Metal Mining’s Environmental Pressures: A Review and Updated Estimates on CO2 Emissions, Water Use, and Land Requirements

Tost, Michael; Bayer, Benjamin; Hitch, Michael; Lutter, Stephan; Moser, Peter; Feiel, Susanne

doi:10.3390/su10082881

Cited by 34 publications

(17 citation statements)

References 14 publications

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“…Millions of people in developing countries depend on artisanal and small-scale gold mining (ASGM) for their livelihoods. However, this activity comes at a price [3,4]. These activities are quite diverse, sometimes illegal or informal, often virtually tolerated by the authorities, and can be seasonal or year-round, long-term, or follow a boom-and-bust cycle.…”

Section: Introductionmentioning

confidence: 99%

Gold Mining in the Amazon Region of Ecuador: History and a Review of Its Socio-Environmental Impacts

Mestanza-Ramón

Cuenca-Cumbicus²,

D’Orio

et al. 2022

Land

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Artisanal and small-scale gold mining (ASGM) and large-scale mining in the Ecuadorian Amazon region is potentially harmful to nature, and its impacts are associated with environmental degradation and deterioration of people’s health. So far, limited efforts have been directed at exploring the current situation and challenges facing the implementation of environmental policies in the country. The objective of this study focused on analyzing the historical and current situation and challenges of ASGM in the Amazon region of Ecuador in relation to a political perspective (laws), socioeconomic impacts (population displacement, loss of livelihoods, migration of people, cost of living, water scarcity, and health impacts), and environmental impacts (biotic and abiotic). The methodology used was based on a literature review and interviews, and information that was discussed through an expert judgment allowed for establishing challenges to improve ASGM management. The main results indicate that lack of community participation in decision-making, insufficient coordination between government institutions, communities, and miners, and lack of control of mining activities are factors that contribute to ineffective compliance with environmental policies in the gold mining sector in the Amazon. Finally, the study concludes by considering the socioeconomic and environmental scopes within its findings for implementing effective environmental and social policies in the Amazon region of Ecuador.

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Section: Introductionmentioning

confidence: 99%

Gold Mining in the Amazon Region of Ecuador: History and a Review of Its Socio-Environmental Impacts

Mestanza-Ramón

Cuenca-Cumbicus²,

D’Orio

et al. 2022

Land

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“…Eine der planetaren Grenzen ist der Süßwasserverbrauch, der im Bergbau eine wesentliche Rolle spielt, da oft große Mengen an Wasser benötigt werden [20,21]. Integrierte, auf Wassereinzugsgebieten basierende Wasserbewirtschaftung bedeutet eine umfassende und von allen Interessenshalter*innen gemeinsam geplante Vorgangsweise, bei der Gewässer als wertvolle Ressourcen gesehen werden und Wasserqualität, -effizienz und die Vermeidung von Wasserverbrauch im Vordergrund stehen.…”

Section: öKologische Nachhaltigkeitunclassified

Nachhaltiger Bergbau 2050

Tost

Streit

Endl

et al. 2022

Berg Huettenmaenn Monatsh

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ZusammenfassungNachhaltigkeit und nachhaltige Entwicklung sind komplexe Themen. Die Gewinnung mineralischer Rohstoffe nimmt dabei aufgrund des ökonomischen Potentials und der Umwelt- und Sozialauswirkungen eine wesentliche Rolle ein. Daher wäre ein einheitlicher Rahmen zur Beschreibung einer verantwortungsvollen bzw. nachhaltigen Rohstoffgewinnung in Europa von Vorteil. Teil des Horizon 2020 Projektes SUMEX ist die Schaffung solch eines Rahmens. Das Projekt untersucht die Transformation des europäischen Rohstoffsektors von der Einhaltung bestehender Gesetze und einem verantwortungsvollen Umgang hin zu nachhaltigem Management. Mittels Recherche existierender Definitionen und Strategien zur Nachhaltigkeit im Kontext der Gewinnung mineralischer Rohstoffe, sowie Interviews mit verschiedenen Stakeholdern, wurde der SUMEX Nachhaltigkeitsansatz entwickelt. Dieser wurde speziell auf die europäische Rohstoffgewinnung zugeschnitten und soll dabei helfen, die erforderliche Transformation zu einem nachhaltigen Sektor bis zum Jahr 2050 zu verwirklichen. Der SUMEX Nachhaltigkeitsansatz beschreibt Aspekte eines nachhaltigen Managements in der europäischen Rohstoffindustrie durch verschiedene Themen und Ziele.

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“…Additionally, some studies are based on individual mine-site surveys, while others cover a wide range of mine-site specific data derived from mining companies' sustainability reports. Moreover, the challenge of the lacking coherence of mine water use in the literature and LCA databases is described in almost every study conducted, such the studies of Gunson (2013) [27], Northey et al (2016) [14] and Tost et al (2018) [93]. As a consequence, the comparison of data within the literature is very limited [97], particularly between all commodities observed.…”

Section: Water Consumption In Mining and Refining Of Metal Raw Materialsmentioning

confidence: 99%

The Impact of Metal Mining on Global Water Stress and Regional Carrying Capacities—A GIS-Based Water Impact Assessment

Meißner

2021

Resources

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The consumption of freshwater in mining accounts for only a small proportion of the total water use at global and even national scales. However, at regional and local scales, mining may result in significant impacts on freshwater resources, particularly when water consumption surpasses the carrying capacities defined by the amount of available water and also considering environmental water requirements. By applying a geographic information system (GIS), a comprehensive water footprint accounting and water scarcity assessment of bauxite, cobalt, copper, iron, lead, manganese, molybdenum, nickel, uranium and zinc as well as gold, palladium, platinum and silver was conducted to quantify the influence of mining and refining of metal production on regional water availability and water stress. The observation includes the water consumption and impacts on water stress of almost 2800 mining operations at different production stages, e.g., preprocessed ore, concentrate and refined metal. Based on a brief study of mining activities in 147 major river basins, it can be indicated that mining’s contribution to regional water stress varies significantly in each basin. While in most regions mining predominantly results in very low water stress, not surpassing 0.1% of the basins’ available water, there are also exceptional cases where the natural water availability is completely exceeded by the freshwater consumption of the mining sector during the entire year. Thus, this GIS-based approach provides precise information to deepen the understanding of the global mining industry’s influence on regional carrying capacities and water stress.

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Metal Mining’s Environmental Pressures: A Review and Updated Estimates on CO2 Emissions, Water Use, and Land Requirements

Cited by 34 publications

References 14 publications

Gold Mining in the Amazon Region of Ecuador: History and a Review of Its Socio-Environmental Impacts

Gold Mining in the Amazon Region of Ecuador: History and a Review of Its Socio-Environmental Impacts

Nachhaltiger Bergbau 2050

The Impact of Metal Mining on Global Water Stress and Regional Carrying Capacities—A GIS-Based Water Impact Assessment

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