Ch., More, K. & Lupankwa, M. (2017): Analoge Modellierung von Tomahügeln [An analogue Toma Hill Model]. Paper presented at the Geoforum Umhausen, Umhausen. – p. 61–69, 3 fig., 2 tab; additional material: video 1, video 2, video 3.
  • Wolkersdorfer, Ch., Sartz, L., Sillanpää, M. & Häkkinen, A.(eds.) (2017): IMWA 2017 – Mine Water & Circular Ecomomy :  I – II. – 1328 p.,  Lappeenranta (Lappeenranta University of Technology).
  • 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 Ecomomy I. – p. 109–116; Lappeenranta (Lappeenranta University of Technology).

2016

  • Atiba-Oyewoa, O., Onyango, M. S. & Wolkersdorfer, Ch. (2016): Application of banana peels nanosorbent for the removal of radioactive minerals from real mine water. – J. Environ. Radioact. 164:369–376: 11 fig., 5 tab.; doi:10.1016/j.jenvrad.2016.08.014.
  • Florence, K., Sapsford, D. J., Johnson, D. B., Kay, C. M. & Wolkersdorfer, Ch. (2016): Iron mineral accretion from acid mine drainage and its application in passive treatment. – Environ. Technol. 37(11): 1428–1440; 7 fig., 2 tab.; doi:10.1080/09593330.2015.1118558.
  • Huisamen, A. & Wolkersdorfer, Ch. (2016): Modelling the Hydrogeochemistry of Decommissioned Opencast Coal Mines. – In: Drebenstedt, C. & Paul, M.: IMWA 2016 – Mining Meets Water – Conflicts and Solutions, Leipzig/Germany: 1205–1211; 3 fig., 2 tab.
  • Huisamen, A. & Wolkersdorfer, Ch. (2016): Modelling the Hydrogeochemical Evolution of Mine Water in a Decommissioned Opencast Coal Mine. –Int. J. Coal Geol. 164: 3–12; 10 fig., 2 tab.; doi:10.1016/j.coal.2016.05.006.
  • Lopes, D. V., Sillanpää, M. & Wolkersdorfer, Ch. (2016): Nitrate reduction in real mine water using zero-valent iron (ZVI) and iron waste. – In: Drebenstedt, C. & Paul, M.: IMWA 2016 – Mining Meets Water – Conflicts and Solutions, Leipzig/Germany: 914–919; 5 fig., 1 tab.
  • Nariyan, E., Sillanpää, M. & Wolkersdorfer, Ch. (2016): Cadmium removal from real mine water by electrocoagulation. – In: Drebenstedt, C. & Paul, M.: IMWA 2016 – Mining Meets Water – Conflicts and Solutions, Leipzig/Germany: 897–900; 1 fig., 2 tab.
  • Ruhland, G. & Wolkersdorfer, Ch. (2016): Waters of Deep Ground – Mine Water and Emotions. – In: Drebenstedt, C. & Paul, M.: IMWA 2016 – Mining Meets Water – Conflicts and Solutions, Leipzig/Germany: 87–84; 1 fig.
  • Soni, A. K. & Wolkersdorfer, Ch. (2016): Mine water: Policy perspective for improving water management in the mining environment with respect to developing economies. – Int. J. Min. Reclam. Environ. 30(2):115–127; doi:10.1080/17480930.2015.1011372.
  • 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 fig., 2 tab.; doi:10.1016/j.coal.2016.03.010.
  • Wolkersdorfer, Ch., Shongwe, L. & Schmidt, C. (2016): Can natural Stratification prevent Pollution by Acid Mine Drainage? – In: Drebenstedt, C. & Paul, M.: IMWA 2016 – Mining Meets Water – Conflicts and Solutions, Leipzig/Germany: 115–121.

