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Publikationen zum Thema Grubenwasser und Bergbau

Water Management at Abandoned Flooded Underground Mines – Fundamentals, Tracer Tests, Modelling, Water Treatment

Springer Heidelberg 2008

Acidic Pit Lakes – The Legacy of Coal and Metal Surface Mines

Springer Heidelberg 2013

Grubenwasserreinigung – Beschreibung und Bewertung von Verfahren

Springer Heidelberg 2020

2025

  • Mugova, E. & Wolkersdorfer, Ch. (2025): Understanding the influence of stratification for mine water management: a comparative study. – Nat. Sci. Reports, 15(1):2757, doi:10.1038/s41598-024-82293-y.
  •  Mugova, E., Wolkersdorfer, Ch. & Hahn, F. (2025): Exploring Geothermal Applications in Flooded Underground Mines with an Analogue Model Mine. Paper presented at the International Mine Water Association Conference – Time to Come, Braga, Portugal; Oviedo/Uviéu, Spain. – p. 28–33; Braga (International Mine Water Association).
  •  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., 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., 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.

2024

  • 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.
  • Mugova, E., Molaba, L. E. & Wolkersdorfer, Ch. (2024): Understanding the Mechanisms and Implications of the First Flush in Mine Pools: Insights from Field Studies in Europe’s Deepest Metal Mine and Analogue Modelling. – Mine Water Environ., 43(2):73–86, 12 Abb.; doi:10.1007/s10230-024-00969-3.
  •  Mugova, E. & Wolkersdorfer, Ch. (2024): Advancing sustainable mine water management through understanding stratification in flooded underground mines. Paper presented at the West Virginia Mine Drainage Task Force Symposium & 15th International Mine Water Association Congress, Morgantown, WV, USA. – p. 471–472, 1 Abb.; Morgantown (International Mine Water Association).
  • 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.
  • 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., 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).

2023

  • Burghardt, D., Coldewey, W. G., Melchers, C., Meßer, J., Paul, M., Walter, T., Wesche, D., Westermann, S., Wieber, G. & Wolkersdorfer, Ch. (2023): Praxisleitfaden Grubenwasser Teil 1: Beprobung und Vor-Ort-Untersuchung. – Schriftenreihe der Fachsektion Hydrogeologie e. V. in der DGGV e. V. – 4. – 67 p., Neustadt/Wstr. (Fachsektion Hydrogeologie in der DGGV).
  • 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.
  •  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, UK. – p. 371–375; (International Mine Water Association).
  • Wiltschka, K., Wolkersdorfer, Ch., Düring, 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 Abb., 2 Tab.; doi:10.1021/acsestwater.3c00179.
  • Wolkersdorfer, Ch. & Mugova, E. (2023): Untersuchungen zum Verständnis von Grubenflutung und der Barrierewirkung von Dichteschichtung. – 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, UK. – p. 540–544, 3 Abb., 1. Tab; (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, 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 IMWA 2022 – Reconnect, Christchurch. – p. 259–265, 5 Abb.; Christchurch (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.
  • Mugova, E. & Wolkersdorfer, Ch. (2022): Density Stratification and Double-Diffusive Convection in Mine Pools of Flooded Underground Mines – A Review. – Water Res., 214:118033, 6 Abb., 2 Tab.; doi:10.1016/j.watres.2021.118033.
  • 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, 10 fig., 5 tab.; doi:10.1007/s12665-022-10224-z.
  •  Mugova, E. & Wolkersdorfer, Ch. (2022): Insights into the First Flush Effect – The Flooded Underground Mine as a Chemical Reactor. Paper presented at the IMWA 2022 – Reconnect, Christchurch. – p. 305–310, 4 Abb.; Christchurch (International Mine Water Association).
  • Mugova, E. & Wolkersdorfer, Ch. (2022): Monitoring of Flooded Underground Mines – Using Mine Drainage Density Stratification as an Example. Paper presented at the 12th International Conference on Acid Rock Drainage (ICARD) 2022 VIRTUAL. – p. 846–852, 2 Abb., 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. – Aquat. Toxicol.,(251):106284, 2 Abb.; 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 IMWA 2022 – Reconnect, Christchurch. – p. 541–543, 1 Abb., 1 Tab.; Christchurch (International Mine Water Association).
  • 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. & 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).
  • 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).
  • 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.

