Citations (28)
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Read on this site (3)
Nazan Kuter, Zuhal Dilaver & Ebru Gül. (2014) Determination of suitable plant species for reclamation at an abandoned coal mine area. International Journal of Mining, Reclamation and Environment 28:5, pages 268-276.
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Tarek Hamade & Hani Mitri. (2013) Reliability-based approach to the geotechnical design of tailings dams. International Journal of Mining, Reclamation and Environment 27:6, pages 377-392.
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R. N. Kumar, C. D. McCullough & M. A. Lund. (2009) Water resources in australian mine pit lakes. Mining Technology 118:3-4, pages 205-211.
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Articles from other publishers (25)
Ihsan Noor, Yudi Firmanul Arifin, Bambang Joko Priatmadi & Akhmad Rizalli Saidy. (2023) Laboratory simulation of the swampy forest system for the passive treatment of acid mine drainage in coal mine reclamation areas. Scientific Reports 13:1.
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Bartosz Jawecki & Tomasz Kowalczyk. (2023) The Assessment of the Quality and Quantity of Water Retained in Closed Granite Quarries with the View to Mitigate the Effects of Droughts in Agriculture. Water 15:4, pages 782.
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Stefan ZerbeStefan Zerbe. 2023. Restoration of Ecosystems – Bridging Nature and Humans. Restoration of Ecosystems – Bridging Nature and Humans
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Bartosz Jawecki. (2022) The influence of Strzelin Quarry Lakes on small reservoir retention resources in the regional catchments. Scientific Reports 12:1.
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Stavros Triantafyllidis & Despoina Psarraki. (2020) Implementation of geochemical modeling in post-mining land uses, the case of the abandoned open pit lake of the Kirki high sulfidation epithermal system, Thrace, NE Greece. Environmental Earth Sciences 79:23.
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Cherie D. McCullough & Jerry Vandenberg. (2020) Studying Mine Pit Lake Systems Across Multiple Scales多尺度规模的矿坑湖系统研究Untersuchung von Bergbaufolgeseen in unterschiedlichen ModellmaßstäbenEstudio de sistemas de lagos de hoyos de minas a través de múltiples escalas. Mine Water and the Environment 39:2, pages 173-194.
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Thobeka Pearl Makhathini, Jean Mulopo & Babatunde Femi Bakare. (2020) Possibilities for Acid Mine Drainage Co-treatment with Other Waste Streams: A ReviewMöglichkeiten zur gemeinsamen Behandlung saurer Grubenwässer mit anderen Abfallströmen: Ein AusblickPosibilidades para el co-tratamiento del drenaje ácido de minas con otros desechos líquidos: un review酸性矿井废水与其它废物协同处理的前景: 综述. Mine Water and the Environment 39:1, pages 13-26.
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Bartosz Jawecki, Szymon Szewrański, Radosław Stodolak & Zhaolong Wang. (2019) The Use of Digital Terrain Models to Estimate the Pace of Filling the Pit of a Central European Granite Quarry with Water. Water 11:11, pages 2298.
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Odalys Rodríguez Gámez, Isabelle Laffont-Schwob, Pascale Prudent, Laurent Vassalo, Isabel Aguilera Rodrìguez, Rocio Pérez Macías, Marie-Eléonore Petit, Ana Teresa Acebal Ibarra, Véronique Masotti, Isabelle Perraud-Gaime & Arelis Abalos Rodríguez. (2019) Assessment of water quality from the Blue Lagoon of El Cobre mine in Santiago de Cuba: a preliminary study for water reuse. Environmental Science and Pollution Research 26:16, pages 16366-16377.
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Bartosz Jawecki, Paweł B. Dąbek, Katarzyna Pawęska & Xiangdong Wei. (2018) Estimating Water Retention in Post-mining Excavations Using LiDAR ALS Data for the Strzelin Quarry, in Lower Silesia用LiDAR ALS数据评价下西里西亚Strzelin采石场采后滞留水量Abschätzung des Wasserrückhaltevermögens von aufgelassenen Abbaubereichen mit LiDAR ALS Daten für den Strzelin Steinbruch in NiederschlesienEstimando la retención de agua en excavaciones post-minería usando datos LiDAR ALS para la cantera Strzelin, en baja Silesia. Mine Water and the Environment 37:4, pages 744-753.
