Abstract
AbstractThe area used for mineral extraction is a key indicator for understanding and mitigating the environmental impacts caused by the extractive sector. To date, worldwide data products on mineral extraction do not report the area used by mining activities. In this paper, we contribute to filling this gap by presenting a new data set of mining extents derived by visual interpretation of satellite images. We delineated mining areas within a 10 km buffer from the approximate geographical coordinates of more than six thousand active mining sites across the globe. The result is a global-scale data set consisting of 21,060 polygons that add up to 57,277 km2. The polygons cover all mining above-ground features that could be identified from the satellite images, including open cuts, tailings dams, waste rock dumps, water ponds, and processing infrastructure. The data set is available for download from 10.1594/PANGAEA.910894 and visualization at www.fineprint.global/viewer.
Publisher
Springer Science and Business Media LLC
Subject
Library and Information Sciences,Statistics, Probability and Uncertainty,Computer Science Applications,Education,Information Systems,Statistics and Probability
Reference65 articles.
1. Giljum, S., Dittrich, M., Lieber, M. & Lutter, S. Global patterns of material flows and their socio-economic and environmental implications: A MFA study on all countries world-wide from 1980 to 2009. Resources 3, 319–339 (2014).
2. IRP, U. Global Resources Outlook 2019: Natural Resources for the Future we Want. A Report of the International Resource Panel. Report No. DTI/2226/NA (United Nations Environment Programme, 2019).
3. Krausmann, F., Schandl, H., Eisenmenger, N., Giljum, S. & Jackson, T. Material flow accounting: Measuring global material use for sustainable development. Ann. Rev. Env. Resour. 42, 647–675 (2017).
4. Calvo, G., Mudd, G., Valero, A. & Valero, A. Decreasing ore grades in global metallic mining: A theoretical issue or a global reality? Resources 5 (2016).
5. Prior, T., Giurco, D., Mudd, G., Mason, L. & Behrisch, J. Resource depletion, peak minerals and the implications for sustainable resource management. Glob. Environ. Change 22, 577–587 (2012).
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