Tailings facility disclosures reveal stability risks

Tailings facility disclosures reveal stability risks

Abstract Tailings facility failures represent a significant risk to the environment and communities globally, but until now little data was available on the global distribution of risks and characteristics of facilities to ensure proper governance. We conducted a survey and compiled a database with...

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Main Authors: Daniel M. Franks, Martin Stringer, Luis A. Torres-Cruz, Elaine Baker, Rick Valenta, Kristina Thygesen, Adam Matthews, John Howchin, Stephen Barrie
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-84897-0
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spelling doaj-e2d30755e17242cfb6a265f1992d60a62021-03-11T12:11:38ZengNature Publishing GroupScientific Reports2045-23222021-03-011111710.1038/s41598-021-84897-0Tailings facility disclosures reveal stability risksDaniel M. Franks0Martin Stringer1Luis A. Torres-Cruz2Elaine Baker3Rick Valenta4Kristina Thygesen5Adam Matthews6John Howchin7Stephen Barrie8Sustainable Minerals Institute, The University of QueenslandW.H. Bryan Mining and Geology Research Centre, Sustainable Minerals Institute, The University of QueenslandSchool of Civil and Environmental Engineering, University of the WitwatersrandUNESCO Chair in Marine Science, The University of SydneyW.H. Bryan Mining and Geology Research Centre, Sustainable Minerals Institute, The University of QueenslandGRID ArendalInvestor Mining and Tailings Safety Initiative and Church of England Pensions Board, Church HouseInvestor Mining and Tailings Safety Initiative and Council On Ethics for the Swedish National Pension FundsInvestor Mining and Tailings Safety Initiative and Church of England Pensions Board, Church HouseAbstract Tailings facility failures represent a significant risk to the environment and communities globally, but until now little data was available on the global distribution of risks and characteristics of facilities to ensure proper governance. We conducted a survey and compiled a database with information on tailings facilities disclosed by extractive companies at the request of institutional investors. Despite limitations in the data, this information disclosure request represents the most comprehensive survey of tailings facilities ever undertaken. The compiled dataset includes 1743 tailings facilities and provides insights into a range of topics including construction method, stability, consequence of failure, stored volume, and the rate of uptake of alternative technologies to dewater tailings and reduce geotechnical risk. Our analysis reveals that 10 per cent of tailings facilities reported notable stability concerns or failure to be confirmed or certified as stable at some point in their history, with distinct trends according to construction method, governance, age, height, volume and seismic hazard. Controversy has surrounded the safety of tailings facilities, most notably upstream facilities, for many years but in the absence of definitive empirical data differentiating the risks of different facility types, upstream facilities have continued to be used widely by the industry and a consensus has emerged that upstream facilities can theoretically be built safely under the right circumstances. Our findings reveal that in practice active upstream facilities report a higher incidence of stability issues (18.3%) than other facility types, and that this elevated risk persists even when these facilities are built in high governance settings. In-pit/natural landform and dry-stack facilities report lower incidence of stability issues, though the rate of stability issues is significant by engineering standards (> 2 per cent) across all construction methods, highlighting the universal importance of careful facility management and governance. The insights reported here can assist the global governance of tailings facility stability risks.https://doi.org/10.1038/s41598-021-84897-0
collection DOAJ
language English
format Article
sources DOAJ
author Daniel M. Franks
Martin Stringer
Luis A. Torres-Cruz
Elaine Baker
Rick Valenta
Kristina Thygesen
Adam Matthews
John Howchin
Stephen Barrie
spellingShingle Daniel M. Franks
Martin Stringer
Luis A. Torres-Cruz
Elaine Baker
Rick Valenta
Kristina Thygesen
Adam Matthews
John Howchin
Stephen Barrie
Tailings facility disclosures reveal stability risks
Scientific Reports
author_facet Daniel M. Franks
Martin Stringer
Luis A. Torres-Cruz
Elaine Baker
Rick Valenta
Kristina Thygesen
Adam Matthews
John Howchin
Stephen Barrie
author_sort Daniel M. Franks
title Tailings facility disclosures reveal stability risks
title_short Tailings facility disclosures reveal stability risks
title_full Tailings facility disclosures reveal stability risks
title_fullStr Tailings facility disclosures reveal stability risks
title_full_unstemmed Tailings facility disclosures reveal stability risks
title_sort tailings facility disclosures reveal stability risks
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-03-01
description Abstract Tailings facility failures represent a significant risk to the environment and communities globally, but until now little data was available on the global distribution of risks and characteristics of facilities to ensure proper governance. We conducted a survey and compiled a database with information on tailings facilities disclosed by extractive companies at the request of institutional investors. Despite limitations in the data, this information disclosure request represents the most comprehensive survey of tailings facilities ever undertaken. The compiled dataset includes 1743 tailings facilities and provides insights into a range of topics including construction method, stability, consequence of failure, stored volume, and the rate of uptake of alternative technologies to dewater tailings and reduce geotechnical risk. Our analysis reveals that 10 per cent of tailings facilities reported notable stability concerns or failure to be confirmed or certified as stable at some point in their history, with distinct trends according to construction method, governance, age, height, volume and seismic hazard. Controversy has surrounded the safety of tailings facilities, most notably upstream facilities, for many years but in the absence of definitive empirical data differentiating the risks of different facility types, upstream facilities have continued to be used widely by the industry and a consensus has emerged that upstream facilities can theoretically be built safely under the right circumstances. Our findings reveal that in practice active upstream facilities report a higher incidence of stability issues (18.3%) than other facility types, and that this elevated risk persists even when these facilities are built in high governance settings. In-pit/natural landform and dry-stack facilities report lower incidence of stability issues, though the rate of stability issues is significant by engineering standards (> 2 per cent) across all construction methods, highlighting the universal importance of careful facility management and governance. The insights reported here can assist the global governance of tailings facility stability risks.
url https://doi.org/10.1038/s41598-021-84897-0
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