2015

  • 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.:1–19; doi:10.1007/s12665-015-4186-0.
  • Florence, K., Sapsford, D. & Wolkersdorfer, Ch. (2015): Mechanisms of Iron Removal during Passive Treatment of AMD in a Vertical Flow Reactor. – In: Brown, A., et al. (eds): Agreeing on solutions for more sustainable mine water management. – p. 1–11 [electronic document]; Santiago/Chile (Gecamin).
  • Fyffe, L., Coetzee, H. & Wolkersdorfer, Ch. (2015): Cost effective screening of mine waters using accessible field test kits – Experience with a high school project in the Wonderfonteinspruit Catchment, South Africa. Paper presented at the Uranium – Past and Future Challenges, Freiberg; doi:10.1007/978-3-319-11059-2_64.
  • Hubert, E. & Wolkersdorfer, Ch. (2015): Establishing a conversion factor between electrical conductivity and total dissolved solids in South African mine waters. – Water SA, 41(4):490–500; doi:10.4314/wsa.v41i4.08.
  • Hünefeld, E. v. & Wolkersdorfer, Ch. (2015): Flow Measurement Using the Salt Dilution Method at Tweelopiespruit, Witwatersrand, South Africa. Paper presented at the Geoecology and Rational Surveillance: from Science to Practice, Belgorod, 6–10 April 2015. – p. 138–141, 1 fig.; Belgorod (Polyterra).
  • Oleksiienko, O., Meleshevych, S., Strelko, V., Wolkersdorfer, Ch., Tsyba, M. M., Kylivnyk, Y. M., Levchuk, I., Sitarz, M. & Sillanpää, M. (2015): Pore structure and sorption characterization of titanosilicates obtained from concentrated precursors by the sol-gel method. – RSC Advances 78(5): 72562–72571: 7 fig., 4 tab.; London, doi:10.1039/c5ra06985h.
  • 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).
  • Wolkersdorfer, Ch., Lopes, D. V. & Nariyan, E. (2015 – in print): Intelligent Mine Water Treatment – Recent International Developments. – In: Paul, M. (ed) Sanierte Bergbaustandorte im Spannungsfeld zwischen Nachsorge und Nachnutzung – WISSYM 2015. – Chemnitz (Wismut GmbH).

2014

  • 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.
  • Coldewey, W. G. & Wolkersdorfer, Ch. (2014): Professor Dr. Walter Semmler: A German Mine Water Pioneer. – Mine Water Environ., 33(4):372–375, 3 fig.; doi:10.1007/s10230-014-0301-9.
  • Figueroa, L. & Wolkersdorfer, Ch. (2014): Electrochemical Recovery of Metals in Mining Influenced Water: State of the Art. – In: Sui, W., Sun, Y. & Wang, C. (eds): An Interdisciplinary Response to Mine Water Challenges. – p. 627--631, 2 fig.; Xuzhou (International Mine Water Association).

2013

  • Geller, W., Schultze, M., Kleinmann, R. & Wolkersdorfer, Ch. (eds)(2013): Acidic Pit Lakes – The Legacy of Coal and Metal Surface Mines: Environmental Science and Engineering. – 212 fig., 66 tab.; Heidelberg (Springer).
  • Hofmann, J. & Wolkersdorfer, Ch. (2013): Der historische Bergbau im Montafon: Montafoner Schriftenreihe 24. – S. 1–150, 23 fig., 2 tab.; Schruns (Stand Montafon).
  • Rapantová, N., Wolkersdorfer, Ch., Krzeszowski, Ś. & Grmela, A. (2013): Methodology of Quantitative Assessment of Mine Water Inflows. – In: Brown, A., Figueroa, L. & Wolkersdorfer, Ch.: Reliable Mine Water Technology I. – S. 181–187, 1 fig., 3 tab.; Denver (Publication Printers).
  • Wolkersdorfer, Ch. (2013): Grubenwasserreinigung – Verfahren und Vorgehensweisen. – Auftraggeber: Sächsisches Landesamt für Umwelt Landwirtschaft und Geologie. – 198 p., 73 fig., 20 tab.; Pretoria (Tshwane University of Technology).
  • Wolkersdorfer, Ch. (2013): Management von Grubenwasser 3.0 – Blick in die Zukunft. – Wiss. Mitt.: 105–113, 1 fig.; Freiberg.
  • Wolkersdorfer, Ch. & Baierer, C. (2013): Improving Mine Water Quality by Low Density Sludge Storage in Flooded Underground Workings. – Mine Water and the Environment, 32 (1): 3–15, 10 fig., 4 tab.; Heidelberg. doi:10.1007/s10230-012-0204-6
  • Wolkersdorfer, Ch. & Bantele, M. (2013): Die Oberbayerischen Pechkohlenmulde – Hydrogeochemische Untersuchungen der Grubenwässer. – Grundwasser, 18(3): 185–196, 5 fig., 3 tab.; Heidelberg. doi:10.1007/s00767-013-0230-8
  • Wolkersdorfer, Ch., Komischke, H., Pester, S. & Hasche-Berger, A. (2013): Hydrodynamics in a flooded underground limestone mine. – In: Brown, A., Figueroa, L. & Wolkersdorfer, Ch.: Reliable Mine Water Technology II. – S. 1165–1172, 5 fig., 1 tab.; Denver (Publication Printers).

