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A global rise in alluvial mining increases sediment load in tropical rivers

Author

Listed:
  • Evan N. Dethier

    (Dartmouth College
    Dartmouth College
    Bowdoin College
    Occidental College)

  • Miles Silman

    (Wake Forest University
    Wake Forest University)

  • Jimena Díaz Leiva

    (Center for Environmental Health)

  • Sarra Alqahtani

    (Wake Forest University
    Wake Forest University)

  • Luis E. Fernandez

    (Wake Forest University
    Centro de Innovación Científica Amazónica (CINCIA))

  • Paúl Pauca

    (Wake Forest University
    Wake Forest University)

  • Seda Çamalan

    (Wake Forest University)

  • Peter Tomhave

    (Bowdoin College)

  • Francis J. Magilligan

    (Dartmouth College)

  • Carl E. Renshaw

    (Dartmouth College)

  • David A. Lutz

    (Dartmouth College)

Abstract

Increasing gold and mineral mining activity in rivers across the global tropics has degraded ecosystems and threatened human health1,2. Such river mineral mining involves intensive excavation and sediment processing in river corridors, altering river form and releasing excess sediment downstream2. Increased suspended sediment loads can reduce water clarity and cause siltation to levels that may result in disease and mortality in fish3,4, poor water quality5 and damage to human infrastructure6. Although river mining has been investigated at local scales, no global synthesis of its physical footprint and impacts on hydrologic systems exists, leaving its full environmental consequences unknown. We assemble and analyse a 37-year satellite database showing pervasive, increasing river mineral mining worldwide. We identify 396 mining districts in 49 countries, concentrated in tropical waterways that are almost universally altered by mining-derived sediment. Of 173 mining-affected rivers, 80% have suspended sediment concentrations (SSCs) more than double pre-mining levels. In 30 countries in which mining affects large (>50 m wide) rivers, 23 ± 19% of large river length is altered by mining-derived sediment, a globe-spanning effect representing 35,000 river kilometres, 6% (±1% s.e.) of all large tropical river reaches. Our findings highlight the ubiquity and intensity of mining-associated degradation in tropical river systems.

Suggested Citation

  • Evan N. Dethier & Miles Silman & Jimena Díaz Leiva & Sarra Alqahtani & Luis E. Fernandez & Paúl Pauca & Seda Çamalan & Peter Tomhave & Francis J. Magilligan & Carl E. Renshaw & David A. Lutz, 2023. "A global rise in alluvial mining increases sediment load in tropical rivers," Nature, Nature, vol. 620(7975), pages 787-793, August.
  • Handle: RePEc:nat:nature:v:620:y:2023:i:7975:d:10.1038_s41586-023-06309-9
    DOI: 10.1038/s41586-023-06309-9
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    Cited by:

    1. Luiz Cortinhas Ferreira Neto & Cesar Guerreiro Diniz & Raian Vargas Maretto & Claudio Persello & Maria Luize Silva Pinheiro & Marcia C. Castro & Luis Waldyr Rodrigues Sadeck & Alexandre Fernandes Filh, 2024. "Uncontrolled Illegal Mining and Garimpo in the Brazilian Amazon," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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