Delineation of the spatial variability of carbonate and sulfide minerals in mine waste-rock piles using geostatistics

[Display omitted] •Geostatistical analyses of C and S contents in waste-rock piles at three mine sites.•Log-normal distributions of C and S contents persist in waste-rock piles at different scales.•Carbonate and sulfide minerals in waste-rock piles are randomly distributed.•Hotspots of greater acid...

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Bibliographic Details
Published in:Minerals engineering 2023-01, Vol.191, p.107978, Article 107978
Main Authors: Bao, Zhongwen, Wilson, David, Bain, Jeff, Ptacek, Carol J., Blowes, David W.
Format: Article
Language:English
Subjects:
Carbon and sulfur contents
Geostatistics
Log-normal distribution
Random heterogeneity
Waste rock
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Summary:[Display omitted] •Geostatistical analyses of C and S contents in waste-rock piles at three mine sites.•Log-normal distributions of C and S contents persist in waste-rock piles at different scales.•Carbonate and sulfide minerals in waste-rock piles are randomly distributed.•Hotspots of greater acid generation potential may exist randomly in waste-rock piles. Social and environmental consequences associated with sulfide-bearing mine wastes (i.e., waste rock and mill tailings) and acid mine drainage constitute growing threats to sustainable mining and development, biodiversity of ecosystems, and global water quality. Spatial heterogeneity of geochemically important parameters in waste-rock piles is well-known and is important to incorporate in environmental impact assessments; however, quantitative characterization of spatial heterogeneity remains under investigation. Here, we show the integrated results from trans-disciplinary waste-rock studies at three mine sites in northern Canada, conducted over the past 20 years. These studies focus on diverse projects, including an experimental-scale test pile study, characterization of medium-scale stockpiles, and an examination of an operational-scale pile. Through geostatistical analyses, we observed that spatial heterogeneity of geochemically important parameters, including the abundances of carbonate and sulfide minerals, in field-scale waste-rock piles can be represented by random distributions using log-normal scaling. Our findings are foundational for forecasting waste-rock weathering and for environmental risk assessments, and can be applied to enhance the development of long-term waste-rock management strategies and improve reclamation measures of waste-rock piles throughout the world.
ISSN:0892-6875
1872-9444
DOI:10.1016/j.mineng.2022.107978