2012

  • Hancock, S. & Wolkersdorfer, Ch. (2012): Renewed Demands for Mine Water Management. – Mine Water and the Environment, 31(2): 147–158, 5 fig., 1 tab; Heidelberg. doi: 10.1007/s10230-012-0176-6
  • Jarvis, A. P., Alakangas, L., Azzie, B., Lindahl, L., Loredo, J., Madai, F., Walder, I. F. & Wolkersdorfer, Ch. (2012): Developments and Challenges in the Management of Mining Wastes and Waters in Europe. – 3 fig., 4 tab.; Ottawa (ICARD Proceedinsgs 2012).
  • Rapantová, N., Krzeszowski, S., Grmela, A. & Wolkersdorfer, Ch. (2012): Quantitative Assessment of Mine Water Sources based on the General Mixing Equation and Multivariate Statistics. – Mine Water and the Environment: 6 fig., 7 tab.; Heidelberg. doi:10.1007/s10230-012-0192-6
  • Wolkersdorfer, Ch. (2012): Getting rid of chemical analysis – Mine water management with indicator parameters. – In: McCullough, C. D., Lund, M. A. & Wyse, L.: International Mine Water Association Symposium. – 505–512, 4 fig., 1 tab.; Bunbury (Edith Cowan University).
  • Wolkersdorfer, Ch. (2012): Wood: Disasters and Minewater (Book Review). – Mine Water Environ. 31(3): 233–235; Heidelberg; doi:10.1007/s10230-012-0195-3.
  • Wolkersdorfer, Ch. & LeBlanc, J. (2012): Regulations, Legislation, and Guidelines for Artificial Surface Water and Groundwater Tracer Tests in Canada. – Water Quality Research Journal of Canada, 47(1): 42–55, 1 fig.; Gloucester. doi:10.2166/wqrjc.2012.042

2011

  • Alakangas, L., Azzie, B., Jarvis, A. P., Lindahl, L.-A., Loredo, J., Madai, F., Walder, I. & Wolkersdorfer, Ch. (2011): PADRE-Partnership for Acid Drainage Remediation in Europe. – In: Rüde, T., Freund, A. & Wolkersdorfer, Ch.: Mine Water – Managing the Challenges – 11th International Mine Water Association Congress. – p. 675–676; 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 and the Environment, 30(2), 6 fig., 1 tab.; Heidelberg. doi:10.1007/s10230-011-0147-3
  • Wolkersdorfer, Ch. (2011): Mine Water Discharges of the Southern Bavarian Pitch Coal District. – In: Rüde, T., Freund, A. & Wolkersdorfer, Ch.: Mine Water – Managing the Challenges. – p. 639–643; Aachen (RWTH).
  • 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, 2 fig., Chemnitz (Wismut GmbH).
  • Wolkersdorfer, Ch., MacSween, J. (2011): A 100 hour pump test in the 1B mine pool of the Sydney Coal Field, Nova Scotia, Canada. – In: Rüde, T., Freund, A. & Wolkersdorfer, Ch.: Mine Water – Managing the Challenges. – p. 643–647; Aachen (RWTH).
  • Rüde, T. R., Freund, A. & Wolkersdorfer, Ch. (eds.; 2011): Mine Water – Managing the Challenges – Proceedings of the 11th IMWA Congress. – 649 p.; Aachen (RWTH).

2010

  • 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.: Mine Water and Innovative Thinking. – S. 295–299; Sydney, NS (Cape Breton University Press).
  • Wolkersdorfer, Ch. & Freund, A. (eds.; 2010): Mine Water and Innovative Thinking – Proceedings of the IMWA 2010 Symposium. – 680 S.; Sydney, NS (Cape Breton University Press, ISBN 978-1-897009-47-5).

2009

  • Altermann, W., Drobek, T., Frei, M., Heckl, W. M., Stark, R. W., Strobel, J. & Wolkersdorfer, Ch. (2009): Nanomorphology of pore space and cement mineralogy in sandstones: Preliminary results and progress of the NanoPorO project. – Geotopschutz und seine rechtlichen Grundlagen 63: 178; Hannover.
  • Altermann, W., Heckl, W. M., Stark, R. W. & Wolkersdorfer, Ch. (2009): Investigations of nanoproperties of pore-space in sedimentary rocks. – In:  3rd Internat. Conf. on Geo-resources in the Middle East and North Africa (GRMENA III), Cairo: 18–19.
  • Drobek, T., Altermann, W., Frei, M., Heckl, W. M., Kantioler, M., Müller, W., Stark, R. W., Strobel, J. & Wolkersdorfer, Ch. (2009): NanoPorO – Nano-Structure and Wetting Properties of Sedimentary Grains and Pore-Space Surface: Grain Mineralogy and Pore Morphology. – Geotechnologien – Science Report 16: 65-75; 9 fig.; Potsdam.
  • Jarvis, A. P. & Wolkersdorfer, Ch. (2009): Acid and metalliferous drainage remediation: Legislative drivers, and research and development activities in Europe. – p. 1–7 [CD-ROM], 2 tab.; Skellefteå (Proceedings, Securing the Future 2009 & 8th ICARD).
  • Hanneberg, A., Simon, P. & Wolkersdorfer, Ch. (2009): Galmei und schöne Wulfenite: Der Blei-Zink-Bergbau rund um den Fernpaß in Tirol. – Lapis, 34 (4): 20–31, 32. fig.; München.
  • 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: Proceedings, International Mine Water Conference. – p. 823–827, 3 fig., 1 tab; Pretoria (Document Transformation Technologies).

