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Published April 26, 2023 | Version v1
Journal article Open

Global mining footprint mapped from high-resolution satellite imagery

  • 1. College of Earth Sciences, Chengdu University of Technology
  • 2. School of Geography, Earth and Atmospheric Sciences, Faculty of Science, The University of Melbourne

Description

Mining is of major economic, environmental and societal consequence, yet  knowledge and understanding of its global footprint is still limited. Here, we produce a global mining land use dataset via remote sensing analysis of high-resolution, publicly available satellite imagery. The dataset comprises 74,548 polygons, covering ~66,000 km2 of features like waste rock dumps, pits, water ponds, tailings dams, heap leach pads and processing/milling infrastructure. Our polygons finely contour the edges of mine features and do not include the space between them. This distinguishes our dataset from others that employ broader definitions of mining lands. Hence, despite our database being the largest to date by number of polygons, comparisons show relatively lower global land use. Our database is made freely available to support future studies of global mining impacts. A series of spatial analyses are also presented that highlight global mine distribution patterns and broader environmental risks.

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