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., 38:100974, 17 Abb., 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. Paper presented at the Mine Water Management for future Generations, Wales. – p. 365–367; (International Mine Water Association).
  •  Mugova, E. & Wolkersdorfer, Ch. (2021): Dewatering, Flooding and Stratification of the Nikolaus-Bader small-scale Gold Mining Shaft in Austria. Paper presented at the Mine Water Management for future Generations, Wales. – p. 393–397; (International Mine Water Association).
  • 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).
  • 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. & Melchers, C. (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. (2021): Digital technologies for mine water management. – Water & Sanitation Africa, 16(4):34–35.
  • 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.

2020

  • Fosso-Kankeu, E., Wolkersdorfer, Ch. & Burgess, J. (2020): Recovery of Byproducts from Acid Mine Drainage Treatment. – 462 p., Salem (Scrivener).
  • 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
  • Schneider, P. & Wolkersdorfer, Ch. (accepted): Dimensions of Water Management in the Extractive Industries. – In: Davis, C. & Rosenblum, E. (eds): Sustainable Use of Water by Industry: Perspectives, Incentives, and Tools. – London (IWA Publishing).
  • 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
  • Wolkersdorfer, Ch. (2020): Grubenwasserreinigung – Beschreibung und Bewertung von Verfahren [Mine Water Treatment – Description and Assessment of Methods]. – 310 p., 114 fig., 29 tab.; Heidelberg (Springer).
  • 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 Abb., 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).
  •  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. (in press): Grubenwasserchemie – Mit einem Fokus auf Grubenwassergeothermie. – Paper presented at the Möglichkeiten und Herausforderungen bei der Nutzung von Grubenwässern, Freiberg/Sachsen. – Freiberg (TU Bergakademie Freiberg).
  •  Wolkersdorfer, Ch. (2019): Grubenwasserreinigung – Verfahren und Vorgehensweisen. 2. Version – 291 S., 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. & 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

  •  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).
  •  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 S., 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

  • 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

  •  Wolkersdorfer, Ch. (2008): Water Management at Abandoned Flooded Underground Mines: Fundamentals, Tracer Tests, Modelling, Water Treatment. – 465 S., 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 S., 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): Water Management at Abandoned Flooded Underground Mines – Fundamentals – Tracer Tests – Modelling – Water Treatment. – 348 S., 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): 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

  •  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. & 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. & 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.
  • Merkel, B., Planer-Friedrich, B. & Wolkersdorfer, Ch. (2002): Uranium in the Aquatic Environment, mit CD-ROM. – 1112 S., 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. Aufl., 89 S., 74 fig., 6 tab.; Freiberg (Eigenverlag Wolkersdorfer).

1999

  • Reik, G. & Wolkersdorfer, Ch. (1999): Flutungsprognose eines Uranbergwerks – Hydrogeochemische und hydrodynamische Untersuchungen. – In: Gesellschaft für Umweltgeowissenschaften: Ressourcen-Umwelt-Management – Wasser, Boden, Sedimente. – S. 55-71, 5 fig., 5 tab.; Berlin u.a. (Springer).
  •  Wolkersdorfer, Ch. & Thiem, G. (1999): Ground Water Withdrawal and Land Subsidence in Northeastern Saxony (Germany). – Mine Water and the Environment, 18 (1): 81-92, 3 fig., 4 tab.; Lakewood, CO.

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. & 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., 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.

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.

1994

  • 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

  • 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): 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): Geschichte des Bergbaues im westlichen Mieminger Gebirge/Tirol. – Aufschluss, 42 (6): 359-379, 18 fig.; Heidelberg.

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 S., 85 fig., 15 tab., 3 Beil.; Clausthal (Unveröff. Dipl.-Arb. TU Clausthal).