2008

  • Altermann, W., Heckl, W. M., Stark, R. W., Strobel, J. & Wolkersdorfer, Ch. (2008): Nano-structure and Wetting Porperties of Sedimentary Grains and Pore-Space Surface (NanoPorO). – Geotechnologien – Science Report 12: 58-69; Potsdam.
  • Wolkersdorfer, Ch. (2008): Water Management at Abandoned Flooded Underground Mines: Fundamentals, Tracer Tests, Modelling, Water Treatment. – 465 p., 126 fig., 34 tab.; Heidelberg (Springer).
  • Wolkersdorfer, Ch. & Kubiak, C. (2008): Low Density Sludge Storage in a flooded Underground Mine. – In: Rapantova, N. & Hrkal, Z.: Mine Water and the Environment. – S. 51–54, 1 fig., 1 tab.; Ostrava (VSB – Technical University of Ostrava).
  • Wolkersdorfer, Ch. & Kubiak, C. (2008): Low Density Sludge Storage in the Flooded Straßberg/Harz Underground Mine. – Wissenschaftliche Mitteilungen, 37: 149–160, 9 fig., 2 tab.; Freiberg.

2007

  • Baumbach, H., Volkmann, H. K. M. & Wolkersdorfer, Ch. (2007): Schwermetallrasen auf Hüttenstäuben am Weinberg bei Hettstedt-Burgörner (Mansfelder Land) – Ergebnis jahrhundertelanger Kontamination und Herausforderung für den Naturschutz. – Hercynia N.F., 40:87-109, 3 fig., 6 tab.; Leipzig.
  • Merkel, B. J., Schaeben, H., Wolkersdorfer, Ch. & Hasche-Berger, A. (eds..; 2007): Behandlungstechnologien für bergbaubeeinflusste Wässer / GIS – Geowissenschaftliche Anwendungen und Entwicklungen. – Wissenschaftliche Mitteilungen, 35: 1-276, 182 fig., 46 tab.; Freiberg.
  • Wolkersdorfer, Ch., Göbel, J., Hasche-Berger, A. & Hanneberg, A. (2007): Führer zum Montan-Wanderweg Silberleithe. – 79 p., 128 fig.; Biberwier (Bergwerksverein Silberleithe Tirol).
  • Wolkersdorfer, Ch., Neumann, C. & Hasche-Berger, A. (2007): Hydrodynamics of the flooded Freiberg/Saxony Underground Mine. – In: Cidu, R. & Frau, F.: Water in Mining Environments. – S. 117-121, 3 fig., 1 tab.; Cagliari (Mako Edizioni).
  • Wolkersdorfer, Ch., Neumann, C. & Hasche-Berger, A. (2007): Tracer Tests in the flooded Himmelfarth Fundgrube Underground Mine (Freiberg/Saxony). – Wissenschaftliche Mitteilungen, 35: 157-162, 3 fig., 1 tab.; Freiberg.