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Cherie D. McCullough & Martin Schultze. (2018) Engineered river flow-through to improve mine pit lake and river values. Science of The Total Environment 640-641, pages 217-231.
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Jerry A. Vandenberg & Cherie D. McCullough. 2017. Spoil to Soil. Spoil to Soil
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R. Naresh Kumar, Cherie D. McCullough, Mark A. Lund & Santiago A. Larranaga. (2015) Assessment of factors limiting algal growth in acidic pit lakes—a case study from Western Australia, Australia. Environmental Science and Pollution Research 23:6, pages 5915-5924.
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C.D. McCullough. (2015) Consequences and opportunities from river breach and decant of an acidic mine pit lake. Ecological Engineering 85, pages 328-338.
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Nicholas J. Tucci & Christopher H. Gammons. (2015) Influence of Copper Recovery on the Water Quality of the Acidic Berkeley Pit Lake, Montana, U.S.A.. Environmental Science & Technology 49:7, pages 4081-4088.
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Bertram Boehrer, Uwe Kiwel, Karsten Rahn & Martin Schultze. (2014) Chemocline erosion and its conservation by freshwater introduction to meromictic salt lakes. Limnologica 44, pages 81-89.
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R. Naresh Kumar, Cherie D. McCullough & Mark A. Lund. (2013) Upper and Lower Concentration Thresholds for Bulk Organic Substrates in Bioremediation of Acid Mine DrainageObere und untere Schwellenwerte bei der Verwendung von organischem Substrat zur Bioremediation von saurem GrubenwasserUmbrales máximo y mínimo de concentración de sustancias orgánicas en la biorremediación de drenaje ácido de minas酸性矿山废水生物修复技术有机底物浓度的上限与下限研究. Mine Water and the Environment 32:4, pages 285-292.
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Cherie D. McCullough, Geneviève Marchand & Jörg Unseld. (2013) Mine Closure of Pit Lakes as Terminal Sinks: Best Available Practice When Options are Limited?Tagebauseen als endgültige Senke für Bergbauwässer nach Bergbauschließung: Die bestmögliche Praxis unter begrenzten Alternativen?Cierre de minas con lagos de pozos como terminales hidráulicos: La práctica más adecuada cuando las opciones están limitadas?坑后的坑湖作水文循点: 无的最佳?. Mine Water and the Environment 32:4, pages 302-313.
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J. Delgado-Martin, R. Juncosa-Rivera, I. Falcón-Suárez & J. Canal-Vila. (2013) Four years of continuous monitoring of the Meirama end-pit lake and its impact in the definition of future uses. Environmental Science and Pollution Research 20:11, pages 7520-7533.
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Cherie D. McCullough & Eddie J. B. van Etten. (2011) Ecological Restoration of Novel Lake Districts: New Approaches for New Landscapes. Mine Water and the Environment 30:4, pages 312-319.
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Cherie D. McCullough & Mark A. Lund. (2011) Bioremediation of Acidic and Metalliferous Drainage (AMD) through organic carbon amendment by municipal sewage and green waste. Journal of Environmental Management 92:10, pages 2419-2426.
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R. Naresh Kumar, Cherie D. McCullough & Mark A. Lund. (2011) How does storage affect the quality and quantity of organic carbon in sewage for use in the bioremediation of acidic mine waters?. Ecological Engineering 37:8, pages 1205-1213.
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Bernd LottermoserBernd G. Lottermoser. 2010. Mine Wastes. Mine Wastes
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Luke L. Neil, Cherie D. McCullough, Mark A. Lund, Louis H. Evans & Yuri Tsvetnenko. (2009) Toxicity of acid mine pit lake water remediated with limestone and phosphorus. Ecotoxicology and Environmental Safety 72:8, pages 2046-2057.
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C. D. McCullough, M. A. Lund & J. M. May. (2008) Field-scale demonstration of the potential for sewage to remediate acidic mine waters. Mine Water and the Environment 27:1, pages 31-39.
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