2006

  • Hasche-Berger, A., Wolkersdorfer, Ch. & Simon, J. (2006): Laborexperimente als Grundlage für ein RAPS-System (Reducing and Alkalinity Producing System). – Wissenschaftliche Mitteilungen, 31: 37-45, 14 fig., 3 tab.; Freiberg.
  • Merkel, B. J., Schaeben, H., Wolkersdorfer, Ch. & Hasche-Berger, A. (eds.) (2006): Behandlungstechnologien für bergbaubeeinflusste Wässer GIS – Geowissenschaftliche Anwendungen und Entwicklungen. – Wiss. Mitt. 31: 1-348; 236 fig., 50 tab.
  • Schipek, M., Graupner, B., Merkel, B., Wolkersdorfer, Ch. & Werner, F. (2006): Neutralisationspotential von Flugaschen – Restseesanierung Burghammer. – Wissenschaftliche Mitteilungen, 31: 125-132, 6 fig., 3 tab.; Freiberg.
  • Unger, Y. & Wolkersdorfer, Ch. (2006): Sideritbildung in Tagebaurestseen – Mögliche Sanierungsstrategie des Restlochs Spreetal Nordost. – Wissenschaftliche Mitteilungen, 31: 119-124, 2 fig., 1 tab.; Freiberg.
  • Werner, F., Graupner, B., Merkel, B. & Wolkersdorfer, Ch. (2006): Assessment of a Treatment Scheme for Acidic Mining Lakes Using CO2 and Calcium Oxides to Precipitate Carbonates: ICARD 2006 7. – S. 2344-2353 [CD-ROM], 6 fig., 2 tab.; St. Louis (Proceedings, International Conference of Acid Rock Drainage [ICARD]).
  • Wolkersdorfer, Ch. (2006): Wasser, Quell des Lebens – Hydrogeologische Untersuchungen in Troia. – In: Korfmann, M. O.: Troia Archäologie eines Siedlungshügels und seiner Landschaft. – S. 329-336, 7 fig.; Mainz (Zabern).
  • Wolkersdorfer, Ch. (2006): Water Management at Abandoned Flooded Underground Mines – Fundamentals – Tracer Tests – Modelling – Water Treatment. – 348 p., 123 fig., 34 tab.; Freiberg (unpubl. Habilitation Thesis TU Bergakademie Freiberg).
  • Wolkersdorfer, Ch. (2006): Acid Mine Drainage Tracer Tests: ICARD 2006 7. – S. 2490-2501 [CD-ROM], 5 fig.; St. Louis (Proceedings, International Conference of Acid Rock Drainage [ICARD]).
  • Wolkersdorfer, Ch., Younger, P. L. & Bowell, R. (2006): PADRE – Europäische Partnerschaft für die Sanierung saurer Grubenwässer (Partnership for Acid Drainage Remediation in Europe). – Wissenschaftliche Mitteilungen, 31: 213-217, 3 fig.; Freiberg.
  • Younger, P. L., Wolkersdorfer, Ch., Bowell, R. J. & Diels, L. (2006): Partnership for Acid Drainage Remediation in Europe (PADRE) – Building a better Future founded on Research and best Practice: ICARD 2006 7. – S. 2571-2574 [CD-ROM]; St. Louis (Proceedings, International Conference of Acid Rock Drainage [ICARD]).

2005

  • Hasche-Berger, A. & Wolkersdorfer, Ch. (2005): Pilot Scale RAPS-System in Gernrode/Harz Mountains. – In: Merkel, B. J. & Hasche-Berger, A.: Uranium in the Environment. – S. 317-328, 8 fig., 1 tab.; Heidelberg (Springer).
  • Merkel, B., Werner, F. & Wolkersdorfer, Ch. (2005): Carbon dioxide elimination by using acid mine lakes and calcium oxide suspensions (CDEAL). –Geotechnologien – Science Report, 6: 4--12, 1 fig., 1 tab.
  • Wolkersdorfer, Ch. (2005): Geologische Verhältnisse des Montafons und angrenzender Gebiete. – In: Rollinger, J. M., Rollinger, R. & Rudigier, A.: Montafon: Mensch – Geschichte – Umwelt 1. – S. 25-55, 41 fig., 1 tab.; Schruns (Eigenverlag Stand Montafon).
  • Wolkersdorfer, Ch. (2005): Mine water tracer tests as a basis for remediation strategies. – Chem. Erde – Geochemistry, 65: 65-74, 3 fig., 1 tab.; Amsterdam.
  • Wolkersdorfer, Ch. (2005): Mine Water Management and the Water Framework Directive. – S. 1-8 (CD), 3 fig., 1 tab.; Nancy (Proceedings, Post-Mining 2005).
  • Wolkersdorfer, Ch., Hasche, A., Göbel, J. & Younger, P. L. (2005): Tracer Test in the Bowden Close Passive Treatment System (UK) – Preliminary Results. – Wissenschaftliche Mitteilungen, 28: 87-92, 7 fig., 1 tab.; Freiberg.
  • Wolkersdorfer, Ch. & Merkel, B. (2005): The flooded Freiberg/Sachsen Mining District – Hydrogeochemistry, Hydrodynamics and Environmental Impacts. – In: Loredo, J. & Pendás, F.: Mine Water 2005 – Mine Closure. – S. 185-187, 1 fig., 1 tab.; Oviedo (University of Oviedo).

2004

  • ERMITE Consortium, Younger, P. L. & Wolkersdorfer, Ch. (2004): Mining Impacts on the Fresh Water Environment: Technical and Managerial Guidelines for Catchment Scale Management. – Mine Water Environ., 23(Supplement 1):S2–S80, 28 fig., 6 tab.; doi:10.1007/s10230-004-0028-0.
  • Hasche, A. & Wolkersdorfer, Ch. (2004): Mine Water Treatment with a Pilot Scale RAPS-System. – Wissenschaftliche Mitteilungen, 25: 93-99, 8 fig., 1 tab.; Freiberg.
  • Wolkersdorfer, Ch. (2004): Mine Water Literature in ISI’s Science Citation Index Expanded™. – Mine Water and the Environment, 23 (2): 96-99, 3 fig., 3 tab.; Berlin.
  • Wolkersdorfer, Ch. & Göbel, J. (2004): Hydrogeologie der Troianischen Landschaft – Eine Bestandsaufnahme. – Studia Troica 14: 157-167, 9 fig., 1 tab.; Mainz.
  • Wolkersdorfer, Ch., Göbel, J., Blume, C. & Weber, C. (2004): Hydrogeologische Probenahmestellen in der Troianischen Landschaft. – Studia Troica 14: 169-200, 19 fig., 2 tab.; Mainz.
  • Wolkersdorfer, Ch. & Hasche, A. (2004): Tracer Investigations in flooded mines – The Straßberg/Harz Multitracer Test: Conference Papers 35. – S. 45-56, 5 fig., 5 tab.; Wien (Umweltbundesamt).
  • Wolkersdorfer, Ch. & Wackwitz, T. (2004): Antimony Anomalies around abandoned Silver Mines in Tyrol/Austria. – In: Younger, P.: Proceedings International Mine Water Association Symposium. – S. 161-67, 4 fig., 1 tab.; Heidelberg (Springer).

2003

  • Wolkersdorfer, Ch., Blume, C. & Weber, C. (2003): Trace Elements in the Waters of Troy. – Wissenschaftliche Mitteilungen, 24: 91-95, 4 fig.; Freiberg/Sachsen.
  • Wolkersdorfer, Ch. & Göbel, J. (2003): Wasser für Troja oder Hektors Wasserbergwerk?– In: Reger, K.: 10 Jahre – Besucherbergwerk Grube Wohlfahrt. – S. 150-154, 7 fig.; Rescheid (Tagungsband – 6. Internationaler Bergbau-Workshop).
  • 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.: 3. Altbergbau Kolloquium. – S. 376-381, 1 fig., 1 tab.; Essen (Glückauf).
  • Wolkersdorfer, Ch., Tamme, S. & Hasche, A. (2003): Natural attenuation of iron rich mine water by a surface brook. – In: Nel, P. J. L.: Mine Water and the Environmental. – S. 433-439, 7 fig.; Johannesburg (Proceedings 8th International Mine Water Association Congress).

2002

  • Hebert, D., Merkel, B. & Wolkersdorfer, Ch. (2002): Isotope und Tracer in der Wasserforschung. – Wissenschaftliche Mitteilungen, 19: 1-111, 78 fig., 8 tab.; Freiberg/Sachsen.
  • Kroll, A., Amezaga, J. M., Younger, P. L. & Wolkersdorfer, Ch. (2002): Regulation of Mine Waters in the European Union: Contribution of Scientific Research to Policy Development. – Mine Water and the Environment, 21 (4): , 1 tab.; Berlin, doi:10.1007/s102300200043.
  • Merkel, B., Planer-Friedrich, B. & Wolkersdorfer, Ch. (2002): Uranium in the Aquatic Environment, mit CD-ROM. – 1112 p., 604 fig.; Heidelberg (Springer).
  • Schmieder, A., Zöldföldi, J., Wolkersdorfer, Ch., Kleinmann, B. & Balázs, K. (2002): Dr. Zsolt Kesserû (1934-2001). – Mine Water and the Environment, 21 (1): , 1 fig.; Berlin.
  • Wolkersdorfer, Ch. (2002): Rare Earth Elements (REEs) as Natural Tracers in Mine Waters. – In: Merkel, B., Planer-Friedrich, B. & Wolkersdorfer, Ch.: Uranium in the Aquatic Environment. – S. 967-974, 2 fig., 1 tab.; Heidelberg (Springer).
  • Wolkersdorfer, Ch. (2002): Mine water tracing. – Geological Society Special Publication, 198: 47-61, 5 fig., 6 tab.; London.
  • Wolkersdorfer, Ch., Feldtner, N. & Trebušak, I. (2002): Mine Water Tracing – A Tool for Assessing Flow Paths in Flooded Underground Mines. – Mine Water and the Environment, 21 (1): 7-14, 3 fig., 3 tab.; Berlin.
  • 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. – In: Federal Environment Agency Austria. – S. 151-159, 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. – Wissenschaftliche Mitteilungen, 19: 37-43, 4 fig., 1 tab.; Freiberg/Sachsen.
  • Wolkersdorfer, Ch. & Younger, P. L. (2002): Passive Grubenwassereinigung als Alternative zu aktiven Systemen. – Grundwasser, 7 (2): 67-77, 7 fig., 2 tab.; Heidelberg.

2001

  • Wolkersdorfer, Ch. (2001): Tracer Tests in Flooded Underground Mines. – In: Seiler, K.-P. & Wohnlich, S.: New Approches Characterizing Groundwater Flow 1. – S. 229-233, 4 fig., 3 tab.; Rotterdam (Balkema).
  • Wolkersdorfer, Ch. & Hasche, A. (2001): Tracer Test in the abandoned Fluorspar Mine Straßberg/Harz Mountains, Germany. – Wissenschaftliche Mitteilungen, 16: 57-67, 5 fig., 5 tab.; Freiberg.
  • Wolkersdorfer, Ch. & Hasche, A. (2001): Tracer Test in the abandoned Fluorspar Mine Straßberg/Harz Mountains, Germany. – 5 fig., 5 tab.; Belo Horizonte (Proceedings, IMWA Symposium Belo Horizonte).

2000

  • Sauter, M. & Wolkersdorfer, Ch. (2000): Neues EU-Projekt zur Sanierung von Grubenwässern in Freiberg und Jena. – Grundwasser, 5 (3): 147-148; Berlin.
  • Wolkersdorfer, Ch. (2000): Bergbau an der Silberleithe – Geschichte, Mineralisation und Entstehung der Blei-Zink-Vorkommen im westlichen Mieminger Gebirge. – 2. edn., 89 p., 74 fig., 6 tab.; Freiberg (Eigenverlag Wolkersdorfer).

1999

1998

  • Feldtner, N. & Wolkersdorfer, Ch. (1998): LydiA – Tracertechnik für Grubenwasser. – Proceedings Uranium-Mining and Hydrogeology II, Freiberg, Germany; GeoCongress, 5/2: 107–108; Köln.
  • Wolkersdorfer, Ch. (1998): Vorschlag für eine neue Zitierweise in den Geowissenschaften. – Nachr. Dt. Geol. Ges., 64: 32-34; Hannover.
  • Wolkersdorfer, Ch. & Thiem, G. (1998): Land Subsidence in north-eastern Saxony (Lusatia)/Germany due to Ground Water Withdrawal.– In: Nel, P.: Mine Water and Environmental Impacts 2. – S. 259–270, 3 fig., 4 tab.; Johannesburg (Proceedings International Mine Water Association Symposium).

1997

  • Wolkersdorfer, Ch. (1997): Literaturverwaltung mit VCH Biblio 3.0. – Grundwasser, 2 (2): 96—97; Heidelberg.
  • Wolkersdorfer, Ch., Feldtner, N. & Trebušak, I. (1997): LydiA – A new Method for tracing Mine Water. – In: International Mine Water Association: Mine Water and the Environment 1. – S. 43–55, 3 fig., 2 tab.; Ljubljana (Proceedings, 6th International Mine Water Congress, Bled, Slovenia).
  • Wolkersdorfer, Ch., Trebušak, I. & Feldtner, N. (1997): Development of a Tracer Test in a flooded Uranium Mine using Lycopodium clavatum. – In: Kranjc, A.: Tracer Hydrology 97 7. – S. 377–385, 4 fig., 2 tab.; Rotterdam (Balkema).

1996

  • Reik, G. & Wolkersdorfer, Ch. (1996): Hydrogeochemische und hydrodynamische Untersuchungen zur Flutungsprognose eines Uranbergwerkes. – Schriftenreihe der Deutschen Geologischen Gesellschaft (1): 66–67; Hannover.
  • Wolkersdorfer, Ch. (1996): Hydrogeochemical investigations of an abandoned uranium mine in the Erzgebirge/Germany. – Applied Geochemistry, 11 (1 & 2): 237–241, 4 fig., 2 tab.; Oxford u.a..
  • Wolkersdorfer, Ch. (1996): Hydrogeochemische Entwicklung des Grubenwassers im Uranbergwerk Niederschlema/Alberoda. – In: Feldmann, L. & Quade, H.: Der Untergrund der Norddeutschen Tiefebene 197. – S. 86–87; Clausthal-Zellerfeld (Gesellschaft für Geowissenschaften).
  •  Wolkersdorfer, Ch. (1996): Hydrogeochemische Verhältnisse im Flutungswasser eines Uranbergwerks Die Lagerstätte Niederschlema/Alberoda.– Clausthaler Geowissenschaftliche Dissertationen, 50: 1–216, 131 fig., 61 tab.; Clausthal (English version link).

1995

  • Wolkersdorfer, Ch. (1995): Flooding of an Abandoned Uranium Mine – A Geohydrochemical Case Study in the Saxonian Erzgebirge. – Proceedings Uranium-Mining and Hydrogeology, Freiberg, Germany; GeoCongress, 1: 573; Freiberg.
  • Wolkersdorfer, Ch. (1995): Die Flutung des ehemaligen Uranbergwerks Niederschlema/Alberoda der SDAG Wismut. – Z. geol. Wiss., 23 (5/6): 795–808, 4 fig., 6 tab.; Berlin.
  • Wolkersdorfer, Ch. (1995): Reuter, Klengel & Pasek – Ingenieurgeologie (Rezension). – Chemie der Erde, 55 (1): 16.

1994

  • Wolkersdorfer, Ch. (1994): Rubus chamaemorus (Multebeere) als Zeigerpflanze am Sæterfjell (Nordland/Norwegen). – Aufschluss, 45 (2): 82–86, 2 fig., 2 tab.; Heidelberg.
  • Wolkersdorfer, Ch. (1994): Changes in mine water geohydrology during the flooding of an abandoned uranium mine in the Erzgebirge/Saxonia/Germany. – Abstracts Geological Society of Australia. 12th Australian Geological Convention, Perth, 37: 470, 1 tab.; Perth.
  • Wolkersdorfer, Ch. (1994): Changes in mine water hydrology during the flooding of an abandoned uranium mine in the Erzgebirge/Saxonia/Germany. – Proceedings, 5th International Mine Water Congress, Nottingham, U.K., 1: 43–55, 8 fig., 5 tab.; Nottingham.
  • Wolkersdorfer, Ch. (1994): Changes in mine water hydrology during the flooding of an abandoned uranium mine in the Erzgebirge/Saxonia/Germany. – Abstracts of the 3rd International Symposium on Environmental Geochemistry, Kraków: 447–448, 1 fig., 1 tab.; Kraków.

1993

  • Schönfeld, M. & Wolkersdorfer, Ch (1993): The Tectonostratigraphy of the Velfjord-Region, Helgeland Nappe, Uppermost Allochthon, Nordland/Norway – Map sheet Velfjord  1:50 000, 1825-4. – unpublished paper, posthum compiled: 19 p, 1 fig., 1 tab.; Clausthal.
  • Wolkersdorfer, Ch. (1993/94): Hydrogeochemical Investigations of Uranium bearing Mine Water. – Tips & Trends (Jandel Scientific 40699 Erkrath) (3/1): 6–7, 3 fig.; Erkrath.
  • Wolkersdorfer, Ch. (1993): Aktuelle Probleme der Wehrgeologie. – Nachr. Dt. Geol. Ges., 50: 146-149, 2 fig.; Hannover.
  • Wolkersdorfer, Ch. (1993): Uranbergbau der ehemaligen SDAG Wismut. – Banziana, 2: 16-17, 4 fig.; Hanns-Seidel-Stiftung 80608 München.
  • Wolkersdorfer, Ch. (1993): Uranbergbau der ehemaligen SDAG Wismut, Clausthaler Aktivitäten bei Problemlösungen. – Mitteilungsblatt TU Clausthal, 75: 59–61, 4 fig.; Clausthal.

1992

  • Wolkersdorfer, Ch. (1992): Sanierung der Wismut-Uranbergwerke. – Wasser, Luft und Boden, 6: 28-29, 1 fig.

1991

  • Wolkersdorfer, Ch. (1991): Von Wendelstein nach Wendelstein. – Das Magazin für junge Soldaten, 6 (6): 22–23, 2 fig.; Hamburg.
  • Wolkersdorfer, Ch. (1991): Aufschluß an einem Tomahügel des Fernpaßbergsturzes/Tirol. – Jb. Geol. B.-A., 134 (2): 439–441, 2 fig.; Wien.
  • Wolkersdorfer, Ch. (1991): Geschichte des Bergbaues im westlichen Mieminger Gebirge/Tirol. – Aufschluss, 42 (6): 359–379, 18 fig.; Heidelberg.

1990

  • Wolkersdorfer, Ch. (1990): Ehrwaldit vor 125 Jahren entdeckt. – Außerferner Nachrichten, 7.6.1990: 4, 1 fig.; Reutte.

1989

  • Wolkersdorfer, Ch. (1989): Zur Geschichte, Mineralisation und Genese des ehemaligen Bergbaues auf die Blei-Zink Vorkommen SE des Ehrwalder Talkessels (Tirol) mit einer geologischen Kartierung (M 1:10.000) im westlichen Mieminger Gebirge. – 169 p., 85 fig., 15 tab., 3 Beil.; Clausthal (Unveröff. Dipl.-Arb. TU Clausthal).

Kontakt

Prof. Dr Christian Wolkersdorfer

Deutsche Adresse Südafrikanische Adresse

christian@wolkersdorfer.info
www.wolkersdorfer.info

IMPRESSUM

Rechtliches

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